MS001: Meteorological data from benchmark stations at the HJ Andrews Experimental Forest, 1957 to present

Citation

Daly, C.; Schulze, M.; McKee, W. 2025. Meteorological data from benchmark stations at the HJ Andrews Experimental Forest, 1957 to present Long-Term Ecological Research Andrews Forest LTER Site. [Database]. Available: https://andrewsforest-stage.forestry.oregonstate.edu/data/fsdb-data-catalog/MS001 Accessed 2026-05-10.

Abstract

A three-level hydro-climatological network for data monitoring was established in 1994. The networks at each level are nested to form a coordinated program of data acquisition and measurement. A future vision of linking the benchmark meteorological stations with regional weather stations to expand the future scope of studies was also considered in designing this network. The first-level in this top-down approach consists of Benchmark Meteorological Stations (BMS) and Benchmark Stream Stations. The BMS are designed to represent the environment across the Andrews. These stations are intended to provide complete, long-term, high temporal resolution, meso-scale hydroclimatological data. The location of the BMS network is based on factors such as elevation, aspect, vegetation gradients, and accessibility. Collected meteorological parameters are generally standardized across the BMS as well as methods and instrumentation. Secondary Meteorological Stations also follow standardized methods and serve similar purposes but are somewhat limited in meteorological parameters collected. The Primary Meteorological Station (PRIMET), Central Meteorological Station (CENMET), Upper Lookout Meteorological Station (UPLMET), and Vanilla Leaf Meteorological Station (VANMET) are the four Benchmark Stations, Climatic Station at Watershed 2 (CS2MET) and the Hi-15 Meteorological Station (H15MET) are Secondary Stations. Watershed 7 Meteorological Station (WS7MET) was instrumented in 2006 and serves as an additional Secondary Station. In 2024, entities/measurement parameters (precipitation, wind, solar, soil, and snow) from MS001 database were partitioned out into separate databases.

Coverage

Temporal coverage: 1957-01-10 to 2024-10-01

Geographic coverage: H. J. Andrews Experimental Forest

Spatial coverage:

Loading map…

Bounds: W -122.25594100, E -122.11976300, N 44.27332900, S 44.20709700

Purpose

Hydrology, climatology, and biology interact over a wide range of spatial and temporal scales. Continuous interaction among climate, soils, landuse, and vegetation shape the hydrology and ecology of a landscape. Long-term measurements of such variables at various time and space scales provide an essential foundation for understanding ecosystem processes, and document changes in the local, regional, and global environments.

Project

Title: Long-Term Ecological Research

Personnel

Posy Elizabeth Busby - Principal Investigator
Assistant Professor OSU Botany & Plant Pathology

Email: busbyp@science.oregonstate.edu, posybusby@gmail.com

URL: http://bpp.oregonstate.edu/content/posy-busby

ORCID: 0000-0002-2837-9820
Matthew G Betts - Principal Investigator
Department of Forest Ecosystems and Society; 201E Richardson Hall; College of Forestry; Oregon State University, Corvallis, OR, 97331

Phone: (541) 737-3841

Email: matt.betts@oregonstate.edu

URL: http://www.fsl.orst.edu/flel/index.htm

ORCID: 0000-0002-7100-2551
Brooke E. Penaluna - Principal Investigator
Email: brooke.penaluna@usda.gov, Brooke.Penaluna@oregonstate.edu

URL: https://www.fs.fed.us/pnw/lwm/aem/people/penaluna.html

ORCID: 0000-0001-7215-770X
Catalina Segura - Principal Investigator
Assistant Professor; Department of Forest Engineering, Resources, and Management; Oregon State University, Corvallis, OR, 97331

Phone: 541-737-6568

Email: catalina.segura@oregonstate.edu

URL: http://ferm.forestry.oregonstate.edu/facstaff/segura-catalina

ORCID: 0000-0002-0924-1172
David M. Bell - Principal Investigator
Email: david.bell@usda.gov, david.bell@oregonstate.edu

URL: https://lemma.forestry.oregonstate.edu/about/david-bell

ORCID: 0000-0002-2673-5836

Abstract

The H.J. Andrews Experimental Forest is a living laboratory that provides unparalleled opportunities for the study of forest and stream ecosystems in the central Cascade Range of Oregon. Since 1980, as a part of the National Science Foundation Long Term Ecological Research (NSF-LTER) program, the Andrews Experimental Forest has become a leader in the analysis of forest and stream ecosystem dynamics.
Long-term field experiments and measurement programs have focused on climate dynamics, streamflow, water quality, and vegetation succession. Currently researchers are working to develop concepts and tools needed to predict effects of natural disturbance, land use, and climate change on ecosystem structure, function, and species composition.
The Andrews Experimental Forest is administered cooperatively by the USDA Forest Service Pacific Northwest Research Station, Oregon State University and the Willamette National Forest. Funding for the research program comes from the National Science Foundation (NSF), US Forest Service Pacific Northwest Research Station, Oregon State University, and other sources.

Funding

Data were provided by the HJ Andrews Experimental Forest research program, funded by the National Science Foundation's Long-Term Ecological Research Program (DEB 2025755), US Forest Service Pacific Northwest Research Station, and Oregon State University. National Science Foundation: DEB2025755

Awards

LTER: Long-Term Ecological Research at the H.J. Andrews Experimental Forest (LTER8)
Award Number: DEB2025755

Funder: National Science Foundation

Funder Identifier: https://ror.org/021nxhr62

URL: https://www.nsf.gov/awardsearch/showAward?AWD_ID=2025755

Study Area Description

Long-Term Ecological Research
The Andrews Forest is situated in the western Cascade Range of Oregon, and covers the entire 15,800-acre (6400-ha) drainage basin of Lookout Creek. Elevation ranges from 1350 to 5340 feet (410 to 1630 m). Broadly representative of the rugged mountainous landscape of the Pacific Northwest, the Andrews Forest contains excellent examples of the region's conifer forests and associated wildlife and stream ecosystems. These forests are among the tallest and most productive in the world, with tree heights of often greater than 250 ft (75 m). Streams are steep, cold and clean, providing habitat for numerous aquatic organisms.

Associated Party

Contact

Information Manager
Andrews Forest LTER Program, US Forest Service Pacific Northwest Research Station, 3200 SW Jefferson Way, Corvallis, OR, 97331

Email: hjaweb@lists.oregonstate.edu

URL: http://andrewsforest.oregonstate.edu/
Adam M Kennedy
1055 Clinton Drive, Eugene, OR, 97401, US

Phone: 541-822-6302

Email: adam.kennedy@oregonstate.edu, kennaster@gmail.com

URL: https://directory.forestry.oregonstate.edu/people/kennedy-adam
Stephanie A Schmidt
USDA Forest Service; 3200 SW Jefferson Way, Corvallis, Oregon, 97331

Email: stephanie.schmidt@oregonstate.edu, stephanie.schmidt2@usda.gov

Publisher

Andrews Forest LTER Site
Role: Publisher

Forest Ecosystems and Society Department in Forestry, Oregon State University, 201K Richardson Hall, Corvallis, OR, 97331-5752

Phone: (541) 737-8480

Email: lterweb@lists.oregonstate.edu

URL: http://andrewsforest.oregonstate.edu/

Study Description

A three-level hydro-climatological network for data monitoring was established in 1994. The networks at each level are nested to form a coordinated program of data acquisition and measurement. A future vision of linking the benchmark meteorological stations with regional weather stations to expand the future scope of studies was also considered in designing this network. The first-level in this top-down approach consists of Benchmark Meteorological Stations (BMS) and Benchmark Stream Stations. The BMS are designed to represent the environment across the Andrews. These stations are intended to provide complete, long-term, high temporal resolution, meso-scale hydroclimatological data. The location of the BMS network is based on factors such as elevation, aspect, vegetation gradients, and accessibility. Collected meteorological parameters are generally standardized across the BMS as well as methods and instrumentation. Secondary Meteorological Stations also follow standardized methods and serve similar purposes but are somewhat limited in meteorological parameters collected. The Primary Meteorological Station (PRIMET), Central Meteorological Station (CENMET), Upper Lookout Meteorological Station (UPLMET), and Vanilla Leaf Meteorological Station (VANMET) are the four Benchmark Stations, Climatic Station at Watershed 2 (CS2MET) and the Hi-15 Meteorological Station (H15MET) are Secondary Stations. Watershed 7 Meteorological Station (WS7MET) was instrumented in 2006 and serves as an additional Secondary Station. In 2024, entities/measurement parameters (precipitation, wind, solar, soil, and snow) from MS001 database were partitioned out into separate databases. Hydrology, climatology, and biology interact over a wide range of spatial and temporal scales. Continuous interaction among climate, soils, landuse, and vegetation shape the hydrology and ecology of a landscape. Long-term measurements of such variables at various time and space scales provide an essential foundation for understanding ecosystem processes, and document changes in the local, regional, and global environments. Processing Procedure - MS001: Early PRIMET data

Purpose: Hydrology, climatology, and biology interact over a wide range of spatial and temporal scales. Continuous interaction among climate, soils, landuse, and vegetation shape the hydrology and ecology of a landscape. Long-term measurements of such variables at various time and space scales provide an essential foundation for understanding ecosystem processes, and document changes in the local, regional, and global environments.

Methods

Method Steps

Processing Procedure - MS001: Early PRIMET data

A description of the early processing history and instrumentation for the Primary Meteorological Station (PRIMET), 1972-1989, is posted here:
http://andrewsforest.oregonstate.edu/data/studies/ms01/ms001_primet_1972_1989.pdf

Field Methods - MS001: Air temperature

The follow link describes data collection methods (by date range and resolution) that have been used by each unique probe. Results are filtered by database code, sitecode, parameter, and probe.
https://andlter.forestry.oregonstate.edu/MethodCode/View_History.aspx
Please follow this link to view climate data collection methods that have been used over time at select stations. Results can be filtered by parameter, climate station, and date range. A general text search is also available.
https://hjandrews.shinyapps.io/im_methods_history/
Temperature data has been measured with a variety of instruments:
Thermocouple wire: Probe is type T thermocouple soldered from thermocouple wire
Campbell Scientific thermistor probe: Campbell Scientific model 107 temperature probe (CS107B, CS107B-L) includes the Fenwal Electronics UUT51J1 thermistor
Vaisala Relative Humidity/Temperature probes: Temperature and relative humidity are sampled by a Campbell Model HMP35C or the HMP45C probe containing a Vaisala capacitive relative humidity sensor and a Fenwal Electronics UUT51J1 thermistor
Probes were housed in locally designed PVC radiation shields from the 1980s until the mid 2000s. Gill radiation shields replaced the PVC shields at all of the benchmark sites after a significant concurrent comparison was made. Aspirated shields are also now in use. The original 1.5 meter Primary Met Station sensor was housed in a Cotton Region Shelter. Historical methods included Rustrak strip charts with thermister where air temperature is measured by a Yellow Springs Instruments linear thermistor in a standard Cotton Region Shelter and continuously recorded on a separate 30-day Rustrak strip chart scaled from -10 degrees C to 40 degrees C.
Data loggers are typically Campbell Scientific (CR10, CR21X, CR500, or CR23X). Early data loggers used in the 1980s are Interface Instrument models M-2, M-3, and M-4.

Instrumentation:

Thermocouple wire; Campbell Scientific model 107 temperature probe (CS107B, CS107B-L) includes the Fenwal Electronics UUT51J1 thermistor; Campbell Model HMP35C or the HMP45C probe containing a Vaisala capacitive relative humidity sensor and a Fenwal Electronics UUT51J1 thermistor; Campbell Scientific data loggers (CR10, CR21X, CR500, or CR23X); Interface Instrument models M-2, M-3, and M-4

Field Methods - MS001: Dew point temperature

The follow link describes data collection methods (by date range and resolution) that have been used by each unique probe. Results are filtered by database code, sitecode, parameter, and probe.
https://andlter.forestry.oregonstate.edu/MethodCode/View_History.aspx
Please follow this link to view climate data collection methods that have been used over time at select stations. Results can be filtered by parameter, climate station, and date range. A general text search is also available.
https://hjandrews.shinyapps.io/im_methods_history/
Dew Point is calculated from air temperature and relative humidity every sampling interval (generally every 15 seconds) and output hourly using Tetens Equation for the relation between temperature and the partial pressure of water vapor (see http://andrewsforest.oregonstate.edu/data/studies/ms01/dewpt_vpd_calculations.pdf). This is calculated for independent pairs of air temperature and relative humidity probes at 150 and 450 cm heights for all benchmark stations (except CS2MET which only has sensors at 150 cm height).
Historical methods at PRIMET used a heated lithium-chloride dew point sensor with a thermistor that recorded continuously on a separate 30-day Rustrak strip chart throughout the 1970s. An Interface Instrument hygrometer with linear thermister was used to measure dew point indirectly with a heated Interface Instrument lithium-chloride hygrometer with a linear thermistor from 1979 until 1988. The PRIMET early dew point sensors and subsequent air temperature and relative humidity sensors used to calculate dew point were located in the 150 cm height cotton shelter until May 2000. The cotton shelter was discontinued for dew point calculation and replaced with use of the 450 cm probe on the PRIMET tower.

Instrumentation:

Early instrumentation at PRIMET in the 1970s included a heated lithium-chloride dew point sensor. The sensor temperature is measured with a thermistor and recorded continuously on a separate 30-day Rustrak strip chart scaled from -5 degrees C to 20 degrees C with and with an accuracy and resolution of 1 degree C. The Interface Instrument M-2 or M-3 data logger was used. This sensor was often very unreliable. In the 1980s, dew point temperature is measured indirectly by a heated Interface Instrument lithium-chloride hygrometer with a linear thermistor. The accuracy is +/-0.5 degrees C with a resolution of 0.1 degrees C, and range of -14 to 29 degrees C. The Interface Instruments M-4 data logger was used. All other dew point measurements have been calculated from air temperature and relative humidity sensors.

Field Methods - MS001: Relative humidity

The follow link describes data collection methods (by date range and resolution) that have been used by each unique probe. Results are filtered by database code, sitecode, parameter, and probe.
https://andlter.forestry.oregonstate.edu/MethodCode/View_History.aspx
Please follow this link to view climate data collection methods that have been used over time at select stations. Results can be filtered by parameter, climate station, and date range. A general text search is also available.
https://hjandrews.shinyapps.io/im_methods_history/
Generally, relative humidity is output hourly and is measured at heights of both 150 and 450 cm at these benchmark stations using Vaisala sensors with Campbell data loggers. Early records at CS2MET employed a hygrothermograph sensor to record daily max-min relative humidity from within a Cotton Region shelter on a recording chart from 1958 to 1998. Standard maximum and minimum thermometers on a Townsend support and a sling psychrometer were used to make weekly corrections to the hygrothermograph chart readings.

Instrumentation:

Temperature and relative humidity are sampled by Campbell Model HMP35C or HMP45C probes containing a Vaisala capacitive relative humidity sensor and a Fenwal Electronics UUT51J1 thermistor. The probes were originally housed in a locally-designed PVC radiation shield, which were later replaced with Gill radiation shields. Campbell Scientific data loggers are used. The original 1.5 meter Primary Met Station sensor was housed in a Cotton Region Shelter. Historical instrumentation include the the Weather Measure Hi-Q hygrothermograph (http://www.novalynx.com/225-5020.html), a precision, self-contained recording instrument that measures and records ambient temperature and relative humidity simultaneously on a double scale chart. A specially treated bundle of human hair is used to measure relative humidity over the full range of 0 to 100%. The hair expands and contracts with increasing or decreasing amounts of water vapor in the air. The chart is installed on a self-contained brass clock which is spring-wound with accuracy of +/- 1%. A Belfort hygrothermograph had been used previously in the late 1950s and 1960s. The Belfort Maximum Minimum Thermometer Cat No. 5-484 indicates the temperature extremes reached over a 24 hour period and is the standard for correcting chart temperature readings.

Field Methods - MS001: Watervapor pressure deficit

The follow link describes data collection methods (by date range and resolution) that have been used by each unique probe. Results are filtered by database code, sitecode, parameter, and probe.
https://andlter.forestry.oregonstate.edu/MethodCode/View_History.aspx
Please follow this link to view climate data collection methods that have been used over time at select stations. Results can be filtered by parameter, climate station, and date range. A general text search is also available.
https://hjandrews.shinyapps.io/im_methods_history/
Vapor pressure deficit values are calculated and output hourly from air temperature and relative humidity probes that sample every 15 seconds. Values are output in millibars and are collected at 150 and 450 cm heights at each of the four benchmark stations (PRIMET, CENMET, UPLMET, VANMET). The earliest hourly calculations were started at PRIMET in 1988 from air temperature and relative humidity sensors located in the 150 cm cotton shelter based on sampling every 15 seconds (in millibars). Please see the following for calculation details: http://andrewsforest.oregonstate.edu/data/studies/ms01/dewpt_vpd_calculations.pdf
Providing calculated vapor pressure deficit values was discontinued 9/30/2021.

Instrumentation:

Water vapor pressure deficit is computed from relative humidity and air temperature every 15 second sampling interval and output hourly until August 2014 then output every 5 minutes.

Models/Algorithms - MS001

Dewpoint and vapor pressure deficit equations can be found at:
http://andrewsforest.oregonstate.edu/data/studies/ms01/dewpt_vpd_calculations.pdf

Processing Procedures - MS001

Sensor data streams via wifi into files at the headquarters. The files are run through GCE Data Toolbox, which is a comprehensive software framework for metadata-based analysis, quality control, transformation and management of ecological data sets. https://gce-lter.marsci.uga.edu/public/im/tools/data_toolbox.htm. The files are provided on the provisional data page. For processing into final formats, these files are processed through a Python script called Fastbridge where data visualization is possible and QC/QA validation and report logs occur. Data ranges are checked, specific statistical analysis are performed, data are transformed into final FSDB format.

Quality Assurance - Fire effects on data

The HJ Andrews Experimental Forest was affected by wildfires in 2020, 2023, and, to a lesser degree, 2024. Documentation is being developed that will describe the potential impacts on long-term records, provide the date ranges of direct impact, and describe specific site or data impacts. The use of the BURNED event_code was expanded to include wildfire, and a code was added to each relevant attribute flag to indicate when fire effects are visible in the data (P=Pyro).

Sampling

Study Extent

Temperature and rainfall in the Andrews Experimental Forest are are typical of a maritime climate with wet, relatively mild winters and dry, cool summers. Humidity is generally high through winter months, and maximum daily relative humidity approaches 100 percent at night throughout the year. Minimum summer humidities generally hover around 30-50 percent. Temperature extremes range from near 0 degrees F in unusually cold winters to over 100 degrees for brief periods almost every summer. The range in mean annual temperature (1972-2002) is 7.1-10.5 degrees C at a low elevation site (PRIMET). Precipitation varies with elevation - long-term annual average at low elevation (450 m) is 2200 mm, and at high elevation (1200m) is 2600 mm.
Sampling frequency: continuous

Sampling Description

Spatial Sampling Units

Central Meteorological Station
W -122.14109300, E -122.14109300, N 44.24348200, S 44.24348200
Climatic Station at Watershed 2
W -122.24862900, E -122.24862900, N 44.21473500, S 44.21473500
High 15 Meteorological Station
W -122.17378247, E -122.17378247, N 44.26425069, S 44.26425069
Primary Meteorological Station
W -122.25594100, E -122.25594100, N 44.21189300, S 44.21189300
Upper Lookout Meteorological Station
W -122.11976300, E -122.11976300, N 44.20709700, S 44.20709700
Vanilla Leaf Meteorological Station
W -122.14936800, E -122.14936800, N 44.27161800, S 44.27161800
Watershed 7 Meteorological Station
W -122.17657400, E -122.17657400, N 44.26657600, S 44.26657600
Vanilla Leaf Meadow Meteorological Station
W -122.14966300, E -122.14966300, N 44.27332900, S 44.27332900

Software

No software entries listed in this EML file.

Keywords

LTER controlled vocabulary: hydrology (theme), meteorology (theme), climatology (theme), climate change (theme), atmospheric pressure (theme), vapor pressure (theme), relative humidity (theme), precipitation (theme), snow accumulation (theme), wind direction (theme), wind speed (theme), snow (theme), air temperature (theme), soil temperature (theme), photosynthetically active radiation (theme), solar radiation (theme), soil moisture (theme), disturbance (theme), monitoring (theme)
LTER core research areas: disturbance (theme)

Taxonomic Hierarchy

No taxonomic hierarchy listed in this EML file.

Data Entities

#	Entity	Metadata	Data
1	MS00101 Air temperature (daily) The earliest air temperature records occur at the Climatic Station (CS2MET) as daily max-min beginning in 1958. Records begin in 1972 at Primary Meteorological Station (PRIMET).	METADATA	DATA
2	MS00102 Relative humidity (daily) The earliest relative humidity records occur at the Climatic Station (CS2MET) as daily max-min beginning in 1958.	METADATA	DATA
3	MS00107 Dewpoint temperature (daily) Data is calculated from air temperature and relative humidity	METADATA	DATA
4	MS00108 Water vapor pressure deficit (daily) Data is calculated from air temperature and relative humidity. Providing calculated fine temporal resolution data discontinued 9/30/2021. Daily data is discontinued on March 25, 2019.	METADATA	DATA
5	MS00111 Air temperature (fine temporal resolution) Records begin in 1972 at Primary Meteorological Station (PRIMET).	METADATA	DATA
6	MS00112 Relative humidity (fine temporal resolution) Relative humidity is the percentage of water vapor present in air compared to the maximum amount the air can hold at a given temperature.	METADATA	DATA
7	MS00117 Dewpoint temperature (fine temporal resolution) Data is calculated from air temperature and relative humidity.	METADATA	DATA
8	MS00118 Water vapor pressure deficit (fine temporal resolution) Data is calculated from air temperature and relative humidity. Providing calculated data discontinued 9/30/2021.	METADATA	DATA
9	MS00136 Atmospheric pressure (fine temporal resolution) Atmospheric pressure is the force exerted by the weight of air in Earth's atmosphere on surfaces below, typically measuring 14.7 psi at sea level and decreasing with altitude.	METADATA	DATA

Metadata

MS00101 - Air temperature (daily)

Object name: MS00101_v9.csv

Records: 236575

Attributes: 17

Temporal coverage: 1958-02-03 to 2019-03-28

File size: 20953867 byte

Checksum (MD5): 31cd8f10282d8976d942817d106f178c

Format: headers=1, recordDelimiter=\r\n, fieldDelimiter=,, quoteCharacter=", orientation=column

Constraints (2)

primaryKey: PRIMARY
MS00101.DATE, MS00101.PROBE_CODE, MS00101.SITECODE
notNullConstraint: NOTNULL
MS00101.DATE, MS00101.ENTITY, MS00101.AIRTEMP_MEAN_FLAG, MS00101.AIRTEMP_MAX_FLAG, MS00101.AIRTEMP_MIN_FLAG, MS00101.PROBE_CODE, MS00101.DBCODE, MS00101.SITECODE, MS00101.HEIGHT, MS00101.EVENT_CODE, MS00101.QC_LEVEL, MS00101.AIRTEMP_METHOD

Attributes (17)

DBCODE - char(5) (nominal)

ID: MS00101.DBCODE

FSDB database code

Type system: Microsoft SQL Server 2019

Code definitions (1)

MS001
FSDB Database Code

ENTITY - numeric(2,0) (interval)

ID: MS00101.ENTITY

Entity number

Type system: Microsoft SQL Server 2019

Unit: number

Precision: 1.000000

Numeric domain: type=natural, min=1.0000 (exclusive=false), max=1.0000 (exclusive=false)

SITECODE - char(6) (nominal)

ID: MS00101.SITECODE

Site code for the meteorological measurement station

Type system: Microsoft SQL Server 2019

Code definitions (8)

CENMET
Central Meteorological Station
PRIMET
Primary Meteorological Station
UPLMET
Upper Lookout Meteorological Station
VANMET
Vanilla Leaf Meteorological Station
CS2MET
Climatic Station at Watershed 2
H15MET
High 15 Meteorological Station
VARMET
Vanilla Leaf Meadow Meteorological Station
WS7MET
Watershed 7 Meteorological Station

AIRTEMP_METHOD - char(6) (nominal)

ID: MS00101.AIRTEMP_METHOD

An indication of the the general methodology and instrumentation used to collect this air temperature data

Type system: Microsoft SQL Server 2019

Code definitions (125)

AIR005
Air temperature is sampled by a thermistor housed in a standard cotton region shelter at 150 cm height and continuously recorded on a separate 30-day Rustrak strip chart; mean temperature is output every 60 minutes
AIR006
Air temperature is sampled by a Yellow Springs Instrument Company linear thermistor (YSI44018) housed in a standard cotton region shelter at 150 cm height; mean temperature is output every 60 minutes
AIR007
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a standard cotton region shelter at 150 cm height; mean temperature is output every 60 minutes
AIR008
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a standard cotton region shelter at 150 cm height; mean temperature is output every 15 minutes
AIR009
Air temperature is sampled by a Campbell Scientific model HMP35C probe housed in a standard cotton region shelter at 150 cm height; mean temperature is output every 15 minutes
AIR010
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 50 cm height; mean temperature is output every 60 minutes
AIR011
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 150 cm height; mean temperature is output every 60 minutes
AIR012
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 450 cm height; mean temperature is output every 60 minutes
AIR013
Air temperature is sampled by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 480 cm height; mean temperature is output every 60 minutes
AIR014
Air temperature is sampled by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 150 cm height; mean temperature is output every 60 minutes
AIR015
Air temperature is sampled by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 450 cm height; mean temperature is output every 60 minutes
AIR016
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a locally designed PVC radiation shield at 150 cm height; mean temperature is output every 60 minutes
AIR017
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a locally designed PVC radiation shield at 450 cm height; mean temperature is output every 60 minutes
AIR018
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean temperature is output every 60 minutes
AIR019
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean temperature is output every 60 minutes
AIR020
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 50 cm height; mean temperature is output every 15 minutes
AIR021
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 150 cm height; mean temperature is output every 15 minutes
AIR022
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 250 cm height; mean temperature is output every 15 minutes
AIR023
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 350 cm height; mean temperature is output every 15 minutes
AIR024
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 450 cm height; mean temperature is output every 15 minutes
AIR025
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 150 cm height; mean temperature is output every 15 minutes
AIR026
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 250 cm height; mean temperature is output every 15 minutes
AIR027
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 350 cm height; mean temperature is output every 15 minutes
AIR028
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 450 cm height; mean temperature is output every 15 minutes
AIR029
Air temperature is sampled by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 150 cm height; mean temperature is output every 15 minutes
AIR030
Air temperature is sampled by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 450 cm height; mean temperature is output every 15 minutes
AIR031
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a locally designed PVC radiation shield at 150 cm height; mean temperature is output every 15 minutes
AIR032
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a locally designed PVC radiation shield at 450 cm height; mean temperature is output every 15 minutes
AIR033
Air temperature is sampled by a Campbell Scientific model HMP35C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean temperature is output every 15 minutes
AIR034
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean temperature is output every 15 minutes
AIR035
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean temperature is output every 15 minutes
AIR036
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Model 43502 compact aspirated shield at 150 cm height; mean temperature is output every 15 minutes
AIR038
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Model 43502 compact aspirated shield at 350 cm height; mean temperature is output every 15 minutes
AIR041
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Model 43502 compact aspirated shield at 150 cm height; mean temperature is output every 5 minutes
AIR042
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Model 43502 compact aspirated shield at 250 cm height; mean temperature is output every 5 minutes
AIR043
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Model 43502 compact aspirated shield at 350 cm height; mean temperature is output every 5 minutes
AIR044
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Model 43502 compact aspirated shield at 450 cm height; mean temperature is output every 5 minutes
AIR101
Mean daily air temperature is calculated as average of max and min readings. Temperature is recorded on a Cole Parmer hygrothermograph chart at 130 cm height in cotton shelter; daily chart readings are adjusted weekly using a Belfort Max-Min Thermometer
AIR102
Mean daily air temperature is calculated as the average of max and min readings. Temperature is recorded on a Belfort hygrothermograph chart at 130 cm height in cotton shelter; daily chart readings are adjusted weekly using a Belfort Max-Min Thermometer
AIR103
Mean daily air temperature is calculated by the Campbell Scientific datalogger and output on a sunrise to sunrise basis. Max-min values are based on instantaneous 15 second readings. CS Model 107; PVC radiation shield; 450 cm height
AIR104
Mean daily air temperature is calculated by the Campbell Scientific datalogger and output on a sunrise to sunrise basis. Max-min values are based on instantaneous 15 second readings. CS Model 107; PVC radiation shield; 50 cm height
AIR205
Mean daily air temperature is calculated from hourly chart readings. Min-max values are based on hourly mean values. 30-day Rustrak strip chart thermistor housed in a standard cotton region shelter at 150 cm height (See method AIR005)
AIR206
Mean daily air temperature is calculated from hourly thermistor readings. Min-max values are based on hourly mean values. Yellow Springs Instrument Company linear thermistor housed in a standard cotton region shelter at 150 cm ht (See method AIR006)
AIR107
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; cotton region shelter; 150 cm height (See method AIR007)
AIR108
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; cotton region shelter; 150 cm height (See method AIR008)
AIR109
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP35C; cotton region shelter; 150 cm height (See method AIR009)
AIR110
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; PVC radiation shield; 50 cm height (See method AIR010)
AIR111
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; PVC radiation shield; 150 cm height (See method AIR011)
AIR112
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; PVC radiation shield; 450 cm height (See method AIR012)
AIR113
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP35C; PVC radiation shield; 480 cm height (See method AIR013)
AIR114
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP35C; PVC radiation shield; 150 cm height (See method AIR014)
AIR115
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP35C; PVC radiation shield; 450 cm height (See method AIR015)
AIR116
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; PVC radiation shield; 150 cm height (See method AIR016)
AIR117
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; PVC radiation shield; 450 cm height (See method AIR017)
AIR118
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 150 cm height (See method AIR018)
AIR119
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 450 cm height (See method AIR019)
AIR120
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; PVC radiation shield; 50 cm height (See method AIR020)
AIR121
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; PVC radiation shield; 150 cm height (See method AIR021)
AIR122
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; PVC radiation shield; 250 cm height (See method AIR022)
AIR123
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; PVC radiation shield; 350 cm height (See method AIR023)
AIR124
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; PVC radiation shield; 450 cm height (See method AIR024)
AIR125
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; R.M. Young Gill radiation shield; 150 cm height (See method AIR025)
AIR126
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; R.M. Young Gill radiation shield; 250 cm height (See method AIR026)
AIR226
Mean daily air temperature is post-calculated from all 15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. CS Model 107; R.M. Young Gill radiation shield; 250 cm height (See method AIR026)
AIR326
Mean daily air temperature is post-calculated from all 15 minute mean values for the day. Max-min values are based on instantaneous 15 second readings. CS Model 107; R.M. Young Gill radiation shield; 250 cm height (See method AIR026)
AIR127
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; R.M. Young Gill radiation shield; 350 cm height (See method AIR027)
AIR227
Mean daily air temperature is post-calculated from all 15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. CS Model 107; R.M. Young Gill radiation shield; 350 cm height (See method AIR027)
AIR327
Mean daily air temperature is post-calculated from all 15 minute mean values for the day. Max-min values are based on instantaneous 15 second readings. CS Model 107; R.M. Young Gill radiation shield; 350 cm height (See method AIR027)
AIR128
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; R.M. Young Gill radiation shield; 450 cm height (See method AIR028)
AIR129
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP35C; PVC radiation shield; 150 cm height (See method AIR029)
AIR130
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP35C; PVC radiation shield; 450 cm height (See method AIR030)
AIR131
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; PVC radiation shield; 150 cm height (See method AIR031)
AIR132
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; PVC radiation shield; 450 cm height (See method AIR032)
AIR133
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP35C; R.M. Young Gill radiation shield; 450 cm height (See method AIR033)
AIR134
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 150 cm height (See method AIR034)
AIR135
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 450 cm height (See method AIR035)
AIR136
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; aspirated shield; 150 cm height (See method AIR036)
AIR236
Mean daily air temperature is post-calculated from all 15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. CS Model 107; aspirated shield; 150 cm height (See method AIR036)
AIR138
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; aspirated shield; 350 cm height (See method AIR038)
AIR238
Mean daily air temperature is post-calculated from all 15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. CS Model 107; aspirated shield; 350 cm height (See method AIR038)
AIR234
Mean daily air temperature is post-calculated from all 15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 150 cm height (See method AIR034)
AIR334
Mean daily air temperature is post-calculated from all 15 minute mean values for the day. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 150 cm height (See method AIR034)
AIR235
Mean daily air temperature is post-calculated from all 15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 450 cm height (See method AIR035)
AIR335
Mean daily air temperature is post-calculated from all 15 minute mean values for the day. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 450 cm height (See method AIR035)
AIR241
Mean daily air temperature is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. CS Model 107; aspirated shield; 150 cm height (See method AIR041)
AIR242
Mean daily air temperature is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. CS Model 107; aspirated shield; 250 cm height (See method AIR042)
AIR243
Mean daily air temperature is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. CS Model 107; aspirated shield; 350 cm height (See method AIR043)
AIR244
Mean daily air temperature is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. CS Model 107; aspirated shield; 450 cm height (See method AIR044)
AIR228
Mean daily air temperature is post-calculated from all 15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. CS Model 107; R.M. Young Gill radiation shield; 450 cm height (See method AIR028)
AIR045
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean temperature is output every 5 minutes
AIR046
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 250 cm height; mean temperature is output every 5 minutes
AIR047
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 350 cm height; mean temperature is output every 5 minutes
AIR048
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean temperature is output every 5 minutes
AIR245
Mean daily air temperature is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. HMP45C probe; Gill radiation shield; 150 cm height (See method AIR045)
AIR246
Mean daily air temperature is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. CS Model 107; Gill radiation shield; 250 cm height (See method AIR046)
AIR247
Mean daily air temperature is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. CS Model 107; Gill radiation shield; 350 cm height (See method AIR047)
AIR248
Mean daily air temperature is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. HMP45C probe; Gill radiation shield; 450 cm height (See method AIR048)
AIR051
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean, min and max temperature is output every 5 minutes
AIR052
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 350 cm height; mean, min and max temperature is output every 5 minutes
AIR053
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 250 cm height; mean, min and max temperature is output every 5 minutes
AIR054
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean, min and max temperature is output every 5 minutes
AIR056
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Model 43502 compact aspirated shield at 150 cm height; mean, min and max temperature is output every 5 minutes
AIR057
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Model 43502 compact aspirated shield at 250 cm height; mean, min and max temperature is output every 5 minutes
AIR058
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Model 43502 compact aspirated shield at 350 cm height; mean, min and max temperature is output every 5 minutes
AIR059
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Model 43502 compact aspirated shield at 450 cm height; mean, min and max temperature is output every 5 minutes
AIR050
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 450 cm height; mean, min an max temperature is output every 5 minutes
AIR060
Air temperature is sampled by a Campbell Scientific model HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean, min and max temperature is output every 5 minutes
AIR151
Mean daily air temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. Model HMP45C; R.M. Young Gill radiation shield; 450 cm ht (See method AIR051)
AIR152
Mean daily air temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. CS Model 107; R.M. Young Gill radiation shield; 350 cm ht (See method AIR052)
AIR153
Mean daily air temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. CS Model 107; R.M. Young Gill radiation shield; 250 cm ht (See method AIR053)
AIR154
Mean daily air temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. Model HMP45C; R.M. Young Gill radiation shield; 150 cm ht (See method AIR054)
AIR156
Mean daily air temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. CS Model 107; R.M. Young 43502 aspirated shield; 150 cm ht (See method AIR056)
AIR157
Mean daily air temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. CS Model 107; R.M. Young 43502 aspirated shield; 250 cm ht (See method AIR057)
AIR158
Mean daily air temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. CS Model 107; R.M. Young 43502 aspirated shield; 350 cm ht (See method AIR058)
AIR159
Mean daily air temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. CS Model 107; R.M. Young 43502 aspirated shield; 450 cm ht (See method AIR059)
AIR160
Mean daily air temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. CS Model HC2S3-L; RM Young Gill radiation shield; 150 cm ht (See method AIR060)
AIR150
Mean daily air temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. CS Model 107; R.M. Young Gill radiation shield; 450 cm ht (See method AIR050)
AIR061
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean temperature is output every 10 minutes
AIR062
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean temperature is output every 10 minutes
AIR161
Mean daily air temperature is post-calculated from all 10 minute mean values for the day. Max-min values are based on 10 minute mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 450 cm ht (See method AIR061)
AIR162
Mean daily air temperature is post-calculated from all 10 minute mean values for the day. Max-min values are based on 10 minute mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 150 cm ht (See method AIR062)
AIR064
Air temperature is sampled by a Campbell Scientific (CS) CR1000 data logger and CS 107 thermistor housed in a R.M. Young Gill radiation shield at 150 cm height; sampling rate 10 seconds; 5-minute output is the minimum, mean, and maximum of 30 samples.
AIR164
Air temperature is sampled by a Campbell Scientific (CS) CR1000 data logger and CS model 107 thermistor housed in a R.M. Young Gill radiation shield at 150 cm height; sampling rate is 10 seconds; 5-minute output is the minimum, mean, and maximum of 30 samples. Daily mean minimum, mean, and maximum are post-calculated from 5-minute output.
AIR065
Air temperature is sampled by a Campbell Scientific (CS) CR1000 data logger and CS HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; sampling rate 10 seconds; 5-minute output is the minimum, mean, and maximum of 30 samples.
AIR165
Air temperature is sampled by a Campbell Scientific (CS) CR1000 data logger and CS HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; sampling rate 10 seconds; 5-minute output is the minimum, mean, and maximum of 30 samples. Daily mean minimum, mean, and maximum are post-calculated from 5-minute output.

HEIGHT - numeric(4,0) (ratio)

ID: MS00101.HEIGHT

Height of sensor from ground surface

Type system: Microsoft SQL Server 2019

Unit: centimeters

Precision: 1.000000

Numeric domain: type=whole, min=50.0000 (exclusive=false), max=480.0000 (exclusive=false)

QC_LEVEL - char(2) (nominal)

ID: MS00101.QC_LEVEL

Quality control flag indicates level of quality checking performed including an indication of "provisional" data.

Type system: Microsoft SQL Server 2019

Code definitions (5)

1P
Data is provisional and subject to revision - preliminary quality checks have been performed
1A
Data is published and unlikely to change - automated range checking and manual review has been conducted. Quality is indicated in data value qualifier flags.
2A
Data is published and unlikely to change - Level 1A data has been modified such that data gaps may be filled or problem data may be removed
2D
Data is published and unlikely to change - data is derived or aggregated from published data of level 2A
1D
Data is published and unlikely to change - data is derived or aggregated from published data of level 1A

PROBE_CODE - char(8) (nominal)

ID: MS00101.PROBE_CODE

Probe number code indicates the measurement type, site, and sensor number (e.g., AIRPRI01)

Type system: Microsoft SQL Server 2019

Code definitions (194)

AIRCEN01
Air temperature at CENMET, probe no. 01 at height 450 cm on tower
AIRCEN02
Air temperature at CENMET, probe no. 02 at height 350 cm on tower (450 cm from 4 Nov 2002 to 24 Sep 2007)
AIRCEN03
Air temperature at CENMET, probe no. 03 at height 250 cm on tower (150 cm from 31 Oct 2002 to 24 Sep 2007)
AIRCEN04
Air temperature at CENMET, probe no. 04 at height 150 cm on tower
AIRCS201
Air temperature at CS2MET, probe no. 01 at height 130 cm in cotton shelter; daily min-max hygrothermograph charts; discontinued 1999
AIRCS202
Air temperature at CS2MET, probe no. 02 at height 150 cm
AIRH1501
Air temperature at H15MET, probe no. 01 at height 450 cm
AIRH1502
Air temperature at H15MET, probe no. 02 at height 150 cm
AIRPRI01
Air temperature at PRIMET, probe no. 01 at height 450 cm on tower
AIRPRI02
Air temperature at PRIMET, probe no. 02 at height 350 cm on tower (450 cm from 24 Sep 2002 to 30 Apr 2007)
AIRPRI03
Air temperature at PRIMET, probe no. 03 at height 250 cm on tower (150 cm from 24 Sep 2002 to 6 Jul 2003; 24 Jun 2004 to 30 Apr 2007)
AIRPRI04
Air temperature at PRIMET, probe no. 04 at height 150 cm on tower
AIRPRI05
Air temperature at PRIMET, probe no. 05 at height 150 cm in cotton region shelter; discontinued 14 June 2004
AIRUPL01
Air temperature at UPLMET, probe no. 01 at height 450 cm on tower
AIRUPL02
Air temperature at UPLMET, probe no. 02 at height 350 cm on tower (450 cm from 28 Jun 2004 to 16 Jul 2007)
AIRUPL03
Air temperature at UPLMET, probe no. 03 at height 250 cm on tower (350 cm 21 Oct 2002 - 22 Jul 2004; 150 cm 22 Jul 2004 - 16 Jul 2007)
AIRUPL04
Air temperature at UPLMET, probe no. 04 at height 150 cm on tower (450 cm from 24 Oct 2002 to 18 Jun 2004)
AIRVAN01
Air temperature at VANMET, probe no. 01 at height 450 cm on tower
AIRVAN02
Air temperature at VANMET, probe no. 02 at height 350 cm on tower (450 cm from 16 Jun 2004 to 25 Jul 2007)
AIRVAN03
Air temperature at VANMET, probe no. 03 at height 150 cm on tower (350 cm 17 Oct 2002 - 16 Jun 2004; 150 cm 16 Jun 2004 - 25 Jul 2007)
AIRVAN04
Air temperature at VANMET, probe no. 04 at height 150 cm on tower (450 cm from 17 Oct 2002 to 16 Jun 2004)
AIRVAN05
Air temperature at VANMET, probe no. 05 at height 50 cm; discontinued 5 Oct 1995
DEWCEN01
Dew point temperature at CENMET, probe no. 01 at height 450 cm on tower, calculated
DEWCEN04
Dew point temperature at CENMET, probe no. 04 at height 150 cm on tower, calculated
DEWCS202
Dew point temperature at CS2MET, probe no. 02 at height 150 cm on tower, calculated; begins 14 Apr 1998
DEWH1501
Dew point temperature at H15MET, probe no. 01 at height 450 cm on tower, calculated
DEWH1502
Dew point temperature at H15MET, probe no. 02 at height 150 cm on tower, calculated
DEWPRI01
Dew point temperature at PRIMET, probe no. 01 at height 450 cm on tower, calculated
DEWPRI04
Dew point temperature at PRIMET, probe no. 04 at height 150 cm on tower, calculated
DEWPRI05
Dew point temperature at PRIMET, probe no. 05 at height 150 cm in shelter, calculated; direct measurement before Jul 1988; discontinued 2000
DEWUPL01
Dew point temperature at UPLMET, probe no. 01 at height 450 cm on tower, calculated
DEWUPL04
Dew point temperature at UPLMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 24 Oct 2002 to 18 Jun 2004)
DEWVAN01
Dew point temperature at VANMET, probe no. 01 at height 450 cm on tower, calculated
DEWVAN04
Dew point temperature at VANMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 17 Oct 2002 to 16 Jun 2004)
VPDCEN01
Water vapor pressure deficit at CENMET, probe no. 01 at height 450 cm on tower, calculated
VPDCEN04
Water vapor pressure deficit at CENMET, probe no. 04 at height 150 cm on tower, calculated
VPDCS202
Water vapor pressure deficit at CS2MET, probe no. 02 at height 150 cm on tower, calculated; begins 14 Apr 1998
VPDH1501
Water vapor pressure deficit at H15MET, probe no. 01 at height 450 cm on tower, calculated
VPDH1502
Water vapor pressure deficit at H15MET, probe no. 02 at height 150 cm on tower, calculated
VPDPRI01
Water vapor pressure deficit at PRIMET, probe no. 01 at height 450 cm on tower, calculated
VPDPRI04
Water vapor pressure deficit at PRIMET, probe no. 04 at height 150 cm on tower, calculated
VPDPRI05
Water vapor pressure deficit at PRIMET, probe no. 05 at height 150 cm in cotton region shelter, calculated; discontinued May 2000
VPDUPL01
Water vapor pressure deficit at UPLMET, probe no. 01 at height 450 cm on tower, calculated
VPDUPL04
Water vapor pressure deficit at UPLMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 24 Oct 2002 to 18 Jun 2004)
VPDVAN01
Water vapor pressure deficit at VANMET, probe no. 01 at height 450 cm on tower, calculated
VPDVAN04
Water vapor pressure deficit at VANMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 17 Oct 2002 to 16 Jun 2004)
LYSCEN01
Snow lysimeter at CENMET, probe no. 01
LYSH1501
Snow lysimeter at H15MET, probe no. 01
LYSUPL01
Snow lysimeter at UPLMET, probe no. 01
PARCEN01
Photosynthetically active radiation (PAR) at CENMET, probe no. 1 at height 627 cm
PPTCEN01
Precipitation at CENMET, probe no. 01, stand-alone model
PPTCEN02
Precipitation at CENMET, probe no. 02, shelter-top model
PPTCS201
Precipitation at CS2MET, probe no. 01; Universal rain gauge chart; backup record not digitized beyond 2012
PPTH1501
Precipitation at H15MET, probe no. 01 at height 410 cm prorated to adjacent standard raingage, discontinued 1992
PPTH1502
Precipitation at H15MET, probe no. 02 at height 410 cm
PPTPRI01
Precipitation at PRIMET, probe no. 01 at height 100 cm
PPTPRI02
Precipitation at PRIMET, probe no. 02, stand-alone model; inconsistencies prevent sharing this data; discontinued 2010
PPTUPL01
Precipitation at UPLMET, probe no. 01 at height 457 cm, stand-alone model
PPTUPL02
Precipitation at UPLMET, probe no. 02 at height 627 cm, shelter-top model
PPTVAN01
Precipitation at VANMET, probe no. 01 at height 305 cm, shelter-top model; record ends Feb 1996; discontinued Sep 2001
PPTVAR02
Precipitation at VARMET, probe no. 02, stand-alone model in meadow
RELCEN01
Relative humidity at CENMET, probe no. 01 at height 450 cm
RELCEN04
Relative humidity at CENMET, probe no. 04 at height 150 cm
RELCS201
Relative humidity at CS2MET, probe no. 01 at height 130 cm in cotton shelter; daily min-max hygrothermograph charts; discontinued 1999
RELCS202
Relative humidity at CS2MET, probe no. 02 at height 150 cm
RELH1501
Relative humidity at H15MET, probe no. 01 at height 450 cm
RELH1502
Relative humidity at H15MET, probe no. 02 at height 150 cm
RELPRI01
Relative humidity at PRIMET, probe no. 01 at height 450 cm
RELPRI04
Relative humidity at PRIMET, probe no. 04 at height 150 cm
RELPRI05
Relative humidity at PRIMET, probe no. 05 at height 150 cm in cotton region shelter; discontinued 30 May 2000
RELUPL01
Relative humidity at UPLMET, probe no. 01 at height 450 cm
RELUPL04
Relative humidity at UPLMET, probe no. 04 at height 150 cm (450 cm from 24 Oct 2002 to 18 Jun 2004)
RELVAN01
Relative humidity at VANMET, probe no. 01 at height 450 cm; originally probe was repositioned at 150 cm in summer
RELVAN04
Relative humidity at VANMET, probe no. 04 at height 150 cm (450 cm from 17 Oct 2002 to 16 Jun 2004)
SWCPRI01
Soil water content at PRIMET, probe no. 01 at depth 10 cm
SWCPRI02
Soil water content at PRIMET, probe no. 02 at depth 20 cm
SWCPRI03
Soil water content at PRIMET, probe no. 03 at depth 50 cm
SWCPRI04
Soil water content at PRIMET, probe no. 04 at depth 100 cm
SWCCEN01
Soil water content at CENMET, probe no. 01 at depth 10 cm
SWCCEN02
Soil water content at CENMET, probe no. 02 at depth 20 cm
SWCCEN03
Soil water content at CENMET, probe no. 03 at depth 50 cm
SWCCEN04
Soil water content at CENMET, probe no. 04 at depth 100 cm
SWCUPL01
Soil water content at UPLMET, probe no. 01 at depth 10 cm
SWCUPL02
Soil water content at UPLMET, probe no. 02 at depth 20 cm
SWCUPL03
Soil water content at UPLMET, probe no. 03 at depth 50 cm
SWCUPL04
Soil water content at UPLMET, probe no. 04 at depth 100 cm
SWCVAN01
Soil water content at VANMET, probe no. 01 at depth 10 cm
SWCVAN02
Soil water content at VANMET, probe no. 02 at depth 20 cm
SWCVAN03
Soil water content at VANMET, probe no. 03 at depth 50 cm
SWCVAN04
Soil water content at VANMET, probe no. 04 at depth 100 cm
SMPCEN01
Soil moisture potential at CENMET, probe no. 01 at depth 10 cm; discontinued 13 Nov 2002
SMPCEN02
Soil moisture potential at CENMET, probe no. 02 at depth 20 cm; discontinued 13 Nov 2002
SMPCEN03
Soil moisture potential at CENMET, probe no. 03 at depth 50 cm; discontinued 13 Nov 2002
SMPCEN04
Soil moisture potential at CENMET, probe no. 04 at depth 100 cm; discontinued 13 Nov 2002
SMPPRI01
Soil moisture potential at PRIMET, probe no. 01 at depth 10 cm; discontinued 23 May 2000
SMPPRI02
Soil moisture potential at PRIMET, probe no. 02 at depth 20 cm; discontinued 23 May 2000
SMPPRI03
Soil moisture potential at PRIMET, probe no. 03 at depth 50 cm; discontinued 23 May 2000
SMPPRI04
Soil moisture potential at PRIMET, probe no. 04 at depth 100 cm; discontinued 23 May 2000
SMPUPL01
Soil moisture potential at UPLMET, probe no. 01 at depth 10 cm; discontinued 18 Oct 2001
SMPUPL02
Soil moisture potential at UPLMET, probe no. 02 at depth 20 cm; discontinued 18 Oct 2001
SMPUPL03
Soil moisture potential at UPLMET, probe no. 03 at depth 50 cm; discontinued 18 Oct 2001
SMPUPL04
Soil moisture potential at UPLMET, probe no. 04 at depth 100 cm; discontinued 18 Oct 2001
SMPVAN01
Soil moisture potential at VANMET, probe no. 01 at depth 10 cm; discontinued 9 Sep 2001
SMPVAN02
Soil moisture potential at VANMET, probe no. 02 at depth 20 cm; discontinued 9 Sep 2001
SMPVAN03
Soil moisture potential at VANMET, probe no. 03 at depth 50 cm; discontinued 9 Sep 2001
SMPVAN04
Soil moisture potential at VANMET, probe no. 04 at depth 100 cm; discontinued 9 Sep 2001
SMPVAN05
Soil moisture potential at VANMET, probe no. 05 at depth 30 cm; discontinued 9 Sep 2001
SNOCEN01
Snow water equivalence and depth at CENMET, probe no. 01, snow pillow with snow depth sensor
SNOCEN02
Snow water equivalence and depth at CENMET, probe no. 02, snow depth and calculated snow water around snow pillow
SNOCEN03
Snow water equivalence and depth at CENMET, probe no. 03, average snow course measurement along transect near the station
SNOPRI01
Snow water equivalence and depth at PRIMET, probe no. 01, snow pillow with snow depth sensor
SNOUPL01
Snow water equivalence and depth at UPLMET, probe no. 01, snow pillow with snow depth sensor
SNOUPL02
Snow water equivalence and depth at UPLMET, probe no. 02, snow depth and calculated snow water around snow pillow
SNOUPL03
Snow water equivalence and depth at UPLMET, probe no. 03, average snow course measurement along transect near the station
SNOVAN01
Snow water equivalence and depth at VANMET, probe no. 01, snow pillow with snow depth sensor
SNOVAN02
Snow water equivalence and depth at VANMET, probe no. 02, snow depth and calculated snow water around snow pillow in clearcut
SNOVAN03
Snow moisture and depth at VANMET, probe no. 03, average snow course measurement along transect near the station in the clearcut
SOICEN01
Soil temperature at CENMET, probe no. 01 at depth10 cm
SOICEN02
Soil temperature at CENMET, probe no. 02 at depth 20 cm
SOICEN03
Soil temperature at CENMET, probe no. 03 at depth 50 cm
SOICEN04
Soil temperature at CENMET, probe no. 04 at depth 100 cm
SOIPRI01
Soil temperature at PRIMET, probe no. 01 at depth 10 cm
SOIPRI02
Soil temperature at PRIMET, probe no. 02 at depth 20 cm
SOIPRI03
Soil temperature at PRIMET, probe no. 03 at depth 50 cm
SOIPRI04
Soil temperature at PRIMET, probe no. 04 at depth 100 cm
SOIUPL01
Soil temperature at UPLMET, probe no. 01 at depth 10 cm
SOIUPL02
Soil temperature at UPLMET, probe no. 02 at depth 20 cm
SOIUPL03
Soil temperature at UPLMET, probe no. 03 at depth 50 cm
SOIUPL04
Soil temperature at UPLMET, probe no. 04 at depth 100 cm
SOIVAN01
Soil temperature at VANMET, probe no. 01 at depth 10 cm; discontinued 29 July 2007
SOIVAN02
Soil temperature at VANMET, probe no. 02 at depth 20 cm; discontinued 29 July 2007
SOIVAN03
Soil temperature at VANMET, probe no. 03 at depth 50 cm; discontinued 29 July 2007
SOIVAN04
Soil temperature at VANMET, probe no. 04 at depth 100 cm; discontinued 29 July 2007
SOIVAN05
Soil temperature at VANMET, probe no. 05 at depth 30 cm; discontinued 13 July 1994
SWICEN01
Shortwave incoming solar radiation at CENMET, probe no. 01 at height 625 cm
SWIPRI01
Shortwave incoming solar radiation at PRIMET, probe no. 01 at height 100 cm
SWIUPL01
Shortwave incoming solar radiation at UPLMET, probe no. 01 at height 615 cm
SWIVAN01
Shortwave incoming solar radiation at VANMET, probe no. 01 at height 850 cm
WNDCEN01
Wind speed and direction at CENMET, probe no. 01 at height 1000 cm
WNDH1501
Wind speed and direction at H15MET, probe no. 01 at height 500 cm
WNDPRI01
Wind speed and direction at PRIMET, probe no. 01 at height 1000 cm
WNDUPL01
Wind speed and direction at UPLMET, probe no. 01 at height 1000 cm
WNDVAN01
Wind speed and direction at VANMET, probe no. 01 at height 1000 cm
AIRPRI06
Air temperature at PRIMET, probe no. 06 at height 150 cm on tower with aspirated shield
SNOVAR04
Snow moisture and depth at VARMET, probe no. 04, average snow course measurement along transect in the meadow
AIRPRI07
Air temperature at PRIMET, probe no. 07 at height 250 cm on tower with aspirated shield
AIRPRI08
Air temperature at PRIMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRPRI09
Air temperature at PRIMET, probe no. 09 at height 450 cm on tower with aspirated shield
AIRUPL08
Air temperature at UPLMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRVAN08
Air temperature at VANMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRVAR10
Air temperature at VARMET, probe no. 10 at height 450 cm on stand-alone rain gauge in meadow
ATMPRI01
Atmospheric pressure at PRIMET, probe no. 01 at elevation 430 m corrected to sea level
ATMUPL01
Atmospheric pressure at UPLMET, probe no. 01 at elevation 1294 m corrected to sea level
SWIPRI02
Shortwave incoming solar radiation at PRIMET, probe no. 02 at height 600 cm
SWIVAN02
Shortwave incoming solar radiation at VANMET, probe no. 02 at height 600 cm
WNDPRI02
Wind speed and direction using sonic anemometer at PRIMET, probe no. 02 at height 1000 cm
WNDVAN02
Wind speed and direction using sonic anemometer at VANMET, probe no. 02 at height 1000 cm
PPTCS202
Precipitation at CS2MET, probe no. 02; Noah IV rain gauge
SNOVAR05
Snow moisture and depth at VARMET, probe no. 05 in meadow, snow pillow with snow depth sensor
SOIVAN06
Soil temperature at VANMET, probe no. 06 at depth 10 cm; established 15 Sep 2004
SOIVAN07
Soil temperature at VANMET, probe no. 07 at depth 20 cm; established 15 Sep 2004
SOIVAN08
Soil temperature at VANMET, probe no. 08 at depth 50 cm; established 15 Sep 2004
SOIVAN09
Soil temperature at VANMET, probe no. 09 at depth 100 cm; established 15 Sep 2004
AIRCEN08
Air temperature at CENMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRCS203
Air temperature at CS2MET, probe no. 03 at height 150 cm
RELCS203
Relative humidity at CS2MET, probe no. 03 at height 150 cm
DEWCS203
Dew point temperature at CS2MET, probe no. 03 at height 150 cm on tower, calculated; begins 9 Apr 2015
VPDCS203
Water vapor pressure deficit at CS2MET, probe no. 03 at height 150 cm on tower, calculated; begins 09 Apr 2015; replaces VPDCS202
WNDWS702
Wind speed and direction using sonic anemometer at WS7MET, probe no. 02 at height 1000 cm
WNDCEN02
Wind speed and direction using sonic anemometer at CENMET, probe no. 02 at height 1000 cm
SWIWS701
Shortwave incoming solar radiation at WS7MET, probe no. 01 at height 450 cm
SOIWS701
Soil temperature at WS7MET, probe no. 01 at depth 10 cm; established 6 Dec 2006
SOIWS702
Soil temperature at WS7MET, probe no. 02 at depth 20 cm; established 6 Dec 2006
SOIWS703
Soil temperature at WS7MET, probe no. 03 at depth 50 cm; established 6 Dec 2006
SOIWS704
Soil temperature at WS7MET, probe no. 04 at depth 100 cm; established 6 Dec 2006
ATMWS701
Atmospheric pressure at WS7MET, probe no. 01 at elevation 998 m corrected to sea level
WNDWS701
Wind speed and direction at WS7MET, probe no. 01 at height 1000 cm
WNDWS703
Wind speed and direction at WS7MET, probe no. 03 at height 450 cm (discontinued 16 Sep 2012)
WNDWS704
Wind speed and direction at WS7MET, probe no. 04 at height 150 cm (discontinued 27 Jan 2008)
AIRWS701
Air temperature at WS7MET, probe no. 01 at height 450 cm on tower
AIRWS702
Air temperature at WS7MET, probe no. 02 at height 350 cm on tower
AIRWS703
Air temperature at WS7MET, probe no. 03 at height 250 cm on tower
AIRWS704
Air temperature at WS7MET, probe no. 04 at height 150 cm on tower
AIRWS708
Air temperature at WS7MET, probe no. 08 at height 350 cm on tower with aspirated shield
RELWS701
Relative humidity at WS7MET, probe no. 01 at height 450 cm
RELWS704
Relative humidity at WS7MET, probe no. 01 at height 150 cm
DEWWS701
Dew point temperature at WS7MET, probe no. 01 at height 450 cm on tower, calculated
DEWWS704
Dew point temperature at WS7MET, probe no. 04 at height 150 cm on tower, calculated
VPDWS701
Water vapor pressure deficit at WS7MET, probe no. 01 at height 450 cm on tower, calculated
VPDWS704
Water vapor pressure deficit at WS7MET, probe no. 04 at height 150 cm on tower, calculated
SNOWS701
Snow depth at WS7MET, probe no. 01, snow depth sensor at south site
SNOWS702
Snow depth at WS7MET, probe no. 02, snow depth sensor at west site (discontinued 14 May 2007)
WNDUPL02
Wind speed and direction using sonic anemometer at UPLMET, probe no. 02 at height 1000 cm
AIRCS205
Air temperature at CS2MET, probe no. 05 at height 150 cm

DATE - datetime (dateTime)

ID: MS00101.DATE

Date of measurement

Type system: Microsoft SQL Server 2019

Date format: YYYY-MM-DD

AIRTEMP_MEAN_DAY - numeric(5,1) (interval)

ID: MS00101.AIRTEMP_MEAN_DAY

Mean air temperature for the day

Type system: Microsoft SQL Server 2019

Unit: degrees Celsius

Precision: 0.100000

Numeric domain: type=real, min=-21.2000 (exclusive=false), max=29.1000 (exclusive=false)

AIRTEMP_MEAN_FLAG - char(1) (nominal)

ID: MS00101.AIRTEMP_MEAN_FLAG

Mean air temperature flag

Type system: Microsoft SQL Server 2019

Code definitions (8)

B
Sensor buried in snow; value is the snow temperature
E
Estimated value
M
Missing value
Q
Questionable value
S
Daily value based on sunrise to sunrise
A
Accepted value has passed all QC tests applied as represented by the quality level
D
Value is estimated as the average of daily minimum and daily maximum
P
Fire effects are visible in the data

AIRTEMP_MAX_DAY - numeric(5,1) (interval)

ID: MS00101.AIRTEMP_MAX_DAY

Maximum air temperature for the day

Type system: Microsoft SQL Server 2019

Unit: degrees Celsius

Precision: 0.100000

Numeric domain: type=real, min=-18.3000 (exclusive=false), max=43.7000 (exclusive=false)

AIRTEMP_MAX_FLAG - char(1) (nominal)

ID: MS00101.AIRTEMP_MAX_FLAG

Maximum air temperature flag

Type system: Microsoft SQL Server 2019

Code definitions (8)

B
Sensor buried in snow; value is the snow temperature
E
Estimated value
M
Missing value
Q
Questionable value
S
Daily value based on sunrise to sunrise
A
Accepted value has passed all QC tests applied as represented by the quality level
F
Daily value based on the maximum 15 minute mean value (Check airtemp_method code)
P
Fire effects are visible in the data

AIRTEMP_MAXTIME - char(4) (ordinal)

ID: MS00101.AIRTEMP_MAXTIME

Time of day (HHMM) in Pacific Standard Time (PST) of maximum air temperature

Type system: Microsoft SQL Server 2019

AIRTEMP_MIN_DAY - numeric(5,1) (interval)

ID: MS00101.AIRTEMP_MIN_DAY

Minimum air temperature for the day

Type system: Microsoft SQL Server 2019

Unit: degrees Celsius

Precision: 0.100000

Numeric domain: type=real, min=-23.7000 (exclusive=false), max=24.2000 (exclusive=false)

AIRTEMP_MIN_FLAG - char(1) (nominal)

ID: MS00101.AIRTEMP_MIN_FLAG

Minimum air temperature flag

Type system: Microsoft SQL Server 2019

Code definitions (8)

B
Sensor buried in snow; value is the snow temperature
E
Estimated value
M
Missing value
Q
Questionable value
S
Daily value based on sunrise to sunrise
A
Accepted value has passed all QC tests applied as represented by the quality level
F
Daily value based on the minimum 15 minute mean value (Check airtemp_method code)
P
Fire effects are visible in the data

AIRTEMP_MINTIME - char(4) (nominal)

ID: MS00101.AIRTEMP_MINTIME

Time of day (HHMM) in Pacific Standard Time (PST) of minimum air temperature

Type system: Microsoft SQL Server 2019

EVENT_CODE - char(6) (nominal)

ID: MS00101.EVENT_CODE

Any event, disruption in protocol, or unusual conditions that occur at the given date or time and may have an effect on the data values; contact information manager for access to specific details from the field 'Notes' database

Type system: Microsoft SQL Server 2019

Code definitions (11)

INSREM
Sensor is installed or removed
LOGGER
Change in data logger, data logger program, or wiring
METHOD
Change in data collection method
NA
No event is reported (not applicable)
QUALTY
Event may directly affect data quality (individual activities tracked in field notes database)
MAINTE
A maintenance event has occurred
INTPRO
Internal processing may produce an anomalous reading
WEATHR
A weather event has occurred that may affect reading
CALIBR
Associated with the inspection or replacement of sensors for calibration
CLEARD
Site clearing of trees and brush around the meteorological station is being conducted
BURNED
Burning, including cleared trees and brush or wildfire, around the meteorological station or within the watershed (code begins at event initiation)

MS00102 - Relative humidity (daily)

Object name: MS00102_v9.csv

Records: 122716

Attributes: 17

Temporal coverage: 1958-02-03 to 2019-03-28

File size: 11013768 byte

Checksum (MD5): 171b6fcb6cdd7047ab1a4b1aa96c1081

Format: headers=1, recordDelimiter=\r\n, fieldDelimiter=,, quoteCharacter=", orientation=column

Constraints (2)

primaryKey: PRIMARY
MS00102.DATE, MS00102.PROBE_CODE, MS00102.SITECODE
notNullConstraint: NOTNULL
MS00102.DATE, MS00102.ENTITY, MS00102.RELHUM_MEAN_FLAG, MS00102.RELHUM_MAX_FLAG, MS00102.RELHUM_MIN_FLAG, MS00102.PROBE_CODE, MS00102.DBCODE, MS00102.SITECODE, MS00102.HEIGHT, MS00102.EVENT_CODE, MS00102.QC_LEVEL, MS00102.RELHUM_METHOD

Attributes (17)

DBCODE - char(5) (nominal)

ID: MS00102.DBCODE

FSDB database code

Type system: Microsoft SQL Server 2019

Code definitions (1)

MS001
FSDB Database Code

ENTITY - numeric(2,0) (interval)

ID: MS00102.ENTITY

Entity number

Type system: Microsoft SQL Server 2019

Unit: number

Precision: 1.000000

Numeric domain: type=natural, min=2.0000 (exclusive=false), max=2.0000 (exclusive=false)

SITECODE - char(6) (nominal)

ID: MS00102.SITECODE

Site code for the meteorological measurement station

Type system: Microsoft SQL Server 2019

Code definitions (8)

CENMET
Central Meteorological Station
PRIMET
Primary Meteorological Station
UPLMET
Upper Lookout Meteorological Station
VANMET
Vanilla Leaf Meteorological Station
CS2MET
Climatic Station at Watershed 2
H15MET
High 15 Meteorological Station
VARMET
Vanilla Leaf Meadow Meteorological Station
WS7MET
Watershed 7 Meteorological Station

RELHUM_METHOD - char(6) (nominal)

ID: MS00102.RELHUM_METHOD

An indication of the the general methodology and instrumentation used to collect this relative humidity data

Type system: Microsoft SQL Server 2019

Code definitions (45)

REL004
Relative humidity is sampled by a Campbell Scientific model HMP35C probe housed in a cotton region shelter at 150 cm height; mean relative humidity is output every 60 minutes
REL005
Relative humidity is sampled by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 150 cm height; mean relative humidity is output every 60 minutes
REL006
Relative humidity is sampled by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 450 cm height; mean relative humidity is output every 60 minutes
REL007
Relative humidity is sampled by a Campbell Scientific model HMP45C probe housed in a locally designed PVC radiation shield at 150 cm height; mean relative humidity is output every 60 minutes
REL008
Relative humidity is sampled by a Campbell Scientific model HMP45C probe housed in a locally designed PVC radiation shield at 450 cm height; mean relative humidity is output every 60 minutes
REL009
Relative humidity is sampled by a Campbell Scientific model HMP45C probe housed in a locally designed PVC radiation shield at 450 cm height; program failure in output of relative humidty values
REL010
Relative humidity is sampled by a Campbell Scientific model HMP35C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean relative humidity is output every 60 minutes
REL011
Relative humidity is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean relative humidity is output every 60 minutes
REL012
Relative humidity is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean relative humidity is output every 60 minutes
REL013
Relative humidity is sampled by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 480 cm height; mean relative humidity is output every 60 minutes
REL014
Relative humidity is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean relative humidity is output every 15 minutes
REL015
Relative humidity is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean relative humidity is output every 15 minutes
REL215
Mean daily relative humidity is post-calculated from all 15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 450 cm height (See meth REL015)
REL101
Daily minimum and maximum relative humidity is recorded on a Cole Parmer hygrothermograph chart at 130 cm height in cotton region shelter; daily chart readings are adjusted weekly using a sling psychrometer
REL102
Daily minimum and maximum relative humidity is recorded on a Belfort hygrothermograph chart at 130 cm height in cotton region shelter; daily chart readings are adjusted weekly using a sling psychrometer
REL103
Mean daily relative humidity is calculated by the Campbell Scientific datalogger and output on a sunrise to sunrise basis. Max-min values are based on instantaneous 15 second readings. HMP35C; PVC radiation shield; 450 cm height
REL104
Mean daily relative humidity is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model HMP35C; cotton region shelter; 150 cm height (See method REL004)
REL105
Mean daily relative humidity is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP35C; PVC radiation shield; 150 cm height (See method REL005)
REL106
Mean daily relative humidity is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP35C; PVC radiation shield; 450 cm height (See method REL006)
REL107
Mean daily relative humidity is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; PVC radiation shield; 150 cm height (See method REL007)
REL108
Mean daily relative humidity is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; PVC radiation shield; 450 cm height (See method REL008)
REL109
Mean daily relative humidity is not output; program failure of the Campbell Scientific datalogger. Model HMP45C; PVC radiation shield; 450 cm height (See method REL009)
REL110
Mean daily relative humidity is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP35C; R.M. Young Gill radiation shield; 450 cm height (See method REL010)
REL111
Mean daily relative humidity is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 150 cm height (See method REL011)
REL311
Mean daily relative humidity is post-calculated from all hourly mean values for the day. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 150 cm height (See method REL011)
REL112
Mean daily relative humidity is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 450 cm height (See methodREL012)
REL312
Mean daily relative humidity is post-calculated from all hourly mean values for the day. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 450 cm height (See method REL012)
REL113
Mean daily relative humidity is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP35C; PVC radiation shield; 480 cm height (See method REL013)
REL211
Mean daily relative humidity is post-calculated from all hourly mean values for the day. Max-min values are based on hourly mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 150 cm height (See method REL011)
REL314
Mean daily relative humidity is post-calculated from all 15 minute mean values for the day. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 150 cm height (See method REL014)
REL315
Mean daily relative humidity is post-calculated from all 15 minute mean values for the day. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 450 cm height (See method REL015)
REL212
Mean daily relative humidity is post-calculated from all hourly mean values for the day. Max-min values are based on hourly mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 450 cm height (See method REL012)
REL214
Mean daily relative humidity is post-calculated from all 15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 150 cm height (See meth REL014)
REL016
Relative humidity is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean relative humidity is output every 5 minutes
REL017
Relative humidity is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean relative humidity is output every 5 minutes
REL216
Mean daily relative humidity is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 150 cm height (See method REL016)
REL217
Mean daily relative humidity is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 450 cm height (See method REL017)
REL020
Relative humidity is sampled by a Campbell Scientific model HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean relative humidity is output every 5 minutes
REL220
Mean daily relative humidity is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. Model HC2S3-L; R.M. Young Gill radiation shield; 150 cm ht (See method REL020)
REL021
Relative humidity is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean relative humidity is output every 10 minutes
REL022
Relative humidity is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean relative humidity is output every 10 minutes
REL221
Mean daily relative humidity is post-calculated from all 10 minute mean values for the day. Max-min values are based on 10 minute mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 450 cm ht (See method REL021)
REL222
Mean daily relative humidity is post-calculated from all 10 minute mean values for the day. Max-min values are based on 10 minute mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 150 cm ht (See method REL022)
REL023
Relative humidity is sampled by a Campbell Scientific (CS) CR1000 data logger and CS HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; sampling rate 10 seconds; 5-minute output is the minimum, mean, and maximum of 30 samples.
REL223
Relative humidity is sampled by a Campbell Scientific (CS) CR1000 data logger and CS HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; sampling rate 10 seconds; 5-minute output is the minimum, mean, and maximum of 30 samples. Daily mean, mean minimum and mean maximum are post-calculated from 5-minute mean data.

HEIGHT - numeric(4,0) (ratio)

ID: MS00102.HEIGHT

Height of sensor from ground surface

Type system: Microsoft SQL Server 2019

Unit: centimeters

Precision: 1.000000

Numeric domain: type=whole, min=130.0000 (exclusive=false), max=480.0000 (exclusive=false)

QC_LEVEL - char(2) (nominal)

ID: MS00102.QC_LEVEL

Quality control flag indicates level of quality checking performed including an indication of "provisional" data.

Type system: Microsoft SQL Server 2019

Code definitions (5)

1P
Data is provisional and subject to revision - preliminary quality checks have been performed
1A
Data is published and unlikely to change - automated range checking and manual review has been conducted. Quality is indicated in data value qualifier flags.
2A
Data is published and unlikely to change - Level 1A data has been modified such that data gaps may be filled or problem data may be removed
2D
Data is published and unlikely to change - data is derived or aggregated from published data of level 2A
1D
Data is published and unlikely to change - data is derived or aggregated from published data of level 1A

PROBE_CODE - char(8) (nominal)

ID: MS00102.PROBE_CODE

Probe number code indicates the measurement type, site, and sensor number (e.g., AIRPRI01)

Type system: Microsoft SQL Server 2019

Code definitions (194)

AIRCEN01
Air temperature at CENMET, probe no. 01 at height 450 cm on tower
AIRCEN02
Air temperature at CENMET, probe no. 02 at height 350 cm on tower (450 cm from 4 Nov 2002 to 24 Sep 2007)
AIRCEN03
Air temperature at CENMET, probe no. 03 at height 250 cm on tower (150 cm from 31 Oct 2002 to 24 Sep 2007)
AIRCEN04
Air temperature at CENMET, probe no. 04 at height 150 cm on tower
AIRCS201
Air temperature at CS2MET, probe no. 01 at height 130 cm in cotton shelter; daily min-max hygrothermograph charts; discontinued 1999
AIRCS202
Air temperature at CS2MET, probe no. 02 at height 150 cm
AIRH1501
Air temperature at H15MET, probe no. 01 at height 450 cm
AIRH1502
Air temperature at H15MET, probe no. 02 at height 150 cm
AIRPRI01
Air temperature at PRIMET, probe no. 01 at height 450 cm on tower
AIRPRI02
Air temperature at PRIMET, probe no. 02 at height 350 cm on tower (450 cm from 24 Sep 2002 to 30 Apr 2007)
AIRPRI03
Air temperature at PRIMET, probe no. 03 at height 250 cm on tower (150 cm from 24 Sep 2002 to 6 Jul 2003; 24 Jun 2004 to 30 Apr 2007)
AIRPRI04
Air temperature at PRIMET, probe no. 04 at height 150 cm on tower
AIRPRI05
Air temperature at PRIMET, probe no. 05 at height 150 cm in cotton region shelter; discontinued 14 June 2004
AIRUPL01
Air temperature at UPLMET, probe no. 01 at height 450 cm on tower
AIRUPL02
Air temperature at UPLMET, probe no. 02 at height 350 cm on tower (450 cm from 28 Jun 2004 to 16 Jul 2007)
AIRUPL03
Air temperature at UPLMET, probe no. 03 at height 250 cm on tower (350 cm 21 Oct 2002 - 22 Jul 2004; 150 cm 22 Jul 2004 - 16 Jul 2007)
AIRUPL04
Air temperature at UPLMET, probe no. 04 at height 150 cm on tower (450 cm from 24 Oct 2002 to 18 Jun 2004)
AIRVAN01
Air temperature at VANMET, probe no. 01 at height 450 cm on tower
AIRVAN02
Air temperature at VANMET, probe no. 02 at height 350 cm on tower (450 cm from 16 Jun 2004 to 25 Jul 2007)
AIRVAN03
Air temperature at VANMET, probe no. 03 at height 150 cm on tower (350 cm 17 Oct 2002 - 16 Jun 2004; 150 cm 16 Jun 2004 - 25 Jul 2007)
AIRVAN04
Air temperature at VANMET, probe no. 04 at height 150 cm on tower (450 cm from 17 Oct 2002 to 16 Jun 2004)
AIRVAN05
Air temperature at VANMET, probe no. 05 at height 50 cm; discontinued 5 Oct 1995
DEWCEN01
Dew point temperature at CENMET, probe no. 01 at height 450 cm on tower, calculated
DEWCEN04
Dew point temperature at CENMET, probe no. 04 at height 150 cm on tower, calculated
DEWCS202
Dew point temperature at CS2MET, probe no. 02 at height 150 cm on tower, calculated; begins 14 Apr 1998
DEWH1501
Dew point temperature at H15MET, probe no. 01 at height 450 cm on tower, calculated
DEWH1502
Dew point temperature at H15MET, probe no. 02 at height 150 cm on tower, calculated
DEWPRI01
Dew point temperature at PRIMET, probe no. 01 at height 450 cm on tower, calculated
DEWPRI04
Dew point temperature at PRIMET, probe no. 04 at height 150 cm on tower, calculated
DEWPRI05
Dew point temperature at PRIMET, probe no. 05 at height 150 cm in shelter, calculated; direct measurement before Jul 1988; discontinued 2000
DEWUPL01
Dew point temperature at UPLMET, probe no. 01 at height 450 cm on tower, calculated
DEWUPL04
Dew point temperature at UPLMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 24 Oct 2002 to 18 Jun 2004)
DEWVAN01
Dew point temperature at VANMET, probe no. 01 at height 450 cm on tower, calculated
DEWVAN04
Dew point temperature at VANMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 17 Oct 2002 to 16 Jun 2004)
VPDCEN01
Water vapor pressure deficit at CENMET, probe no. 01 at height 450 cm on tower, calculated
VPDCEN04
Water vapor pressure deficit at CENMET, probe no. 04 at height 150 cm on tower, calculated
VPDCS202
Water vapor pressure deficit at CS2MET, probe no. 02 at height 150 cm on tower, calculated; begins 14 Apr 1998
VPDH1501
Water vapor pressure deficit at H15MET, probe no. 01 at height 450 cm on tower, calculated
VPDH1502
Water vapor pressure deficit at H15MET, probe no. 02 at height 150 cm on tower, calculated
VPDPRI01
Water vapor pressure deficit at PRIMET, probe no. 01 at height 450 cm on tower, calculated
VPDPRI04
Water vapor pressure deficit at PRIMET, probe no. 04 at height 150 cm on tower, calculated
VPDPRI05
Water vapor pressure deficit at PRIMET, probe no. 05 at height 150 cm in cotton region shelter, calculated; discontinued May 2000
VPDUPL01
Water vapor pressure deficit at UPLMET, probe no. 01 at height 450 cm on tower, calculated
VPDUPL04
Water vapor pressure deficit at UPLMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 24 Oct 2002 to 18 Jun 2004)
VPDVAN01
Water vapor pressure deficit at VANMET, probe no. 01 at height 450 cm on tower, calculated
VPDVAN04
Water vapor pressure deficit at VANMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 17 Oct 2002 to 16 Jun 2004)
LYSCEN01
Snow lysimeter at CENMET, probe no. 01
LYSH1501
Snow lysimeter at H15MET, probe no. 01
LYSUPL01
Snow lysimeter at UPLMET, probe no. 01
PARCEN01
Photosynthetically active radiation (PAR) at CENMET, probe no. 1 at height 627 cm
PPTCEN01
Precipitation at CENMET, probe no. 01, stand-alone model
PPTCEN02
Precipitation at CENMET, probe no. 02, shelter-top model
PPTCS201
Precipitation at CS2MET, probe no. 01; Universal rain gauge chart; backup record not digitized beyond 2012
PPTH1501
Precipitation at H15MET, probe no. 01 at height 410 cm prorated to adjacent standard raingage, discontinued 1992
PPTH1502
Precipitation at H15MET, probe no. 02 at height 410 cm
PPTPRI01
Precipitation at PRIMET, probe no. 01 at height 100 cm
PPTPRI02
Precipitation at PRIMET, probe no. 02, stand-alone model; inconsistencies prevent sharing this data; discontinued 2010
PPTUPL01
Precipitation at UPLMET, probe no. 01 at height 457 cm, stand-alone model
PPTUPL02
Precipitation at UPLMET, probe no. 02 at height 627 cm, shelter-top model
PPTVAN01
Precipitation at VANMET, probe no. 01 at height 305 cm, shelter-top model; record ends Feb 1996; discontinued Sep 2001
PPTVAR02
Precipitation at VARMET, probe no. 02, stand-alone model in meadow
RELCEN01
Relative humidity at CENMET, probe no. 01 at height 450 cm
RELCEN04
Relative humidity at CENMET, probe no. 04 at height 150 cm
RELCS201
Relative humidity at CS2MET, probe no. 01 at height 130 cm in cotton shelter; daily min-max hygrothermograph charts; discontinued 1999
RELCS202
Relative humidity at CS2MET, probe no. 02 at height 150 cm
RELH1501
Relative humidity at H15MET, probe no. 01 at height 450 cm
RELH1502
Relative humidity at H15MET, probe no. 02 at height 150 cm
RELPRI01
Relative humidity at PRIMET, probe no. 01 at height 450 cm
RELPRI04
Relative humidity at PRIMET, probe no. 04 at height 150 cm
RELPRI05
Relative humidity at PRIMET, probe no. 05 at height 150 cm in cotton region shelter; discontinued 30 May 2000
RELUPL01
Relative humidity at UPLMET, probe no. 01 at height 450 cm
RELUPL04
Relative humidity at UPLMET, probe no. 04 at height 150 cm (450 cm from 24 Oct 2002 to 18 Jun 2004)
RELVAN01
Relative humidity at VANMET, probe no. 01 at height 450 cm; originally probe was repositioned at 150 cm in summer
RELVAN04
Relative humidity at VANMET, probe no. 04 at height 150 cm (450 cm from 17 Oct 2002 to 16 Jun 2004)
SWCPRI01
Soil water content at PRIMET, probe no. 01 at depth 10 cm
SWCPRI02
Soil water content at PRIMET, probe no. 02 at depth 20 cm
SWCPRI03
Soil water content at PRIMET, probe no. 03 at depth 50 cm
SWCPRI04
Soil water content at PRIMET, probe no. 04 at depth 100 cm
SWCCEN01
Soil water content at CENMET, probe no. 01 at depth 10 cm
SWCCEN02
Soil water content at CENMET, probe no. 02 at depth 20 cm
SWCCEN03
Soil water content at CENMET, probe no. 03 at depth 50 cm
SWCCEN04
Soil water content at CENMET, probe no. 04 at depth 100 cm
SWCUPL01
Soil water content at UPLMET, probe no. 01 at depth 10 cm
SWCUPL02
Soil water content at UPLMET, probe no. 02 at depth 20 cm
SWCUPL03
Soil water content at UPLMET, probe no. 03 at depth 50 cm
SWCUPL04
Soil water content at UPLMET, probe no. 04 at depth 100 cm
SWCVAN01
Soil water content at VANMET, probe no. 01 at depth 10 cm
SWCVAN02
Soil water content at VANMET, probe no. 02 at depth 20 cm
SWCVAN03
Soil water content at VANMET, probe no. 03 at depth 50 cm
SWCVAN04
Soil water content at VANMET, probe no. 04 at depth 100 cm
SMPCEN01
Soil moisture potential at CENMET, probe no. 01 at depth 10 cm; discontinued 13 Nov 2002
SMPCEN02
Soil moisture potential at CENMET, probe no. 02 at depth 20 cm; discontinued 13 Nov 2002
SMPCEN03
Soil moisture potential at CENMET, probe no. 03 at depth 50 cm; discontinued 13 Nov 2002
SMPCEN04
Soil moisture potential at CENMET, probe no. 04 at depth 100 cm; discontinued 13 Nov 2002
SMPPRI01
Soil moisture potential at PRIMET, probe no. 01 at depth 10 cm; discontinued 23 May 2000
SMPPRI02
Soil moisture potential at PRIMET, probe no. 02 at depth 20 cm; discontinued 23 May 2000
SMPPRI03
Soil moisture potential at PRIMET, probe no. 03 at depth 50 cm; discontinued 23 May 2000
SMPPRI04
Soil moisture potential at PRIMET, probe no. 04 at depth 100 cm; discontinued 23 May 2000
SMPUPL01
Soil moisture potential at UPLMET, probe no. 01 at depth 10 cm; discontinued 18 Oct 2001
SMPUPL02
Soil moisture potential at UPLMET, probe no. 02 at depth 20 cm; discontinued 18 Oct 2001
SMPUPL03
Soil moisture potential at UPLMET, probe no. 03 at depth 50 cm; discontinued 18 Oct 2001
SMPUPL04
Soil moisture potential at UPLMET, probe no. 04 at depth 100 cm; discontinued 18 Oct 2001
SMPVAN01
Soil moisture potential at VANMET, probe no. 01 at depth 10 cm; discontinued 9 Sep 2001
SMPVAN02
Soil moisture potential at VANMET, probe no. 02 at depth 20 cm; discontinued 9 Sep 2001
SMPVAN03
Soil moisture potential at VANMET, probe no. 03 at depth 50 cm; discontinued 9 Sep 2001
SMPVAN04
Soil moisture potential at VANMET, probe no. 04 at depth 100 cm; discontinued 9 Sep 2001
SMPVAN05
Soil moisture potential at VANMET, probe no. 05 at depth 30 cm; discontinued 9 Sep 2001
SNOCEN01
Snow water equivalence and depth at CENMET, probe no. 01, snow pillow with snow depth sensor
SNOCEN02
Snow water equivalence and depth at CENMET, probe no. 02, snow depth and calculated snow water around snow pillow
SNOCEN03
Snow water equivalence and depth at CENMET, probe no. 03, average snow course measurement along transect near the station
SNOPRI01
Snow water equivalence and depth at PRIMET, probe no. 01, snow pillow with snow depth sensor
SNOUPL01
Snow water equivalence and depth at UPLMET, probe no. 01, snow pillow with snow depth sensor
SNOUPL02
Snow water equivalence and depth at UPLMET, probe no. 02, snow depth and calculated snow water around snow pillow
SNOUPL03
Snow water equivalence and depth at UPLMET, probe no. 03, average snow course measurement along transect near the station
SNOVAN01
Snow water equivalence and depth at VANMET, probe no. 01, snow pillow with snow depth sensor
SNOVAN02
Snow water equivalence and depth at VANMET, probe no. 02, snow depth and calculated snow water around snow pillow in clearcut
SNOVAN03
Snow moisture and depth at VANMET, probe no. 03, average snow course measurement along transect near the station in the clearcut
SOICEN01
Soil temperature at CENMET, probe no. 01 at depth10 cm
SOICEN02
Soil temperature at CENMET, probe no. 02 at depth 20 cm
SOICEN03
Soil temperature at CENMET, probe no. 03 at depth 50 cm
SOICEN04
Soil temperature at CENMET, probe no. 04 at depth 100 cm
SOIPRI01
Soil temperature at PRIMET, probe no. 01 at depth 10 cm
SOIPRI02
Soil temperature at PRIMET, probe no. 02 at depth 20 cm
SOIPRI03
Soil temperature at PRIMET, probe no. 03 at depth 50 cm
SOIPRI04
Soil temperature at PRIMET, probe no. 04 at depth 100 cm
SOIUPL01
Soil temperature at UPLMET, probe no. 01 at depth 10 cm
SOIUPL02
Soil temperature at UPLMET, probe no. 02 at depth 20 cm
SOIUPL03
Soil temperature at UPLMET, probe no. 03 at depth 50 cm
SOIUPL04
Soil temperature at UPLMET, probe no. 04 at depth 100 cm
SOIVAN01
Soil temperature at VANMET, probe no. 01 at depth 10 cm; discontinued 29 July 2007
SOIVAN02
Soil temperature at VANMET, probe no. 02 at depth 20 cm; discontinued 29 July 2007
SOIVAN03
Soil temperature at VANMET, probe no. 03 at depth 50 cm; discontinued 29 July 2007
SOIVAN04
Soil temperature at VANMET, probe no. 04 at depth 100 cm; discontinued 29 July 2007
SOIVAN05
Soil temperature at VANMET, probe no. 05 at depth 30 cm; discontinued 13 July 1994
SWICEN01
Shortwave incoming solar radiation at CENMET, probe no. 01 at height 625 cm
SWIPRI01
Shortwave incoming solar radiation at PRIMET, probe no. 01 at height 100 cm
SWIUPL01
Shortwave incoming solar radiation at UPLMET, probe no. 01 at height 615 cm
SWIVAN01
Shortwave incoming solar radiation at VANMET, probe no. 01 at height 850 cm
WNDCEN01
Wind speed and direction at CENMET, probe no. 01 at height 1000 cm
WNDH1501
Wind speed and direction at H15MET, probe no. 01 at height 500 cm
WNDPRI01
Wind speed and direction at PRIMET, probe no. 01 at height 1000 cm
WNDUPL01
Wind speed and direction at UPLMET, probe no. 01 at height 1000 cm
WNDVAN01
Wind speed and direction at VANMET, probe no. 01 at height 1000 cm
AIRPRI06
Air temperature at PRIMET, probe no. 06 at height 150 cm on tower with aspirated shield
SNOVAR04
Snow moisture and depth at VARMET, probe no. 04, average snow course measurement along transect in the meadow
AIRPRI07
Air temperature at PRIMET, probe no. 07 at height 250 cm on tower with aspirated shield
AIRPRI08
Air temperature at PRIMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRPRI09
Air temperature at PRIMET, probe no. 09 at height 450 cm on tower with aspirated shield
AIRUPL08
Air temperature at UPLMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRVAN08
Air temperature at VANMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRVAR10
Air temperature at VARMET, probe no. 10 at height 450 cm on stand-alone rain gauge in meadow
ATMPRI01
Atmospheric pressure at PRIMET, probe no. 01 at elevation 430 m corrected to sea level
ATMUPL01
Atmospheric pressure at UPLMET, probe no. 01 at elevation 1294 m corrected to sea level
SWIPRI02
Shortwave incoming solar radiation at PRIMET, probe no. 02 at height 600 cm
SWIVAN02
Shortwave incoming solar radiation at VANMET, probe no. 02 at height 600 cm
WNDPRI02
Wind speed and direction using sonic anemometer at PRIMET, probe no. 02 at height 1000 cm
WNDVAN02
Wind speed and direction using sonic anemometer at VANMET, probe no. 02 at height 1000 cm
PPTCS202
Precipitation at CS2MET, probe no. 02; Noah IV rain gauge
SNOVAR05
Snow moisture and depth at VARMET, probe no. 05 in meadow, snow pillow with snow depth sensor
SOIVAN06
Soil temperature at VANMET, probe no. 06 at depth 10 cm; established 15 Sep 2004
SOIVAN07
Soil temperature at VANMET, probe no. 07 at depth 20 cm; established 15 Sep 2004
SOIVAN08
Soil temperature at VANMET, probe no. 08 at depth 50 cm; established 15 Sep 2004
SOIVAN09
Soil temperature at VANMET, probe no. 09 at depth 100 cm; established 15 Sep 2004
AIRCEN08
Air temperature at CENMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRCS203
Air temperature at CS2MET, probe no. 03 at height 150 cm
RELCS203
Relative humidity at CS2MET, probe no. 03 at height 150 cm
DEWCS203
Dew point temperature at CS2MET, probe no. 03 at height 150 cm on tower, calculated; begins 9 Apr 2015
VPDCS203
Water vapor pressure deficit at CS2MET, probe no. 03 at height 150 cm on tower, calculated; begins 09 Apr 2015; replaces VPDCS202
WNDWS702
Wind speed and direction using sonic anemometer at WS7MET, probe no. 02 at height 1000 cm
WNDCEN02
Wind speed and direction using sonic anemometer at CENMET, probe no. 02 at height 1000 cm
SWIWS701
Shortwave incoming solar radiation at WS7MET, probe no. 01 at height 450 cm
SOIWS701
Soil temperature at WS7MET, probe no. 01 at depth 10 cm; established 6 Dec 2006
SOIWS702
Soil temperature at WS7MET, probe no. 02 at depth 20 cm; established 6 Dec 2006
SOIWS703
Soil temperature at WS7MET, probe no. 03 at depth 50 cm; established 6 Dec 2006
SOIWS704
Soil temperature at WS7MET, probe no. 04 at depth 100 cm; established 6 Dec 2006
ATMWS701
Atmospheric pressure at WS7MET, probe no. 01 at elevation 998 m corrected to sea level
WNDWS701
Wind speed and direction at WS7MET, probe no. 01 at height 1000 cm
WNDWS703
Wind speed and direction at WS7MET, probe no. 03 at height 450 cm (discontinued 16 Sep 2012)
WNDWS704
Wind speed and direction at WS7MET, probe no. 04 at height 150 cm (discontinued 27 Jan 2008)
AIRWS701
Air temperature at WS7MET, probe no. 01 at height 450 cm on tower
AIRWS702
Air temperature at WS7MET, probe no. 02 at height 350 cm on tower
AIRWS703
Air temperature at WS7MET, probe no. 03 at height 250 cm on tower
AIRWS704
Air temperature at WS7MET, probe no. 04 at height 150 cm on tower
AIRWS708
Air temperature at WS7MET, probe no. 08 at height 350 cm on tower with aspirated shield
RELWS701
Relative humidity at WS7MET, probe no. 01 at height 450 cm
RELWS704
Relative humidity at WS7MET, probe no. 01 at height 150 cm
DEWWS701
Dew point temperature at WS7MET, probe no. 01 at height 450 cm on tower, calculated
DEWWS704
Dew point temperature at WS7MET, probe no. 04 at height 150 cm on tower, calculated
VPDWS701
Water vapor pressure deficit at WS7MET, probe no. 01 at height 450 cm on tower, calculated
VPDWS704
Water vapor pressure deficit at WS7MET, probe no. 04 at height 150 cm on tower, calculated
SNOWS701
Snow depth at WS7MET, probe no. 01, snow depth sensor at south site
SNOWS702
Snow depth at WS7MET, probe no. 02, snow depth sensor at west site (discontinued 14 May 2007)
WNDUPL02
Wind speed and direction using sonic anemometer at UPLMET, probe no. 02 at height 1000 cm
AIRCS205
Air temperature at CS2MET, probe no. 05 at height 150 cm

DATE - datetime (dateTime)

ID: MS00102.DATE

Date of measurement

Type system: Microsoft SQL Server 2019

Date format: YYYY-MM-DD

RELHUM_MEAN_DAY - numeric(5,1) (ratio)

ID: MS00102.RELHUM_MEAN_DAY

Mean relative humidity for the day

Type system: Microsoft SQL Server 2019

Unit: percent

Precision: 2.000000

Numeric domain: type=real, min=8.1000 (exclusive=false), max=100.0000 (exclusive=false)

RELHUM_MEAN_FLAG - char(1) (nominal)

ID: MS00102.RELHUM_MEAN_FLAG

Mean relative humidity flag

Type system: Microsoft SQL Server 2019

Code definitions (7)

E
Estimated value
M
Missing value
Q
Questionable value
A
Accepted value has passed all QC tests applied as represented by the quality level
B
Sensor buried in snow
S
Daily value based on sunrise to sunrise
P
Fire effects are visible in the data

RELHUM_MAX_DAY - numeric(5,1) (ratio)

ID: MS00102.RELHUM_MAX_DAY

Maximum relative humidity for the day

Type system: Microsoft SQL Server 2019

Unit: percent

Precision: 2.000000

Numeric domain: type=real, min=10.3000 (exclusive=false), max=100.0000 (exclusive=false)

RELHUM_MAX_FLAG - char(1) (nominal)

ID: MS00102.RELHUM_MAX_FLAG

Maximum relative humidity flag

Type system: Microsoft SQL Server 2019

Code definitions (10)

E
Estimated value
M
Missing value
Q
Questionable value
V
Value spans a range of days (typically a week or less). value is listed in the first day of this range and subsequent included days are coded 'missing'
S
Daily value based on sunrise to sunrise
A
Accepted value has passed all QC tests applied as represented by the quality level
B
Sensor buried in snow
F
Daily value based on the maximum 15 minute mean value
H
Daily value based on the maximum hourly mean value
P
Fire effects are visible in the data

RELHUM_MAXTIME - char(4) (ordinal)

ID: MS00102.RELHUM_MAXTIME

Time of day (HHMM) in Pacific Standard Time (PST) of maximum relative humidity

Type system: Microsoft SQL Server 2019

RELHUM_MIN_DAY - numeric(5,1) (ratio)

ID: MS00102.RELHUM_MIN_DAY

Minimum relative humidity for the day

Type system: Microsoft SQL Server 2019

Unit: percent

Precision: 2.000000

Numeric domain: type=real, min=1.1000 (exclusive=false), max=100.0000 (exclusive=false)

RELHUM_MIN_FLAG - char(1) (nominal)

ID: MS00102.RELHUM_MIN_FLAG

Minimum relative humidity flag

Type system: Microsoft SQL Server 2019

Code definitions (10)

E
Estimated value
M
Missing value
Q
Questionable value
V
Value spans a range of days (typically a week or less). value is listed in the first day of this range and subsequent included days are coded 'missing'
S
Daily value based on sunrise to sunrise
A
Accepted value has passed all QC tests applied as represented by the quality level
B
Sensor buried in snow
F
Daily value based on the minimum 15 minute mean value
H
Daily value based on the minimum hourly mean value
P
Fire effects are visible in the data

RELHUM_MINTIME - char(4) (ordinal)

ID: MS00102.RELHUM_MINTIME

Time of day (HHMM) in Pacific Standard Time (PST) of minimum relative humidity

Type system: Microsoft SQL Server 2019

EVENT_CODE - char(6) (nominal)

ID: MS00102.EVENT_CODE

Any event, disruption in protocol, or unusual conditions that occur at the given date or time and may have an effect on the data values; contact information manager for access to specific details from the field 'Notes' database

Type system: Microsoft SQL Server 2019

Code definitions (11)

INSREM
Sensor is installed or removed
LOGGER
Change in data logger, data logger program, or wiring
METHOD
Change in data collection method
NA
No event is reported (not applicable)
QUALTY
Event may directly affect data quality (individual activities tracked in field notes database)
MAINTE
A maintenance event has occurred
INTPRO
Internal processing may produce an anomalous reading
WEATHR
A weather event has occurred that may affect reading
CALIBR
Associated with the inspection or replacement of sensors for calibration
CLEARD
Site clearing of trees and brush around the meteorological station is being conducted
BURNED
Burning, including cleared trees and brush or wildfire, around the meteorological station or within the watershed (code begins at event initiation)

MS00107 - Dewpoint temperature (daily)

Object name: MS00107_v9.csv

Records: 104902

Attributes: 17

Temporal coverage: 1972-05-10 to 2019-03-28

File size: 9273685 byte

Checksum (MD5): a875c02e9b9396af1544af6a9978ef86

Format: headers=1, recordDelimiter=\r\n, fieldDelimiter=,, quoteCharacter=", orientation=column

Constraints (2)

primaryKey: PRIMARY
MS00107.DATE, MS00107.PROBE_CODE, MS00107.SITECODE
notNullConstraint: NOTNULL
MS00107.DATE, MS00107.ENTITY, MS00107.DEWPT_MEAN_FLAG, MS00107.DEWPT_MAX_FLAG, MS00107.DEWPT_MIN_FLAG, MS00107.PROBE_CODE, MS00107.DBCODE, MS00107.SITECODE, MS00107.HEIGHT, MS00107.EVENT_CODE, MS00107.QC_LEVEL, MS00107.DEWPT_METHOD

Attributes (17)

DBCODE - char(5) (nominal)

ID: MS00107.DBCODE

FSDB database code

Type system: Microsoft SQL Server 2019

Code definitions (1)

MS001
FSDB Database Code

ENTITY - numeric(2,0) (interval)

ID: MS00107.ENTITY

Entity number

Type system: Microsoft SQL Server 2019

Unit: number

Precision: 1.000000

Numeric domain: type=natural, min=7.0000 (exclusive=false), max=7.0000 (exclusive=false)

SITECODE - char(6) (nominal)

ID: MS00107.SITECODE

Site code for the meteorological measurement station

Type system: Microsoft SQL Server 2019

Code definitions (8)

CENMET
Central Meteorological Station
PRIMET
Primary Meteorological Station
UPLMET
Upper Lookout Meteorological Station
VANMET
Vanilla Leaf Meteorological Station
CS2MET
Climatic Station at Watershed 2
H15MET
High 15 Meteorological Station
VARMET
Vanilla Leaf Meadow Meteorological Station
WS7MET
Watershed 7 Meteorological Station

DEWPT_METHOD - char(6) (nominal)

ID: MS00107.DEWPT_METHOD

An indication of the the general methodology and instrumentation used to collect or calculate this dew point temperature data

Type system: Microsoft SQL Server 2019

Code definitions (48)

DEW001
Dewpoint temperature is measured with a heated lithium-chloride dewpoint sensor at 100 cm height and recorded continuously on a separate 30-day Rustrak strip chart; the mean is output every 60 minutes
DEW002
Dewpoint temperature is measured indirectly by a heated Interface Instrument lithium-chloride hygrometer with a linear thermistor at 150 cm height; the mean is output every 60 minutes
DEW003
Dewpoint temperature is measured indirectly by a heated Interface Instrument lithium-chloride hygrometer with a linear thermistor at 100 cm height; the mean is output every 60 minutes
DEW004
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP35C probe housed in a cotton region shelter at 150 cm height; the mean is output every 60 minutes
DEW005
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 150 cm height; the mean is output every 60 minutes
DEW006
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 450 cm height; the mean is output every 60 minutes
DEW007
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 480 cm height; the mean is output every 60 minutes
DEW008
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a locally designed PVC radiation shield at 150 cm height; the mean is output every 60 minutes
DEW009
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a locally designed PVC radiation shield at 450 cm height; the mean is output every 60 minutes
DEW010
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP35C probe housed in a R.M. Young Gill radiation shield at 450 cm height; the mean is output every 60 minutes
DEW011
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; the mean is output every 60 minutes
DEW012
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; the mean is output every 60 minutes
DEW014
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; the mean is output every 15 minutes
DEW015
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; the mean is output every 15 minutes
DEW201
Mean daily dew point temperature is calculated from hourly chart readings. Min-max values are based on hourly mean values. Heated lithium-chloride dewpoint sensor at 100 cm height records continuously on 30-day Rustrak strip chart; mean output 60 minutes
DEW202
Mean daily dew point temperature is calculated from hourly means. Min-max values are based on hourly mean values. Heated Interface Instrument lithium-chloride hygrometer with a linear thermistor at 150 cm height; mean is output every 60 minutes
DEW203
Mean daily dew point temperature is calculated from hourly means. Min-max values are based on hourly mean values. Heated Interface Instrument lithium-chloride hygrometer with a linear thermistor at 100 cm height; mean is output every 60 minutes
DEW104
Mean daily dew point temperature is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CSModel HMP35C; cotton region shelter; 150 cm (DEW004)
DEW105
Mean daily dew point temperature is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CSModel HMP35C; PVC radiation shield; 150 cm (DEW005)
DEW106
Mean daily dew point temperature is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CSModel HMP35C; PVC radiation shield; 450 cm (DEW006)
DEW107
Mean daily dew point temperature is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CSModel HMP35C; PVC radiation shield; 480 cm (DEW007)
DEW108
Mean daily dew point temperature is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CSModel HMP45C; PVC radiation shield; 150 cm (DEW008)
DEW109
Mean daily dew point temperature is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CSModel HMP45C; PVC radiation shield; 450 cm (DEW009)
DEW110
Mean daily dew point temperature is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CSModel HMP35C; RM Young Gill shield; 450 cm (DEW010)
DEW111
Mean daily dew point temperature is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CSModel HMP45C; RM Young Gill shield; 150 cm (DEW011)
DEW112
Mean daily dew point temperature is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP45C; RM Young Gill shield; 450 cm (DEW012)
DEW114
Mean daily dew point temperature is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP45C; RM Young Gill shield; 150 cm (DEW014)
DEW115
Mean daily dew point temperature is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP45C; RM Young Gill shield; 450 cm (DEW015)
DEW311
Mean daily dew point temperature is post-calculated from all hourly mean values for the day. Max-min values are calculated from 15 second readings of air temperature and relative humidity. CS Model HMP45C; RM Young Gill shield; 150 cm (DEW011)
DEW312
Mean daily dew point temperature is post-calculated from all hourly mean values for the day. Max-min values are calculated from 15 second readings of air temperature and relative humidity. CS Model HMP45C; RM Young Gill shield; 450 cm (DEW012)
DEW314
Mean daily dew point temperature is post-calculated from all 15 minute mean values for the day. Max-min values are calculated from 15 second readings of air temperature and relative humidity. CS Model HMP45C; RM Young Gill shield; 150 cm (method DEW014)
DEW315
Mean daily dew point temperature is post-calculated from all 15 minute mean values for the day. Max-min values are calculated from 15 second readings of air temperature and relative humidity. CS Model HMP45C; RM Young Gill shield; 450 cm (method DEW015)
DEW211
Mean daily dew point temperature is post-calculated from all hourly mean values for the day. Max-min values are based on hourly mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 150 cm height (See method DEW011)
DEW212
Mean daily dew point temperature is post-calculated from all hourly mean values for the day. Max-min values are based on hourly mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 450 cm height (See method DEW012)
DEW214
Mean daily dew point temperature is post-calculated from all15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 150 cm height (See method DEW014)
DEW215
Mean daily dew point temperature is post-calculated from all15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 450 cm height (See method DEW015)
DEW016
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; the mean is output every 5 minutes
DEW017
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; the mean is output every 5 minutes
DEW216
Mean daily dew point temperature is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 150 cm height (See method DEW016)
DEW217
Mean daily dew point temperature is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 450 cm height (See method DEW017)
DEW018
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean, min
DEW019
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean, min
DEW020
Dew point temperature is sampled by a Campbell Scientific model HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean, min and max dew point temperature is output every 5 minutes
DEW118
Mean daily dew point temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. CS Model HMP45C; RM Young Gill shield; 150 cm height (See method DEW018)
DEW119
Mean daily dew point temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. CS Model HMP45C; RM Young Gill shield; 450 cm height (See method DEW019)
DEW120
Mean daily dew point temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. CS Model HC2S3-L; RM Young Gill shield; 150 cm height (See method DEW020)
DEW021
Dew point temperature is sampled by a Campbell Scientific (CS) CR1000 data logger and CS HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; sampling rate 10 seconds; 5-minute output is the minimum, mean, and maximum of 30 samples.
DEW121
Dew point temperature is sampled by a Campbell Scientific (CS) CR1000 data logger and CS HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; sampling rate 10 seconds; 5-minute output is the minimum, mean, and maximum of 30 samples. Daily mean minimum, mean, and maximum are post-calculated from 5-minute output.

HEIGHT - numeric(4,0) (ratio)

ID: MS00107.HEIGHT

Height of sensor from ground surface

Type system: Microsoft SQL Server 2019

Unit: centimeters

Precision: 1.000000

Numeric domain: type=whole, min=100.0000 (exclusive=false), max=480.0000 (exclusive=false)

QC_LEVEL - char(2) (nominal)

ID: MS00107.QC_LEVEL

Quality control flag indicates level of quality checking performed including an indication of "provisional" data.

Type system: Microsoft SQL Server 2019

Code definitions (5)

1P
Data is provisional and subject to revision - preliminary quality checks have been performed
1A
Data is published and unlikely to change - automated range checking and manual review has been conducted. Quality is indicated in data value qualifier flags.
2A
Data is published and unlikely to change - Level 1A data has been modified such that data gaps may be filled or problem data may be removed
2D
Data is published and unlikely to change - data is derived or aggregated from published data of level 2A
1D
Data is published and unlikely to change - data is derived or aggregated from published data of level 1A

PROBE_CODE - char(8) (nominal)

ID: MS00107.PROBE_CODE

Probe number code indicates the measurement type, site, and sensor number (e.g., AIRPRI01)

Type system: Microsoft SQL Server 2019

Code definitions (194)

AIRCEN01
Air temperature at CENMET, probe no. 01 at height 450 cm on tower
AIRCEN02
Air temperature at CENMET, probe no. 02 at height 350 cm on tower (450 cm from 4 Nov 2002 to 24 Sep 2007)
AIRCEN03
Air temperature at CENMET, probe no. 03 at height 250 cm on tower (150 cm from 31 Oct 2002 to 24 Sep 2007)
AIRCEN04
Air temperature at CENMET, probe no. 04 at height 150 cm on tower
AIRCS201
Air temperature at CS2MET, probe no. 01 at height 130 cm in cotton shelter; daily min-max hygrothermograph charts; discontinued 1999
AIRCS202
Air temperature at CS2MET, probe no. 02 at height 150 cm
AIRH1501
Air temperature at H15MET, probe no. 01 at height 450 cm
AIRH1502
Air temperature at H15MET, probe no. 02 at height 150 cm
AIRPRI01
Air temperature at PRIMET, probe no. 01 at height 450 cm on tower
AIRPRI02
Air temperature at PRIMET, probe no. 02 at height 350 cm on tower (450 cm from 24 Sep 2002 to 30 Apr 2007)
AIRPRI03
Air temperature at PRIMET, probe no. 03 at height 250 cm on tower (150 cm from 24 Sep 2002 to 6 Jul 2003; 24 Jun 2004 to 30 Apr 2007)
AIRPRI04
Air temperature at PRIMET, probe no. 04 at height 150 cm on tower
AIRPRI05
Air temperature at PRIMET, probe no. 05 at height 150 cm in cotton region shelter; discontinued 14 June 2004
AIRUPL01
Air temperature at UPLMET, probe no. 01 at height 450 cm on tower
AIRUPL02
Air temperature at UPLMET, probe no. 02 at height 350 cm on tower (450 cm from 28 Jun 2004 to 16 Jul 2007)
AIRUPL03
Air temperature at UPLMET, probe no. 03 at height 250 cm on tower (350 cm 21 Oct 2002 - 22 Jul 2004; 150 cm 22 Jul 2004 - 16 Jul 2007)
AIRUPL04
Air temperature at UPLMET, probe no. 04 at height 150 cm on tower (450 cm from 24 Oct 2002 to 18 Jun 2004)
AIRVAN01
Air temperature at VANMET, probe no. 01 at height 450 cm on tower
AIRVAN02
Air temperature at VANMET, probe no. 02 at height 350 cm on tower (450 cm from 16 Jun 2004 to 25 Jul 2007)
AIRVAN03
Air temperature at VANMET, probe no. 03 at height 150 cm on tower (350 cm 17 Oct 2002 - 16 Jun 2004; 150 cm 16 Jun 2004 - 25 Jul 2007)
AIRVAN04
Air temperature at VANMET, probe no. 04 at height 150 cm on tower (450 cm from 17 Oct 2002 to 16 Jun 2004)
AIRVAN05
Air temperature at VANMET, probe no. 05 at height 50 cm; discontinued 5 Oct 1995
DEWCEN01
Dew point temperature at CENMET, probe no. 01 at height 450 cm on tower, calculated
DEWCEN04
Dew point temperature at CENMET, probe no. 04 at height 150 cm on tower, calculated
DEWCS202
Dew point temperature at CS2MET, probe no. 02 at height 150 cm on tower, calculated; begins 14 Apr 1998
DEWH1501
Dew point temperature at H15MET, probe no. 01 at height 450 cm on tower, calculated
DEWH1502
Dew point temperature at H15MET, probe no. 02 at height 150 cm on tower, calculated
DEWPRI01
Dew point temperature at PRIMET, probe no. 01 at height 450 cm on tower, calculated
DEWPRI04
Dew point temperature at PRIMET, probe no. 04 at height 150 cm on tower, calculated
DEWPRI05
Dew point temperature at PRIMET, probe no. 05 at height 150 cm in shelter, calculated; direct measurement before Jul 1988; discontinued 2000
DEWUPL01
Dew point temperature at UPLMET, probe no. 01 at height 450 cm on tower, calculated
DEWUPL04
Dew point temperature at UPLMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 24 Oct 2002 to 18 Jun 2004)
DEWVAN01
Dew point temperature at VANMET, probe no. 01 at height 450 cm on tower, calculated
DEWVAN04
Dew point temperature at VANMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 17 Oct 2002 to 16 Jun 2004)
VPDCEN01
Water vapor pressure deficit at CENMET, probe no. 01 at height 450 cm on tower, calculated
VPDCEN04
Water vapor pressure deficit at CENMET, probe no. 04 at height 150 cm on tower, calculated
VPDCS202
Water vapor pressure deficit at CS2MET, probe no. 02 at height 150 cm on tower, calculated; begins 14 Apr 1998
VPDH1501
Water vapor pressure deficit at H15MET, probe no. 01 at height 450 cm on tower, calculated
VPDH1502
Water vapor pressure deficit at H15MET, probe no. 02 at height 150 cm on tower, calculated
VPDPRI01
Water vapor pressure deficit at PRIMET, probe no. 01 at height 450 cm on tower, calculated
VPDPRI04
Water vapor pressure deficit at PRIMET, probe no. 04 at height 150 cm on tower, calculated
VPDPRI05
Water vapor pressure deficit at PRIMET, probe no. 05 at height 150 cm in cotton region shelter, calculated; discontinued May 2000
VPDUPL01
Water vapor pressure deficit at UPLMET, probe no. 01 at height 450 cm on tower, calculated
VPDUPL04
Water vapor pressure deficit at UPLMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 24 Oct 2002 to 18 Jun 2004)
VPDVAN01
Water vapor pressure deficit at VANMET, probe no. 01 at height 450 cm on tower, calculated
VPDVAN04
Water vapor pressure deficit at VANMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 17 Oct 2002 to 16 Jun 2004)
LYSCEN01
Snow lysimeter at CENMET, probe no. 01
LYSH1501
Snow lysimeter at H15MET, probe no. 01
LYSUPL01
Snow lysimeter at UPLMET, probe no. 01
PARCEN01
Photosynthetically active radiation (PAR) at CENMET, probe no. 1 at height 627 cm
PPTCEN01
Precipitation at CENMET, probe no. 01, stand-alone model
PPTCEN02
Precipitation at CENMET, probe no. 02, shelter-top model
PPTCS201
Precipitation at CS2MET, probe no. 01; Universal rain gauge chart; backup record not digitized beyond 2012
PPTH1501
Precipitation at H15MET, probe no. 01 at height 410 cm prorated to adjacent standard raingage, discontinued 1992
PPTH1502
Precipitation at H15MET, probe no. 02 at height 410 cm
PPTPRI01
Precipitation at PRIMET, probe no. 01 at height 100 cm
PPTPRI02
Precipitation at PRIMET, probe no. 02, stand-alone model; inconsistencies prevent sharing this data; discontinued 2010
PPTUPL01
Precipitation at UPLMET, probe no. 01 at height 457 cm, stand-alone model
PPTUPL02
Precipitation at UPLMET, probe no. 02 at height 627 cm, shelter-top model
PPTVAN01
Precipitation at VANMET, probe no. 01 at height 305 cm, shelter-top model; record ends Feb 1996; discontinued Sep 2001
PPTVAR02
Precipitation at VARMET, probe no. 02, stand-alone model in meadow
RELCEN01
Relative humidity at CENMET, probe no. 01 at height 450 cm
RELCEN04
Relative humidity at CENMET, probe no. 04 at height 150 cm
RELCS201
Relative humidity at CS2MET, probe no. 01 at height 130 cm in cotton shelter; daily min-max hygrothermograph charts; discontinued 1999
RELCS202
Relative humidity at CS2MET, probe no. 02 at height 150 cm
RELH1501
Relative humidity at H15MET, probe no. 01 at height 450 cm
RELH1502
Relative humidity at H15MET, probe no. 02 at height 150 cm
RELPRI01
Relative humidity at PRIMET, probe no. 01 at height 450 cm
RELPRI04
Relative humidity at PRIMET, probe no. 04 at height 150 cm
RELPRI05
Relative humidity at PRIMET, probe no. 05 at height 150 cm in cotton region shelter; discontinued 30 May 2000
RELUPL01
Relative humidity at UPLMET, probe no. 01 at height 450 cm
RELUPL04
Relative humidity at UPLMET, probe no. 04 at height 150 cm (450 cm from 24 Oct 2002 to 18 Jun 2004)
RELVAN01
Relative humidity at VANMET, probe no. 01 at height 450 cm; originally probe was repositioned at 150 cm in summer
RELVAN04
Relative humidity at VANMET, probe no. 04 at height 150 cm (450 cm from 17 Oct 2002 to 16 Jun 2004)
SWCPRI01
Soil water content at PRIMET, probe no. 01 at depth 10 cm
SWCPRI02
Soil water content at PRIMET, probe no. 02 at depth 20 cm
SWCPRI03
Soil water content at PRIMET, probe no. 03 at depth 50 cm
SWCPRI04
Soil water content at PRIMET, probe no. 04 at depth 100 cm
SWCCEN01
Soil water content at CENMET, probe no. 01 at depth 10 cm
SWCCEN02
Soil water content at CENMET, probe no. 02 at depth 20 cm
SWCCEN03
Soil water content at CENMET, probe no. 03 at depth 50 cm
SWCCEN04
Soil water content at CENMET, probe no. 04 at depth 100 cm
SWCUPL01
Soil water content at UPLMET, probe no. 01 at depth 10 cm
SWCUPL02
Soil water content at UPLMET, probe no. 02 at depth 20 cm
SWCUPL03
Soil water content at UPLMET, probe no. 03 at depth 50 cm
SWCUPL04
Soil water content at UPLMET, probe no. 04 at depth 100 cm
SWCVAN01
Soil water content at VANMET, probe no. 01 at depth 10 cm
SWCVAN02
Soil water content at VANMET, probe no. 02 at depth 20 cm
SWCVAN03
Soil water content at VANMET, probe no. 03 at depth 50 cm
SWCVAN04
Soil water content at VANMET, probe no. 04 at depth 100 cm
SMPCEN01
Soil moisture potential at CENMET, probe no. 01 at depth 10 cm; discontinued 13 Nov 2002
SMPCEN02
Soil moisture potential at CENMET, probe no. 02 at depth 20 cm; discontinued 13 Nov 2002
SMPCEN03
Soil moisture potential at CENMET, probe no. 03 at depth 50 cm; discontinued 13 Nov 2002
SMPCEN04
Soil moisture potential at CENMET, probe no. 04 at depth 100 cm; discontinued 13 Nov 2002
SMPPRI01
Soil moisture potential at PRIMET, probe no. 01 at depth 10 cm; discontinued 23 May 2000
SMPPRI02
Soil moisture potential at PRIMET, probe no. 02 at depth 20 cm; discontinued 23 May 2000
SMPPRI03
Soil moisture potential at PRIMET, probe no. 03 at depth 50 cm; discontinued 23 May 2000
SMPPRI04
Soil moisture potential at PRIMET, probe no. 04 at depth 100 cm; discontinued 23 May 2000
SMPUPL01
Soil moisture potential at UPLMET, probe no. 01 at depth 10 cm; discontinued 18 Oct 2001
SMPUPL02
Soil moisture potential at UPLMET, probe no. 02 at depth 20 cm; discontinued 18 Oct 2001
SMPUPL03
Soil moisture potential at UPLMET, probe no. 03 at depth 50 cm; discontinued 18 Oct 2001
SMPUPL04
Soil moisture potential at UPLMET, probe no. 04 at depth 100 cm; discontinued 18 Oct 2001
SMPVAN01
Soil moisture potential at VANMET, probe no. 01 at depth 10 cm; discontinued 9 Sep 2001
SMPVAN02
Soil moisture potential at VANMET, probe no. 02 at depth 20 cm; discontinued 9 Sep 2001
SMPVAN03
Soil moisture potential at VANMET, probe no. 03 at depth 50 cm; discontinued 9 Sep 2001
SMPVAN04
Soil moisture potential at VANMET, probe no. 04 at depth 100 cm; discontinued 9 Sep 2001
SMPVAN05
Soil moisture potential at VANMET, probe no. 05 at depth 30 cm; discontinued 9 Sep 2001
SNOCEN01
Snow water equivalence and depth at CENMET, probe no. 01, snow pillow with snow depth sensor
SNOCEN02
Snow water equivalence and depth at CENMET, probe no. 02, snow depth and calculated snow water around snow pillow
SNOCEN03
Snow water equivalence and depth at CENMET, probe no. 03, average snow course measurement along transect near the station
SNOPRI01
Snow water equivalence and depth at PRIMET, probe no. 01, snow pillow with snow depth sensor
SNOUPL01
Snow water equivalence and depth at UPLMET, probe no. 01, snow pillow with snow depth sensor
SNOUPL02
Snow water equivalence and depth at UPLMET, probe no. 02, snow depth and calculated snow water around snow pillow
SNOUPL03
Snow water equivalence and depth at UPLMET, probe no. 03, average snow course measurement along transect near the station
SNOVAN01
Snow water equivalence and depth at VANMET, probe no. 01, snow pillow with snow depth sensor
SNOVAN02
Snow water equivalence and depth at VANMET, probe no. 02, snow depth and calculated snow water around snow pillow in clearcut
SNOVAN03
Snow moisture and depth at VANMET, probe no. 03, average snow course measurement along transect near the station in the clearcut
SOICEN01
Soil temperature at CENMET, probe no. 01 at depth10 cm
SOICEN02
Soil temperature at CENMET, probe no. 02 at depth 20 cm
SOICEN03
Soil temperature at CENMET, probe no. 03 at depth 50 cm
SOICEN04
Soil temperature at CENMET, probe no. 04 at depth 100 cm
SOIPRI01
Soil temperature at PRIMET, probe no. 01 at depth 10 cm
SOIPRI02
Soil temperature at PRIMET, probe no. 02 at depth 20 cm
SOIPRI03
Soil temperature at PRIMET, probe no. 03 at depth 50 cm
SOIPRI04
Soil temperature at PRIMET, probe no. 04 at depth 100 cm
SOIUPL01
Soil temperature at UPLMET, probe no. 01 at depth 10 cm
SOIUPL02
Soil temperature at UPLMET, probe no. 02 at depth 20 cm
SOIUPL03
Soil temperature at UPLMET, probe no. 03 at depth 50 cm
SOIUPL04
Soil temperature at UPLMET, probe no. 04 at depth 100 cm
SOIVAN01
Soil temperature at VANMET, probe no. 01 at depth 10 cm; discontinued 29 July 2007
SOIVAN02
Soil temperature at VANMET, probe no. 02 at depth 20 cm; discontinued 29 July 2007
SOIVAN03
Soil temperature at VANMET, probe no. 03 at depth 50 cm; discontinued 29 July 2007
SOIVAN04
Soil temperature at VANMET, probe no. 04 at depth 100 cm; discontinued 29 July 2007
SOIVAN05
Soil temperature at VANMET, probe no. 05 at depth 30 cm; discontinued 13 July 1994
SWICEN01
Shortwave incoming solar radiation at CENMET, probe no. 01 at height 625 cm
SWIPRI01
Shortwave incoming solar radiation at PRIMET, probe no. 01 at height 100 cm
SWIUPL01
Shortwave incoming solar radiation at UPLMET, probe no. 01 at height 615 cm
SWIVAN01
Shortwave incoming solar radiation at VANMET, probe no. 01 at height 850 cm
WNDCEN01
Wind speed and direction at CENMET, probe no. 01 at height 1000 cm
WNDH1501
Wind speed and direction at H15MET, probe no. 01 at height 500 cm
WNDPRI01
Wind speed and direction at PRIMET, probe no. 01 at height 1000 cm
WNDUPL01
Wind speed and direction at UPLMET, probe no. 01 at height 1000 cm
WNDVAN01
Wind speed and direction at VANMET, probe no. 01 at height 1000 cm
AIRPRI06
Air temperature at PRIMET, probe no. 06 at height 150 cm on tower with aspirated shield
SNOVAR04
Snow moisture and depth at VARMET, probe no. 04, average snow course measurement along transect in the meadow
AIRPRI07
Air temperature at PRIMET, probe no. 07 at height 250 cm on tower with aspirated shield
AIRPRI08
Air temperature at PRIMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRPRI09
Air temperature at PRIMET, probe no. 09 at height 450 cm on tower with aspirated shield
AIRUPL08
Air temperature at UPLMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRVAN08
Air temperature at VANMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRVAR10
Air temperature at VARMET, probe no. 10 at height 450 cm on stand-alone rain gauge in meadow
ATMPRI01
Atmospheric pressure at PRIMET, probe no. 01 at elevation 430 m corrected to sea level
ATMUPL01
Atmospheric pressure at UPLMET, probe no. 01 at elevation 1294 m corrected to sea level
SWIPRI02
Shortwave incoming solar radiation at PRIMET, probe no. 02 at height 600 cm
SWIVAN02
Shortwave incoming solar radiation at VANMET, probe no. 02 at height 600 cm
WNDPRI02
Wind speed and direction using sonic anemometer at PRIMET, probe no. 02 at height 1000 cm
WNDVAN02
Wind speed and direction using sonic anemometer at VANMET, probe no. 02 at height 1000 cm
PPTCS202
Precipitation at CS2MET, probe no. 02; Noah IV rain gauge
SNOVAR05
Snow moisture and depth at VARMET, probe no. 05 in meadow, snow pillow with snow depth sensor
SOIVAN06
Soil temperature at VANMET, probe no. 06 at depth 10 cm; established 15 Sep 2004
SOIVAN07
Soil temperature at VANMET, probe no. 07 at depth 20 cm; established 15 Sep 2004
SOIVAN08
Soil temperature at VANMET, probe no. 08 at depth 50 cm; established 15 Sep 2004
SOIVAN09
Soil temperature at VANMET, probe no. 09 at depth 100 cm; established 15 Sep 2004
AIRCEN08
Air temperature at CENMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRCS203
Air temperature at CS2MET, probe no. 03 at height 150 cm
RELCS203
Relative humidity at CS2MET, probe no. 03 at height 150 cm
DEWCS203
Dew point temperature at CS2MET, probe no. 03 at height 150 cm on tower, calculated; begins 9 Apr 2015
VPDCS203
Water vapor pressure deficit at CS2MET, probe no. 03 at height 150 cm on tower, calculated; begins 09 Apr 2015; replaces VPDCS202
WNDWS702
Wind speed and direction using sonic anemometer at WS7MET, probe no. 02 at height 1000 cm
WNDCEN02
Wind speed and direction using sonic anemometer at CENMET, probe no. 02 at height 1000 cm
SWIWS701
Shortwave incoming solar radiation at WS7MET, probe no. 01 at height 450 cm
SOIWS701
Soil temperature at WS7MET, probe no. 01 at depth 10 cm; established 6 Dec 2006
SOIWS702
Soil temperature at WS7MET, probe no. 02 at depth 20 cm; established 6 Dec 2006
SOIWS703
Soil temperature at WS7MET, probe no. 03 at depth 50 cm; established 6 Dec 2006
SOIWS704
Soil temperature at WS7MET, probe no. 04 at depth 100 cm; established 6 Dec 2006
ATMWS701
Atmospheric pressure at WS7MET, probe no. 01 at elevation 998 m corrected to sea level
WNDWS701
Wind speed and direction at WS7MET, probe no. 01 at height 1000 cm
WNDWS703
Wind speed and direction at WS7MET, probe no. 03 at height 450 cm (discontinued 16 Sep 2012)
WNDWS704
Wind speed and direction at WS7MET, probe no. 04 at height 150 cm (discontinued 27 Jan 2008)
AIRWS701
Air temperature at WS7MET, probe no. 01 at height 450 cm on tower
AIRWS702
Air temperature at WS7MET, probe no. 02 at height 350 cm on tower
AIRWS703
Air temperature at WS7MET, probe no. 03 at height 250 cm on tower
AIRWS704
Air temperature at WS7MET, probe no. 04 at height 150 cm on tower
AIRWS708
Air temperature at WS7MET, probe no. 08 at height 350 cm on tower with aspirated shield
RELWS701
Relative humidity at WS7MET, probe no. 01 at height 450 cm
RELWS704
Relative humidity at WS7MET, probe no. 01 at height 150 cm
DEWWS701
Dew point temperature at WS7MET, probe no. 01 at height 450 cm on tower, calculated
DEWWS704
Dew point temperature at WS7MET, probe no. 04 at height 150 cm on tower, calculated
VPDWS701
Water vapor pressure deficit at WS7MET, probe no. 01 at height 450 cm on tower, calculated
VPDWS704
Water vapor pressure deficit at WS7MET, probe no. 04 at height 150 cm on tower, calculated
SNOWS701
Snow depth at WS7MET, probe no. 01, snow depth sensor at south site
SNOWS702
Snow depth at WS7MET, probe no. 02, snow depth sensor at west site (discontinued 14 May 2007)
WNDUPL02
Wind speed and direction using sonic anemometer at UPLMET, probe no. 02 at height 1000 cm
AIRCS205
Air temperature at CS2MET, probe no. 05 at height 150 cm

DATE - datetime (dateTime)

ID: MS00107.DATE

Date of measurement

Type system: Microsoft SQL Server 2019

Date format: YYYY-MM-DD

DEWPT_MEAN_DAY - numeric(5,1) (interval)

ID: MS00107.DEWPT_MEAN_DAY

Mean dew point temperature for day

Type system: Microsoft SQL Server 2019

Unit: degrees Celsius

Precision: 0.100000

Numeric domain: type=real, min=-25.5000 (exclusive=false), max=20.5000 (exclusive=false)

DEWPT_MEAN_FLAG - char(1) (nominal)

ID: MS00107.DEWPT_MEAN_FLAG

Mean dew point temperature flag

Type system: Microsoft SQL Server 2019

Code definitions (6)

E
Estimated value
M
Missing
A
Accepted value has passed all QC tests applied as represented by the quality level
Q
Questionable
B
Sensor buried in snow
P
Fire effects are visible in the data

DEWPT_MAX_DAY - numeric(5,1) (interval)

ID: MS00107.DEWPT_MAX_DAY

Maximum dew point temperature for the day

Type system: Microsoft SQL Server 2019

Unit: degrees Celsius

Precision: 0.100000

Numeric domain: type=real, min=-20.7000 (exclusive=false), max=31.7000 (exclusive=false)

DEWPT_MAX_FLAG - char(1) (nominal)

ID: MS00107.DEWPT_MAX_FLAG

Maximum dew point temperature flag

Type system: Microsoft SQL Server 2019

Code definitions (8)

E
Estimated value
M
Missing
A
Accepted value has passed all QC tests applied as represented by the quality level
Q
Questionable
B
Sensor buried in snow
F
Daily value based on the maximum 15 minute mean value
H
Daily value based on the maximum hourly mean value
P
Fire effects are visible in the data

DEWPT_MAXTIME - char(4) (ordinal)

ID: MS00107.DEWPT_MAXTIME

Time of day (HHMM) in Pacific Standard Time (PST) of maximum dew point temperature

Type system: Microsoft SQL Server 2019

DEWPT_MIN_DAY - numeric(5,1) (interval)

ID: MS00107.DEWPT_MIN_DAY

Minimum dew point temperature for the day

Type system: Microsoft SQL Server 2019

Unit: degrees Celsius

Precision: 0.100000

Numeric domain: type=real, min=-34.1000 (exclusive=false), max=18.2000 (exclusive=false)

DEWPT_MIN_FLAG - char(1) (nominal)

ID: MS00107.DEWPT_MIN_FLAG

Minimum dew point temperature flag

Type system: Microsoft SQL Server 2019

Code definitions (8)

E
Estimated value
M
Missing
A
Accepted value has passed all QC tests applied as represented by the quality level
Q
Questionable
B
Sensor buried in snow
F
Daily value based on the minimum 15 minute mean value
H
Daily value based on the minimum hourly mean value
P
Fire effects are visible in the data

DEWPT_MINTIME - char(4) (ordinal)

ID: MS00107.DEWPT_MINTIME

Time of day (HHMM) in Pacific Standard Time (PST) of minimum dew point temperature

Type system: Microsoft SQL Server 2019

EVENT_CODE - char(6) (nominal)

ID: MS00107.EVENT_CODE

Any event, disruption in protocol, or unusual conditions that occur at the given date or time and may have an effect on the data values; contact information manager for access to specific details from the field 'Notes' database

Type system: Microsoft SQL Server 2019

Code definitions (11)

INSREM
Sensor is installed or removed
LOGGER
Change in data logger, data logger program, or wiring
METHOD
Change in data collection method
NA
No event is reported (not applicable)
QUALTY
Event may directly affect data quality (individual activities tracked in field notes database)
MAINTE
A maintenance event has occurred
INTPRO
Internal processing may produce an anomalous reading
WEATHR
A weather event has occurred that may affect reading
CALIBR
Associated with the inspection or replacement of sensors for calibration
CLEARD
Site clearing of trees and brush around the meteorological station is being conducted
BURNED
Burning, including cleared trees and brush or wildfire, around the meteorological station or within the watershed (code begins at event initiation)

MS00108 - Water vapor pressure deficit (daily)

Object name: MS00108_v9.csv

Records: 96752

Attributes: 23

Temporal coverage: 1988-07-06 to 2019-03-28

File size: 9745987 byte

Checksum (MD5): 671c4a21b9511fba4295e7877beb936f

Format: headers=1, recordDelimiter=\r\n, fieldDelimiter=,, quoteCharacter=", orientation=column

Constraints (2)

primaryKey: PRIMARY
MS00108.DATE, MS00108.PROBE_CODE, MS00108.SITECODE
notNullConstraint: NOTNULL
MS00108.DATE, MS00108.ENTITY, MS00108.VPD_MEAN_FLAG, MS00108.VPD_MAX_FLAG, MS00108.VPD_MIN_FLAG, MS00108.PROBE_CODE, MS00108.DBCODE, MS00108.SITECODE, MS00108.HEIGHT, MS00108.EVENT_CODE, MS00108.QC_LEVEL, MS00108.VPD_METHOD, MS00108.VAP_MEAN_FLAG, MS00108.VAP_MAX_FLAG, MS00108.VAP_MIN_FLAG

Attributes (23)

DBCODE - char(5) (nominal)

ID: MS00108.DBCODE

FSDB database code

Type system: Microsoft SQL Server 2019

Code definitions (1)

MS001
FSDB Database Code

ENTITY - numeric(2,0) (interval)

ID: MS00108.ENTITY

Entity number

Type system: Microsoft SQL Server 2019

Unit: number

Precision: 1.000000

Numeric domain: type=natural, min=8.0000 (exclusive=false), max=8.0000 (exclusive=false)

SITECODE - char(6) (nominal)

ID: MS00108.SITECODE

Site code for the meteorological measurement station

Type system: Microsoft SQL Server 2019

Code definitions (8)

CENMET
Central Meteorological Station
PRIMET
Primary Meteorological Station
UPLMET
Upper Lookout Meteorological Station
VANMET
Vanilla Leaf Meteorological Station
CS2MET
Climatic Station at Watershed 2
H15MET
High 15 Meteorological Station
VARMET
Vanilla Leaf Meadow Meteorological Station
WS7MET
Watershed 7 Meteorological Station

VPD_METHOD - char(6) (nominal)

ID: MS00108.VPD_METHOD

An indication of the the general methodology and instrumentation used to collect or calculate this vapor pressure deficit data

Type system: Microsoft SQL Server 2019

Code definitions (44)

VPD001
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP35C probe housed in a cotton region shelter at 150 cm height; the mean is output every 60 minutes
VPD002
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 150 cm height; the mean is output every 60 minutes
VPD003
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 450 cm height; the mean is output every 60 minutes
VPD004
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a locally designed PVC radiation shield at 150 cm height; the mean is output every 60 minutes
VPD005
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a locally designed PVC radiation shield at 450 cm height; the mean is output every 60 minutes
VPD006
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP35C probe housed in a R.M. Young Gill radiation shield at 450 cm height; the mean is output every 60 minutes
VPD007
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; the mean is output every 60 minutes
VPD008
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; the mean is output every 60 minutes
VPD009
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; the mean is output every 15 minutes
VPD010
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; the mean is output every 15 minutes
VPD101
Mean daily vapor pressure deficit is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP35C;cotton region shelter; 150 cm (VPD001)
VPD102
Mean daily vapor pressure deficit is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings.. CS Model HMP35C;PVC radiation shield; 150 cm (VPD002)
VPD103
Mean daily vapor pressure deficit is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP35C;PVC radiation shield; 450 cm VPD003)
VPD104
Mean daily vapor pressure deficit is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP45C;PVC radiation shield; 150 cm (VPD004)
VPD105
Mean daily vapor pressure deficit is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP45C;PVC radiation shield; 450 cm (VPD005)
VPD106
Mean daily vapor pressure deficit is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP35C;RM Young Gill shield; 450 cm (VPD006)
VPD107
Mean daily vapor pressure deficit is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP45C;RM Young Gill shield; 150 cm (VPD007)
VPD108
Mean daily vapor pressure deficit is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP45C;RM Young Gill shield; 450 cm (VPD008)
VPD109
Mean daily vapor pressure deficit is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP45C;RM Young Gill shield; 150 cm (VPD009)
VPD110
Mean daily vapor pressure deficit is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP45C;RM Young Gill shield; 450 cm (VPD010)
VPD207
Mean daily vapor pressure deficit is post-calculated from all hourly mean values for the day. Max-min values are based on hourly mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 150 cm (See method VPD007)
VPD307
Mean daily vapor pressure deficit is post-calculated from all hourly mean values for the day. Max-min values are calculated from 15 second readings of air temperature and relative humidity. CS Model HMP45C; RM Young Gill shield;150 cm (See method VPD007)
VPD208
Mean daily vapor pressure deficit is post-calculated from all hourly mean values for the day. Max-min values are based on hourly mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 450 cm (See method VPD008)
VPD308
Mean daily vapor pressure deficit is post-calculated from all hourly mean values for the day. Max-min values are calculated from 15 second readings of air temperature and relative humidity. CS Model HMP45C; RM Young Gill shield;450 cm (See method VPD008)
VPD209
Mean daily vapor pressure deficit is post-calculated from all 15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 150 cm (See method VPD009)
VPD309
Mean daily vapor pressure deficit is post-calculated from all 15 minute mean values for the day. Max-min values are calculated from 15 second readings of air temperature and relative humidity. CS Model HMP45C; RM Young Gill shield; 150 cm (method VPD009)
VPD210
Mean daily vapor pressure deficit is post-calculated from all 15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 450 cm (See method VPD010)
VPD310
Mean daily vapor pressure deficit is post-calculated from all 15 minute mean values for the day. Max-min values are calculated from 15 second readings of air temperature and relative humidity. CS Model HMP45C; RM Young Gill shield; 450 cm (method VPD010)
VPD011
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; the mean is output every 5 minutes
VPD012
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; the mean is output every 5 minutes
VPD211
Mean daily vapor pressure deficit is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 150 cm (See method VPD011)
VPD212
Mean daily vapor pressure deficit is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 450 cm (See method VPD012)
VPD213
Mean daily vapor pressure deficit and vp are post-calculated from all 5 minute mean air temp and rh values for the day. Max-min values are based on 5 minute means not instantaneous values. CS Model HMP45C; RM Young Gill shield; 150 cm (See method VPD013)
VPD214
Mean daily vapor pressure deficit and vp are post-calculated from all 5 minute mean air temp and rh values for the day. Max-min values are based on 5 minute means not instantaneous values. CS Model HMP45C; RM Young Gill shield; 450 cm (See method VPD014)
VPD215
Mean daily vapor pressure deficit and vp are post-calculated from all 5 minute mean air temp and rh values for the day. Max-min values are based on 5 minute means not instantaneous values. CS Model HC2S3-L; RMYoung Gill shield; 150 cm (See method VPD015)
VPD316
Mean daily vapor pressure deficit and vp are post-calculated from all 15 minute mean air temp and rh values for the day. Max-min values are based on 15 minute means not instantaneous values. CSModel HMP45C; RMYoung Gill shield; 150 cm (See method VPD016)
VPD317
Mean daily vapor pressure deficit and vp are post-calculated from all 15 minute mean air temp and rh values for the day. Max-min values are based on 15 minute means not instantaneous values. CSModel HMP45C; RMYoung Gill shield; 450 cm (See method VPD017)
VPD013
Vapor pressure deficit is post-calculated from 5-minute mean air temperature and relative humidity from a CS model HMP45C probe housed in a R.M.Young Gill radiation shield at 150 cm height; VPD, VP, SatVP means are output at 5 minute resolution
VPD014
Vapor pressure deficit is post-calculated from 5-minute mean air temperature and relative humidity from a CS model HMP45C probe housed in a R.M.Young Gill radiation shield at 450 cm height; VPD, VP, SatVP means are output at 5 minute resolution
VPD015
Vapor pressure deficit is post-calculated from 5-minute mean air temperature and relative humidity from a CS model HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; VPD, VP, SatVP means are output at 5 minute resolution
VPD016
Vapor pressure deficit is post-calculated from 15-minute mean air temperature and relative humidity from a CS model HMP45C probe housed in a R.M.Young Gill radiation shield at 150 cm height; VPD, VP, SatVP means are output at 15 minute resolution
VPD017
Vapor pressure deficit is post-calculated from 15-minute mean air temperature and relative humidity from a CS model HMP45C probe housed in a R.M.Young Gill radiation shield at 450 cm height; VPD, VP, SatVP means are output at 15 minute resolution
VPD018
Vapor pressure deficit is post-calculated from air temperature and relative humidity sampled by a Campbell Scientific (CS) CR1000 data logger and CS HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; sampling rate 10 seconds; 5-minute output is the mean of 30 samples.
VPD118
Vapor pressure deficit is post-calculated from air temperature and relative humidity sampled by a Campbell Scientific (CS) CR1000 data logger and CS HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; sampling rate 10 seconds; 5-minute output is the mean of 30 samples ; daily mean, mean minimum, and mean maximum are post-calculated from five-minute mean values.

HEIGHT - numeric(4,0) (ratio)

ID: MS00108.HEIGHT

Height of sensor from ground surface

Type system: Microsoft SQL Server 2019

Unit: centimeters

Precision: 1.000000

Numeric domain: type=whole, min=150.0000 (exclusive=false), max=450.0000 (exclusive=false)

QC_LEVEL - char(2) (nominal)

ID: MS00108.QC_LEVEL

Quality control flag indicates level of quality checking performed including an indication of "provisional" data.

Type system: Microsoft SQL Server 2019

Code definitions (5)

1P
Data is provisional and subject to revision - preliminary quality checks have been performed
1A
Data is published and unlikely to change - automated range checking and manual review has been conducted. Quality is indicated in data value qualifier flags.
2A
Data is published and unlikely to change - Level 1A data has been modified such that data gaps may be filled or problem data may be removed
2D
Data is published and unlikely to change - data is derived or aggregated from published data of level 2A
1D
Data is published and unlikely to change - data is derived or aggregated from published data of level 1A

PROBE_CODE - char(8) (nominal)

ID: MS00108.PROBE_CODE

Probe number code indicates the measurement type, site, and sensor number (e.g., AIRPRI01)

Type system: Microsoft SQL Server 2019

Code definitions (194)

AIRCEN01
Air temperature at CENMET, probe no. 01 at height 450 cm on tower
AIRCEN02
Air temperature at CENMET, probe no. 02 at height 350 cm on tower (450 cm from 4 Nov 2002 to 24 Sep 2007)
AIRCEN03
Air temperature at CENMET, probe no. 03 at height 250 cm on tower (150 cm from 31 Oct 2002 to 24 Sep 2007)
AIRCEN04
Air temperature at CENMET, probe no. 04 at height 150 cm on tower
AIRCS201
Air temperature at CS2MET, probe no. 01 at height 130 cm in cotton shelter; daily min-max hygrothermograph charts; discontinued 1999
AIRCS202
Air temperature at CS2MET, probe no. 02 at height 150 cm
AIRH1501
Air temperature at H15MET, probe no. 01 at height 450 cm
AIRH1502
Air temperature at H15MET, probe no. 02 at height 150 cm
AIRPRI01
Air temperature at PRIMET, probe no. 01 at height 450 cm on tower
AIRPRI02
Air temperature at PRIMET, probe no. 02 at height 350 cm on tower (450 cm from 24 Sep 2002 to 30 Apr 2007)
AIRPRI03
Air temperature at PRIMET, probe no. 03 at height 250 cm on tower (150 cm from 24 Sep 2002 to 6 Jul 2003; 24 Jun 2004 to 30 Apr 2007)
AIRPRI04
Air temperature at PRIMET, probe no. 04 at height 150 cm on tower
AIRPRI05
Air temperature at PRIMET, probe no. 05 at height 150 cm in cotton region shelter; discontinued 14 June 2004
AIRUPL01
Air temperature at UPLMET, probe no. 01 at height 450 cm on tower
AIRUPL02
Air temperature at UPLMET, probe no. 02 at height 350 cm on tower (450 cm from 28 Jun 2004 to 16 Jul 2007)
AIRUPL03
Air temperature at UPLMET, probe no. 03 at height 250 cm on tower (350 cm 21 Oct 2002 - 22 Jul 2004; 150 cm 22 Jul 2004 - 16 Jul 2007)
AIRUPL04
Air temperature at UPLMET, probe no. 04 at height 150 cm on tower (450 cm from 24 Oct 2002 to 18 Jun 2004)
AIRVAN01
Air temperature at VANMET, probe no. 01 at height 450 cm on tower
AIRVAN02
Air temperature at VANMET, probe no. 02 at height 350 cm on tower (450 cm from 16 Jun 2004 to 25 Jul 2007)
AIRVAN03
Air temperature at VANMET, probe no. 03 at height 150 cm on tower (350 cm 17 Oct 2002 - 16 Jun 2004; 150 cm 16 Jun 2004 - 25 Jul 2007)
AIRVAN04
Air temperature at VANMET, probe no. 04 at height 150 cm on tower (450 cm from 17 Oct 2002 to 16 Jun 2004)
AIRVAN05
Air temperature at VANMET, probe no. 05 at height 50 cm; discontinued 5 Oct 1995
DEWCEN01
Dew point temperature at CENMET, probe no. 01 at height 450 cm on tower, calculated
DEWCEN04
Dew point temperature at CENMET, probe no. 04 at height 150 cm on tower, calculated
DEWCS202
Dew point temperature at CS2MET, probe no. 02 at height 150 cm on tower, calculated; begins 14 Apr 1998
DEWH1501
Dew point temperature at H15MET, probe no. 01 at height 450 cm on tower, calculated
DEWH1502
Dew point temperature at H15MET, probe no. 02 at height 150 cm on tower, calculated
DEWPRI01
Dew point temperature at PRIMET, probe no. 01 at height 450 cm on tower, calculated
DEWPRI04
Dew point temperature at PRIMET, probe no. 04 at height 150 cm on tower, calculated
DEWPRI05
Dew point temperature at PRIMET, probe no. 05 at height 150 cm in shelter, calculated; direct measurement before Jul 1988; discontinued 2000
DEWUPL01
Dew point temperature at UPLMET, probe no. 01 at height 450 cm on tower, calculated
DEWUPL04
Dew point temperature at UPLMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 24 Oct 2002 to 18 Jun 2004)
DEWVAN01
Dew point temperature at VANMET, probe no. 01 at height 450 cm on tower, calculated
DEWVAN04
Dew point temperature at VANMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 17 Oct 2002 to 16 Jun 2004)
VPDCEN01
Water vapor pressure deficit at CENMET, probe no. 01 at height 450 cm on tower, calculated
VPDCEN04
Water vapor pressure deficit at CENMET, probe no. 04 at height 150 cm on tower, calculated
VPDCS202
Water vapor pressure deficit at CS2MET, probe no. 02 at height 150 cm on tower, calculated; begins 14 Apr 1998
VPDH1501
Water vapor pressure deficit at H15MET, probe no. 01 at height 450 cm on tower, calculated
VPDH1502
Water vapor pressure deficit at H15MET, probe no. 02 at height 150 cm on tower, calculated
VPDPRI01
Water vapor pressure deficit at PRIMET, probe no. 01 at height 450 cm on tower, calculated
VPDPRI04
Water vapor pressure deficit at PRIMET, probe no. 04 at height 150 cm on tower, calculated
VPDPRI05
Water vapor pressure deficit at PRIMET, probe no. 05 at height 150 cm in cotton region shelter, calculated; discontinued May 2000
VPDUPL01
Water vapor pressure deficit at UPLMET, probe no. 01 at height 450 cm on tower, calculated
VPDUPL04
Water vapor pressure deficit at UPLMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 24 Oct 2002 to 18 Jun 2004)
VPDVAN01
Water vapor pressure deficit at VANMET, probe no. 01 at height 450 cm on tower, calculated
VPDVAN04
Water vapor pressure deficit at VANMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 17 Oct 2002 to 16 Jun 2004)
LYSCEN01
Snow lysimeter at CENMET, probe no. 01
LYSH1501
Snow lysimeter at H15MET, probe no. 01
LYSUPL01
Snow lysimeter at UPLMET, probe no. 01
PARCEN01
Photosynthetically active radiation (PAR) at CENMET, probe no. 1 at height 627 cm
PPTCEN01
Precipitation at CENMET, probe no. 01, stand-alone model
PPTCEN02
Precipitation at CENMET, probe no. 02, shelter-top model
PPTCS201
Precipitation at CS2MET, probe no. 01; Universal rain gauge chart; backup record not digitized beyond 2012
PPTH1501
Precipitation at H15MET, probe no. 01 at height 410 cm prorated to adjacent standard raingage, discontinued 1992
PPTH1502
Precipitation at H15MET, probe no. 02 at height 410 cm
PPTPRI01
Precipitation at PRIMET, probe no. 01 at height 100 cm
PPTPRI02
Precipitation at PRIMET, probe no. 02, stand-alone model; inconsistencies prevent sharing this data; discontinued 2010
PPTUPL01
Precipitation at UPLMET, probe no. 01 at height 457 cm, stand-alone model
PPTUPL02
Precipitation at UPLMET, probe no. 02 at height 627 cm, shelter-top model
PPTVAN01
Precipitation at VANMET, probe no. 01 at height 305 cm, shelter-top model; record ends Feb 1996; discontinued Sep 2001
PPTVAR02
Precipitation at VARMET, probe no. 02, stand-alone model in meadow
RELCEN01
Relative humidity at CENMET, probe no. 01 at height 450 cm
RELCEN04
Relative humidity at CENMET, probe no. 04 at height 150 cm
RELCS201
Relative humidity at CS2MET, probe no. 01 at height 130 cm in cotton shelter; daily min-max hygrothermograph charts; discontinued 1999
RELCS202
Relative humidity at CS2MET, probe no. 02 at height 150 cm
RELH1501
Relative humidity at H15MET, probe no. 01 at height 450 cm
RELH1502
Relative humidity at H15MET, probe no. 02 at height 150 cm
RELPRI01
Relative humidity at PRIMET, probe no. 01 at height 450 cm
RELPRI04
Relative humidity at PRIMET, probe no. 04 at height 150 cm
RELPRI05
Relative humidity at PRIMET, probe no. 05 at height 150 cm in cotton region shelter; discontinued 30 May 2000
RELUPL01
Relative humidity at UPLMET, probe no. 01 at height 450 cm
RELUPL04
Relative humidity at UPLMET, probe no. 04 at height 150 cm (450 cm from 24 Oct 2002 to 18 Jun 2004)
RELVAN01
Relative humidity at VANMET, probe no. 01 at height 450 cm; originally probe was repositioned at 150 cm in summer
RELVAN04
Relative humidity at VANMET, probe no. 04 at height 150 cm (450 cm from 17 Oct 2002 to 16 Jun 2004)
SWCPRI01
Soil water content at PRIMET, probe no. 01 at depth 10 cm
SWCPRI02
Soil water content at PRIMET, probe no. 02 at depth 20 cm
SWCPRI03
Soil water content at PRIMET, probe no. 03 at depth 50 cm
SWCPRI04
Soil water content at PRIMET, probe no. 04 at depth 100 cm
SWCCEN01
Soil water content at CENMET, probe no. 01 at depth 10 cm
SWCCEN02
Soil water content at CENMET, probe no. 02 at depth 20 cm
SWCCEN03
Soil water content at CENMET, probe no. 03 at depth 50 cm
SWCCEN04
Soil water content at CENMET, probe no. 04 at depth 100 cm
SWCUPL01
Soil water content at UPLMET, probe no. 01 at depth 10 cm
SWCUPL02
Soil water content at UPLMET, probe no. 02 at depth 20 cm
SWCUPL03
Soil water content at UPLMET, probe no. 03 at depth 50 cm
SWCUPL04
Soil water content at UPLMET, probe no. 04 at depth 100 cm
SWCVAN01
Soil water content at VANMET, probe no. 01 at depth 10 cm
SWCVAN02
Soil water content at VANMET, probe no. 02 at depth 20 cm
SWCVAN03
Soil water content at VANMET, probe no. 03 at depth 50 cm
SWCVAN04
Soil water content at VANMET, probe no. 04 at depth 100 cm
SMPCEN01
Soil moisture potential at CENMET, probe no. 01 at depth 10 cm; discontinued 13 Nov 2002
SMPCEN02
Soil moisture potential at CENMET, probe no. 02 at depth 20 cm; discontinued 13 Nov 2002
SMPCEN03
Soil moisture potential at CENMET, probe no. 03 at depth 50 cm; discontinued 13 Nov 2002
SMPCEN04
Soil moisture potential at CENMET, probe no. 04 at depth 100 cm; discontinued 13 Nov 2002
SMPPRI01
Soil moisture potential at PRIMET, probe no. 01 at depth 10 cm; discontinued 23 May 2000
SMPPRI02
Soil moisture potential at PRIMET, probe no. 02 at depth 20 cm; discontinued 23 May 2000
SMPPRI03
Soil moisture potential at PRIMET, probe no. 03 at depth 50 cm; discontinued 23 May 2000
SMPPRI04
Soil moisture potential at PRIMET, probe no. 04 at depth 100 cm; discontinued 23 May 2000
SMPUPL01
Soil moisture potential at UPLMET, probe no. 01 at depth 10 cm; discontinued 18 Oct 2001
SMPUPL02
Soil moisture potential at UPLMET, probe no. 02 at depth 20 cm; discontinued 18 Oct 2001
SMPUPL03
Soil moisture potential at UPLMET, probe no. 03 at depth 50 cm; discontinued 18 Oct 2001
SMPUPL04
Soil moisture potential at UPLMET, probe no. 04 at depth 100 cm; discontinued 18 Oct 2001
SMPVAN01
Soil moisture potential at VANMET, probe no. 01 at depth 10 cm; discontinued 9 Sep 2001
SMPVAN02
Soil moisture potential at VANMET, probe no. 02 at depth 20 cm; discontinued 9 Sep 2001
SMPVAN03
Soil moisture potential at VANMET, probe no. 03 at depth 50 cm; discontinued 9 Sep 2001
SMPVAN04
Soil moisture potential at VANMET, probe no. 04 at depth 100 cm; discontinued 9 Sep 2001
SMPVAN05
Soil moisture potential at VANMET, probe no. 05 at depth 30 cm; discontinued 9 Sep 2001
SNOCEN01
Snow water equivalence and depth at CENMET, probe no. 01, snow pillow with snow depth sensor
SNOCEN02
Snow water equivalence and depth at CENMET, probe no. 02, snow depth and calculated snow water around snow pillow
SNOCEN03
Snow water equivalence and depth at CENMET, probe no. 03, average snow course measurement along transect near the station
SNOPRI01
Snow water equivalence and depth at PRIMET, probe no. 01, snow pillow with snow depth sensor
SNOUPL01
Snow water equivalence and depth at UPLMET, probe no. 01, snow pillow with snow depth sensor
SNOUPL02
Snow water equivalence and depth at UPLMET, probe no. 02, snow depth and calculated snow water around snow pillow
SNOUPL03
Snow water equivalence and depth at UPLMET, probe no. 03, average snow course measurement along transect near the station
SNOVAN01
Snow water equivalence and depth at VANMET, probe no. 01, snow pillow with snow depth sensor
SNOVAN02
Snow water equivalence and depth at VANMET, probe no. 02, snow depth and calculated snow water around snow pillow in clearcut
SNOVAN03
Snow moisture and depth at VANMET, probe no. 03, average snow course measurement along transect near the station in the clearcut
SOICEN01
Soil temperature at CENMET, probe no. 01 at depth10 cm
SOICEN02
Soil temperature at CENMET, probe no. 02 at depth 20 cm
SOICEN03
Soil temperature at CENMET, probe no. 03 at depth 50 cm
SOICEN04
Soil temperature at CENMET, probe no. 04 at depth 100 cm
SOIPRI01
Soil temperature at PRIMET, probe no. 01 at depth 10 cm
SOIPRI02
Soil temperature at PRIMET, probe no. 02 at depth 20 cm
SOIPRI03
Soil temperature at PRIMET, probe no. 03 at depth 50 cm
SOIPRI04
Soil temperature at PRIMET, probe no. 04 at depth 100 cm
SOIUPL01
Soil temperature at UPLMET, probe no. 01 at depth 10 cm
SOIUPL02
Soil temperature at UPLMET, probe no. 02 at depth 20 cm
SOIUPL03
Soil temperature at UPLMET, probe no. 03 at depth 50 cm
SOIUPL04
Soil temperature at UPLMET, probe no. 04 at depth 100 cm
SOIVAN01
Soil temperature at VANMET, probe no. 01 at depth 10 cm; discontinued 29 July 2007
SOIVAN02
Soil temperature at VANMET, probe no. 02 at depth 20 cm; discontinued 29 July 2007
SOIVAN03
Soil temperature at VANMET, probe no. 03 at depth 50 cm; discontinued 29 July 2007
SOIVAN04
Soil temperature at VANMET, probe no. 04 at depth 100 cm; discontinued 29 July 2007
SOIVAN05
Soil temperature at VANMET, probe no. 05 at depth 30 cm; discontinued 13 July 1994
SWICEN01
Shortwave incoming solar radiation at CENMET, probe no. 01 at height 625 cm
SWIPRI01
Shortwave incoming solar radiation at PRIMET, probe no. 01 at height 100 cm
SWIUPL01
Shortwave incoming solar radiation at UPLMET, probe no. 01 at height 615 cm
SWIVAN01
Shortwave incoming solar radiation at VANMET, probe no. 01 at height 850 cm
WNDCEN01
Wind speed and direction at CENMET, probe no. 01 at height 1000 cm
WNDH1501
Wind speed and direction at H15MET, probe no. 01 at height 500 cm
WNDPRI01
Wind speed and direction at PRIMET, probe no. 01 at height 1000 cm
WNDUPL01
Wind speed and direction at UPLMET, probe no. 01 at height 1000 cm
WNDVAN01
Wind speed and direction at VANMET, probe no. 01 at height 1000 cm
AIRPRI06
Air temperature at PRIMET, probe no. 06 at height 150 cm on tower with aspirated shield
SNOVAR04
Snow moisture and depth at VARMET, probe no. 04, average snow course measurement along transect in the meadow
AIRPRI07
Air temperature at PRIMET, probe no. 07 at height 250 cm on tower with aspirated shield
AIRPRI08
Air temperature at PRIMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRPRI09
Air temperature at PRIMET, probe no. 09 at height 450 cm on tower with aspirated shield
AIRUPL08
Air temperature at UPLMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRVAN08
Air temperature at VANMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRVAR10
Air temperature at VARMET, probe no. 10 at height 450 cm on stand-alone rain gauge in meadow
ATMPRI01
Atmospheric pressure at PRIMET, probe no. 01 at elevation 430 m corrected to sea level
ATMUPL01
Atmospheric pressure at UPLMET, probe no. 01 at elevation 1294 m corrected to sea level
SWIPRI02
Shortwave incoming solar radiation at PRIMET, probe no. 02 at height 600 cm
SWIVAN02
Shortwave incoming solar radiation at VANMET, probe no. 02 at height 600 cm
WNDPRI02
Wind speed and direction using sonic anemometer at PRIMET, probe no. 02 at height 1000 cm
WNDVAN02
Wind speed and direction using sonic anemometer at VANMET, probe no. 02 at height 1000 cm
PPTCS202
Precipitation at CS2MET, probe no. 02; Noah IV rain gauge
SNOVAR05
Snow moisture and depth at VARMET, probe no. 05 in meadow, snow pillow with snow depth sensor
SOIVAN06
Soil temperature at VANMET, probe no. 06 at depth 10 cm; established 15 Sep 2004
SOIVAN07
Soil temperature at VANMET, probe no. 07 at depth 20 cm; established 15 Sep 2004
SOIVAN08
Soil temperature at VANMET, probe no. 08 at depth 50 cm; established 15 Sep 2004
SOIVAN09
Soil temperature at VANMET, probe no. 09 at depth 100 cm; established 15 Sep 2004
AIRCEN08
Air temperature at CENMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRCS203
Air temperature at CS2MET, probe no. 03 at height 150 cm
RELCS203
Relative humidity at CS2MET, probe no. 03 at height 150 cm
DEWCS203
Dew point temperature at CS2MET, probe no. 03 at height 150 cm on tower, calculated; begins 9 Apr 2015
VPDCS203
Water vapor pressure deficit at CS2MET, probe no. 03 at height 150 cm on tower, calculated; begins 09 Apr 2015; replaces VPDCS202
WNDWS702
Wind speed and direction using sonic anemometer at WS7MET, probe no. 02 at height 1000 cm
WNDCEN02
Wind speed and direction using sonic anemometer at CENMET, probe no. 02 at height 1000 cm
SWIWS701
Shortwave incoming solar radiation at WS7MET, probe no. 01 at height 450 cm
SOIWS701
Soil temperature at WS7MET, probe no. 01 at depth 10 cm; established 6 Dec 2006
SOIWS702
Soil temperature at WS7MET, probe no. 02 at depth 20 cm; established 6 Dec 2006
SOIWS703
Soil temperature at WS7MET, probe no. 03 at depth 50 cm; established 6 Dec 2006
SOIWS704
Soil temperature at WS7MET, probe no. 04 at depth 100 cm; established 6 Dec 2006
ATMWS701
Atmospheric pressure at WS7MET, probe no. 01 at elevation 998 m corrected to sea level
WNDWS701
Wind speed and direction at WS7MET, probe no. 01 at height 1000 cm
WNDWS703
Wind speed and direction at WS7MET, probe no. 03 at height 450 cm (discontinued 16 Sep 2012)
WNDWS704
Wind speed and direction at WS7MET, probe no. 04 at height 150 cm (discontinued 27 Jan 2008)
AIRWS701
Air temperature at WS7MET, probe no. 01 at height 450 cm on tower
AIRWS702
Air temperature at WS7MET, probe no. 02 at height 350 cm on tower
AIRWS703
Air temperature at WS7MET, probe no. 03 at height 250 cm on tower
AIRWS704
Air temperature at WS7MET, probe no. 04 at height 150 cm on tower
AIRWS708
Air temperature at WS7MET, probe no. 08 at height 350 cm on tower with aspirated shield
RELWS701
Relative humidity at WS7MET, probe no. 01 at height 450 cm
RELWS704
Relative humidity at WS7MET, probe no. 01 at height 150 cm
DEWWS701
Dew point temperature at WS7MET, probe no. 01 at height 450 cm on tower, calculated
DEWWS704
Dew point temperature at WS7MET, probe no. 04 at height 150 cm on tower, calculated
VPDWS701
Water vapor pressure deficit at WS7MET, probe no. 01 at height 450 cm on tower, calculated
VPDWS704
Water vapor pressure deficit at WS7MET, probe no. 04 at height 150 cm on tower, calculated
SNOWS701
Snow depth at WS7MET, probe no. 01, snow depth sensor at south site
SNOWS702
Snow depth at WS7MET, probe no. 02, snow depth sensor at west site (discontinued 14 May 2007)
WNDUPL02
Wind speed and direction using sonic anemometer at UPLMET, probe no. 02 at height 1000 cm
AIRCS205
Air temperature at CS2MET, probe no. 05 at height 150 cm

DATE - datetime (dateTime)

ID: MS00108.DATE

Date of measurement

Type system: Microsoft SQL Server 2019

Date format: YYYY-MM-DD

VPD_MEAN_DAY - numeric(5,1) (ratio)

ID: MS00108.VPD_MEAN_DAY

Mean vapor pressure deficit for day

Type system: Microsoft SQL Server 2019

Unit: millibars

Precision: 0.100000

Numeric domain: type=real, min=0.0000 (exclusive=false), max=33.8000 (exclusive=false)

VPD_MEAN_FLAG - char(1) (nominal)

ID: MS00108.VPD_MEAN_FLAG

Mean vapor pressure deficit flag

Type system: Microsoft SQL Server 2019

Code definitions (6)

E
Estimated value
M
Missing
Q
Questionable
A
Accepted value has passed all QC tests applied as represented by the quality level
B
Sensor buried in snow
P
Fire effects are visible in the data

VPD_MAX_DAY - numeric(5,1) (ratio)

ID: MS00108.VPD_MAX_DAY

Maximum vapor pressure deficit for the day

Type system: Microsoft SQL Server 2019

Unit: millibars

Precision: 0.100000

Numeric domain: type=real, min=0.0000 (exclusive=false), max=80.0000 (exclusive=false)

VPD_MAX_FLAG - char(1) (nominal)

ID: MS00108.VPD_MAX_FLAG

Maximum vapor pressure deficit flag

Type system: Microsoft SQL Server 2019

Code definitions (8)

E
Estimated value
M
Missing
Q
Questionable
A
Accepted value has passed all QC tests applied as represented by the quality level
B
Sensor buried in snow
F
Daily value based on the maximum 15 minute mean value
H
Daily value based on the maximum hourly mean value
P
Fire effects are visible in the data

VPD_MAXTIME - char(4) (ordinal)

ID: MS00108.VPD_MAXTIME

Time of day (HHMM) in Pacific Standard Time (PST) of maximum vapor pressure deficit

Type system: Microsoft SQL Server 2019

VPD_MIN_DAY - numeric(5,1) (ratio)

ID: MS00108.VPD_MIN_DAY

Minimum vapor pressure deficit for the day

Type system: Microsoft SQL Server 2019

Unit: millibars

Precision: 0.100000

Numeric domain: type=real, min=0.0000 (exclusive=false), max=21.6000 (exclusive=false)

VPD_MIN_FLAG - char(1) (nominal)

ID: MS00108.VPD_MIN_FLAG

Minimum vapor pressure deficit flag

Type system: Microsoft SQL Server 2019

Code definitions (8)

E
Estimated value
M
Missing
Q
Questionable
A
Accepted value has passed all QC tests applied as represented by the quality level
B
Sensor buried in snow
F
Daily value based on the minimum 15 minute mean value
H
Daily value based on the minimum hourly mean value
P
Fire effects are visible in the data

VPD_MINTIME - char(4) (ordinal)

ID: MS00108.VPD_MINTIME

Time of day (HHMM) in Pacific Standard Time (PST) of minimum vapor pressure deficit

Type system: Microsoft SQL Server 2019

VAP_MEAN_DAY - numeric(5,1) (ratio)

ID: MS00108.VAP_MEAN_DAY

Mean vapor pressure for day

Type system: Microsoft SQL Server 2019

Unit: millibars

Precision: 0.100000

Numeric domain: type=real, min=0.8000 (exclusive=false), max=24.1000 (exclusive=false)

VAP_MEAN_FLAG - char(1) (nominal)

ID: MS00108.VAP_MEAN_FLAG

Mean vapor pressure flag

Type system: Microsoft SQL Server 2019

Code definitions (6)

A
Accepted value has passed all QC tests applied as represented by the quality level
E
Estimated value
M
Missing
Q
Questionable
B
Sensor buried in snow
P
Fire effects are visible in the data

VAP_MAX_DAY - numeric(5,1) (ratio)

ID: MS00108.VAP_MAX_DAY

Maximum vapor pressure for day

Type system: Microsoft SQL Server 2019

Unit: millibars

Precision: 0.100000

Numeric domain: type=real, min=2.3000 (exclusive=false), max=31.2000 (exclusive=false)

VAP_MAX_FLAG - char(1) (nominal)

ID: MS00108.VAP_MAX_FLAG

Maximum vapor pressure flag

Type system: Microsoft SQL Server 2019

Code definitions (6)

A
Accepted value has passed all QC tests applied as represented by the quality level
E
Esimated value
M
Missing
Q
Questionable
H
Daily value based on the maximum hourly mean value
P
Fire effects are visible in the data

VAP_MIN_DAY - numeric(5,1) (ratio)

ID: MS00108.VAP_MIN_DAY

Minimum vapor pressure for day

Type system: Microsoft SQL Server 2019

Unit: millibars

Precision: 0.100000

Numeric domain: type=real, min=0.4000 (exclusive=false), max=20.8000 (exclusive=false)

VAP_MIN_FLAG - char(1) (nominal)

ID: MS00108.VAP_MIN_FLAG

Minimum vapor pressure flag

Type system: Microsoft SQL Server 2019

Code definitions (6)

A
Accepted value has passed all QC tests applied as represented by the quality level
E
Estimated value
M
Missing
Q
Questionable
H
Daily value based on the minimum hourly mean value
P
Fire effects are visible in the data

EVENT_CODE - char(6) (nominal)

ID: MS00108.EVENT_CODE

Any event, disruption in protocol, or unusual conditions that occur at the given date or time and may have an effect on the data values; contact information manager for access to specific details from the field 'Notes' database

Type system: Microsoft SQL Server 2019

Code definitions (11)

INSREM
Sensor is installed or removed
LOGGER
Change in data logger, data logger program, or wiring
METHOD
Change in data collection method
NA
No event is reported (not applicable)
QUALTY
Event may directly affect data quality (individual activities tracked in field notes database)
MAINTE
A maintenance event has occurred
INTPRO
Internal processing may produce an anomalous reading
WEATHR
A weather event has occurred that may affect reading
CALIBR
Associated with the inspection or replacement of sensors for calibration
CLEARD
Site clearing of trees and brush around the meteorological station is being conducted
BURNED
Burning, including cleared trees and brush or wildfire, around the meteorological station or within the watershed (code begins at event initiation)

MS00111 - Air temperature (fine temporal resolution)

Object name: MS00111_v9.txt

Records: 47644949

Attributes: 11

Temporal coverage: 1972-05-10 to 2024-10-01

File size: 3683757270 byte

Checksum (MD5): 37faca05de2064782080961b953315e4

Format: headers=1, recordDelimiter=\r\n, fieldDelimiter=,, quoteCharacter=", orientation=column

Constraints (2)

primaryKey: PRIMARY
MS00111.DATE_TIME, MS00111.PROBE_CODE, MS00111.SITECODE
notNullConstraint: NOTNULL
MS00111.DATE_TIME, MS00111.ENTITY, MS00111.AIRTEMP_MEAN_FLAG, MS00111.PROBE_CODE, MS00111.DBCODE, MS00111.SITECODE, MS00111.HEIGHT, MS00111.EVENT_CODE, MS00111.QC_LEVEL, MS00111.AIRTEMP_METHOD

Attributes (11)

DBCODE - char(5) (nominal)

ID: MS00111.DBCODE

FSDB database code

Type system: Microsoft SQL Server 2019

Code definitions (1)

MS001
FSDB Database Code

ENTITY - numeric(2,0) (interval)

ID: MS00111.ENTITY

Entity number

Type system: Microsoft SQL Server 2019

Unit: number

Precision: 1.000000

Numeric domain: type=natural, min=11.0000 (exclusive=false), max=11.0000 (exclusive=false)

SITECODE - char(6) (nominal)

ID: MS00111.SITECODE

Site code for the meteorological measurement station

Type system: Microsoft SQL Server 2019

Code definitions (8)

CENMET
Central Meteorological Station
PRIMET
Primary Meteorological Station
UPLMET
Upper Lookout Meteorological Station
VANMET
Vanilla Leaf Meteorological Station
CS2MET
Climatic Station at Watershed 2
H15MET
High 15 Meteorological Station
VARMET
Vanilla Leaf Meadow Meteorological Station
WS7MET
Watershed 7 Meteorological Station

AIRTEMP_METHOD - char(6) (nominal)

ID: MS00111.AIRTEMP_METHOD

An indication of the the general methodology and instrumentation used to collect this air temperature data

Type system: Microsoft SQL Server 2019

Code definitions (125)

AIR005
Air temperature is sampled by a thermistor housed in a standard cotton region shelter at 150 cm height and continuously recorded on a separate 30-day Rustrak strip chart; mean temperature is output every 60 minutes
AIR006
Air temperature is sampled by a Yellow Springs Instrument Company linear thermistor (YSI44018) housed in a standard cotton region shelter at 150 cm height; mean temperature is output every 60 minutes
AIR007
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a standard cotton region shelter at 150 cm height; mean temperature is output every 60 minutes
AIR008
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a standard cotton region shelter at 150 cm height; mean temperature is output every 15 minutes
AIR009
Air temperature is sampled by a Campbell Scientific model HMP35C probe housed in a standard cotton region shelter at 150 cm height; mean temperature is output every 15 minutes
AIR010
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 50 cm height; mean temperature is output every 60 minutes
AIR011
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 150 cm height; mean temperature is output every 60 minutes
AIR012
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 450 cm height; mean temperature is output every 60 minutes
AIR013
Air temperature is sampled by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 480 cm height; mean temperature is output every 60 minutes
AIR014
Air temperature is sampled by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 150 cm height; mean temperature is output every 60 minutes
AIR015
Air temperature is sampled by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 450 cm height; mean temperature is output every 60 minutes
AIR016
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a locally designed PVC radiation shield at 150 cm height; mean temperature is output every 60 minutes
AIR017
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a locally designed PVC radiation shield at 450 cm height; mean temperature is output every 60 minutes
AIR018
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean temperature is output every 60 minutes
AIR019
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean temperature is output every 60 minutes
AIR020
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 50 cm height; mean temperature is output every 15 minutes
AIR021
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 150 cm height; mean temperature is output every 15 minutes
AIR022
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 250 cm height; mean temperature is output every 15 minutes
AIR023
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 350 cm height; mean temperature is output every 15 minutes
AIR024
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 450 cm height; mean temperature is output every 15 minutes
AIR025
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 150 cm height; mean temperature is output every 15 minutes
AIR026
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 250 cm height; mean temperature is output every 15 minutes
AIR027
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 350 cm height; mean temperature is output every 15 minutes
AIR028
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 450 cm height; mean temperature is output every 15 minutes
AIR029
Air temperature is sampled by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 150 cm height; mean temperature is output every 15 minutes
AIR030
Air temperature is sampled by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 450 cm height; mean temperature is output every 15 minutes
AIR031
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a locally designed PVC radiation shield at 150 cm height; mean temperature is output every 15 minutes
AIR032
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a locally designed PVC radiation shield at 450 cm height; mean temperature is output every 15 minutes
AIR033
Air temperature is sampled by a Campbell Scientific model HMP35C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean temperature is output every 15 minutes
AIR034
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean temperature is output every 15 minutes
AIR035
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean temperature is output every 15 minutes
AIR036
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Model 43502 compact aspirated shield at 150 cm height; mean temperature is output every 15 minutes
AIR038
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Model 43502 compact aspirated shield at 350 cm height; mean temperature is output every 15 minutes
AIR041
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Model 43502 compact aspirated shield at 150 cm height; mean temperature is output every 5 minutes
AIR042
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Model 43502 compact aspirated shield at 250 cm height; mean temperature is output every 5 minutes
AIR043
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Model 43502 compact aspirated shield at 350 cm height; mean temperature is output every 5 minutes
AIR044
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Model 43502 compact aspirated shield at 450 cm height; mean temperature is output every 5 minutes
AIR101
Mean daily air temperature is calculated as average of max and min readings. Temperature is recorded on a Cole Parmer hygrothermograph chart at 130 cm height in cotton shelter; daily chart readings are adjusted weekly using a Belfort Max-Min Thermometer
AIR102
Mean daily air temperature is calculated as the average of max and min readings. Temperature is recorded on a Belfort hygrothermograph chart at 130 cm height in cotton shelter; daily chart readings are adjusted weekly using a Belfort Max-Min Thermometer
AIR103
Mean daily air temperature is calculated by the Campbell Scientific datalogger and output on a sunrise to sunrise basis. Max-min values are based on instantaneous 15 second readings. CS Model 107; PVC radiation shield; 450 cm height
AIR104
Mean daily air temperature is calculated by the Campbell Scientific datalogger and output on a sunrise to sunrise basis. Max-min values are based on instantaneous 15 second readings. CS Model 107; PVC radiation shield; 50 cm height
AIR205
Mean daily air temperature is calculated from hourly chart readings. Min-max values are based on hourly mean values. 30-day Rustrak strip chart thermistor housed in a standard cotton region shelter at 150 cm height (See method AIR005)
AIR206
Mean daily air temperature is calculated from hourly thermistor readings. Min-max values are based on hourly mean values. Yellow Springs Instrument Company linear thermistor housed in a standard cotton region shelter at 150 cm ht (See method AIR006)
AIR107
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; cotton region shelter; 150 cm height (See method AIR007)
AIR108
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; cotton region shelter; 150 cm height (See method AIR008)
AIR109
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP35C; cotton region shelter; 150 cm height (See method AIR009)
AIR110
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; PVC radiation shield; 50 cm height (See method AIR010)
AIR111
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; PVC radiation shield; 150 cm height (See method AIR011)
AIR112
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; PVC radiation shield; 450 cm height (See method AIR012)
AIR113
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP35C; PVC radiation shield; 480 cm height (See method AIR013)
AIR114
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP35C; PVC radiation shield; 150 cm height (See method AIR014)
AIR115
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP35C; PVC radiation shield; 450 cm height (See method AIR015)
AIR116
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; PVC radiation shield; 150 cm height (See method AIR016)
AIR117
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; PVC radiation shield; 450 cm height (See method AIR017)
AIR118
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 150 cm height (See method AIR018)
AIR119
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 450 cm height (See method AIR019)
AIR120
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; PVC radiation shield; 50 cm height (See method AIR020)
AIR121
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; PVC radiation shield; 150 cm height (See method AIR021)
AIR122
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; PVC radiation shield; 250 cm height (See method AIR022)
AIR123
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; PVC radiation shield; 350 cm height (See method AIR023)
AIR124
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; PVC radiation shield; 450 cm height (See method AIR024)
AIR125
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; R.M. Young Gill radiation shield; 150 cm height (See method AIR025)
AIR126
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; R.M. Young Gill radiation shield; 250 cm height (See method AIR026)
AIR226
Mean daily air temperature is post-calculated from all 15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. CS Model 107; R.M. Young Gill radiation shield; 250 cm height (See method AIR026)
AIR326
Mean daily air temperature is post-calculated from all 15 minute mean values for the day. Max-min values are based on instantaneous 15 second readings. CS Model 107; R.M. Young Gill radiation shield; 250 cm height (See method AIR026)
AIR127
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; R.M. Young Gill radiation shield; 350 cm height (See method AIR027)
AIR227
Mean daily air temperature is post-calculated from all 15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. CS Model 107; R.M. Young Gill radiation shield; 350 cm height (See method AIR027)
AIR327
Mean daily air temperature is post-calculated from all 15 minute mean values for the day. Max-min values are based on instantaneous 15 second readings. CS Model 107; R.M. Young Gill radiation shield; 350 cm height (See method AIR027)
AIR128
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; R.M. Young Gill radiation shield; 450 cm height (See method AIR028)
AIR129
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP35C; PVC radiation shield; 150 cm height (See method AIR029)
AIR130
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP35C; PVC radiation shield; 450 cm height (See method AIR030)
AIR131
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; PVC radiation shield; 150 cm height (See method AIR031)
AIR132
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; PVC radiation shield; 450 cm height (See method AIR032)
AIR133
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP35C; R.M. Young Gill radiation shield; 450 cm height (See method AIR033)
AIR134
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 150 cm height (See method AIR034)
AIR135
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 450 cm height (See method AIR035)
AIR136
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; aspirated shield; 150 cm height (See method AIR036)
AIR236
Mean daily air temperature is post-calculated from all 15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. CS Model 107; aspirated shield; 150 cm height (See method AIR036)
AIR138
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model 107; aspirated shield; 350 cm height (See method AIR038)
AIR238
Mean daily air temperature is post-calculated from all 15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. CS Model 107; aspirated shield; 350 cm height (See method AIR038)
AIR234
Mean daily air temperature is post-calculated from all 15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 150 cm height (See method AIR034)
AIR334
Mean daily air temperature is post-calculated from all 15 minute mean values for the day. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 150 cm height (See method AIR034)
AIR235
Mean daily air temperature is post-calculated from all 15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 450 cm height (See method AIR035)
AIR335
Mean daily air temperature is post-calculated from all 15 minute mean values for the day. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 450 cm height (See method AIR035)
AIR241
Mean daily air temperature is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. CS Model 107; aspirated shield; 150 cm height (See method AIR041)
AIR242
Mean daily air temperature is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. CS Model 107; aspirated shield; 250 cm height (See method AIR042)
AIR243
Mean daily air temperature is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. CS Model 107; aspirated shield; 350 cm height (See method AIR043)
AIR244
Mean daily air temperature is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. CS Model 107; aspirated shield; 450 cm height (See method AIR044)
AIR228
Mean daily air temperature is post-calculated from all 15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. CS Model 107; R.M. Young Gill radiation shield; 450 cm height (See method AIR028)
AIR045
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean temperature is output every 5 minutes
AIR046
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 250 cm height; mean temperature is output every 5 minutes
AIR047
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 350 cm height; mean temperature is output every 5 minutes
AIR048
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean temperature is output every 5 minutes
AIR245
Mean daily air temperature is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. HMP45C probe; Gill radiation shield; 150 cm height (See method AIR045)
AIR246
Mean daily air temperature is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. CS Model 107; Gill radiation shield; 250 cm height (See method AIR046)
AIR247
Mean daily air temperature is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. CS Model 107; Gill radiation shield; 350 cm height (See method AIR047)
AIR248
Mean daily air temperature is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. HMP45C probe; Gill radiation shield; 450 cm height (See method AIR048)
AIR051
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean, min and max temperature is output every 5 minutes
AIR052
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 350 cm height; mean, min and max temperature is output every 5 minutes
AIR053
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 250 cm height; mean, min and max temperature is output every 5 minutes
AIR054
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean, min and max temperature is output every 5 minutes
AIR056
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Model 43502 compact aspirated shield at 150 cm height; mean, min and max temperature is output every 5 minutes
AIR057
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Model 43502 compact aspirated shield at 250 cm height; mean, min and max temperature is output every 5 minutes
AIR058
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Model 43502 compact aspirated shield at 350 cm height; mean, min and max temperature is output every 5 minutes
AIR059
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Model 43502 compact aspirated shield at 450 cm height; mean, min and max temperature is output every 5 minutes
AIR050
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 450 cm height; mean, min an max temperature is output every 5 minutes
AIR060
Air temperature is sampled by a Campbell Scientific model HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean, min and max temperature is output every 5 minutes
AIR151
Mean daily air temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. Model HMP45C; R.M. Young Gill radiation shield; 450 cm ht (See method AIR051)
AIR152
Mean daily air temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. CS Model 107; R.M. Young Gill radiation shield; 350 cm ht (See method AIR052)
AIR153
Mean daily air temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. CS Model 107; R.M. Young Gill radiation shield; 250 cm ht (See method AIR053)
AIR154
Mean daily air temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. Model HMP45C; R.M. Young Gill radiation shield; 150 cm ht (See method AIR054)
AIR156
Mean daily air temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. CS Model 107; R.M. Young 43502 aspirated shield; 150 cm ht (See method AIR056)
AIR157
Mean daily air temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. CS Model 107; R.M. Young 43502 aspirated shield; 250 cm ht (See method AIR057)
AIR158
Mean daily air temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. CS Model 107; R.M. Young 43502 aspirated shield; 350 cm ht (See method AIR058)
AIR159
Mean daily air temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. CS Model 107; R.M. Young 43502 aspirated shield; 450 cm ht (See method AIR059)
AIR160
Mean daily air temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. CS Model HC2S3-L; RM Young Gill radiation shield; 150 cm ht (See method AIR060)
AIR150
Mean daily air temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. CS Model 107; R.M. Young Gill radiation shield; 450 cm ht (See method AIR050)
AIR061
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean temperature is output every 10 minutes
AIR062
Air temperature is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean temperature is output every 10 minutes
AIR161
Mean daily air temperature is post-calculated from all 10 minute mean values for the day. Max-min values are based on 10 minute mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 450 cm ht (See method AIR061)
AIR162
Mean daily air temperature is post-calculated from all 10 minute mean values for the day. Max-min values are based on 10 minute mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 150 cm ht (See method AIR062)
AIR064
Air temperature is sampled by a Campbell Scientific (CS) CR1000 data logger and CS 107 thermistor housed in a R.M. Young Gill radiation shield at 150 cm height; sampling rate 10 seconds; 5-minute output is the minimum, mean, and maximum of 30 samples.
AIR164
Air temperature is sampled by a Campbell Scientific (CS) CR1000 data logger and CS model 107 thermistor housed in a R.M. Young Gill radiation shield at 150 cm height; sampling rate is 10 seconds; 5-minute output is the minimum, mean, and maximum of 30 samples. Daily mean minimum, mean, and maximum are post-calculated from 5-minute output.
AIR065
Air temperature is sampled by a Campbell Scientific (CS) CR1000 data logger and CS HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; sampling rate 10 seconds; 5-minute output is the minimum, mean, and maximum of 30 samples.
AIR165
Air temperature is sampled by a Campbell Scientific (CS) CR1000 data logger and CS HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; sampling rate 10 seconds; 5-minute output is the minimum, mean, and maximum of 30 samples. Daily mean minimum, mean, and maximum are post-calculated from 5-minute output.

HEIGHT - numeric(4,0) (ratio)

ID: MS00111.HEIGHT

Height of sensor from ground surface

Type system: Microsoft SQL Server 2019

Unit: centimeters

Precision: 1.000000

Numeric domain: type=whole, min=50.0000 (exclusive=false), max=480.0000 (exclusive=false)

QC_LEVEL - char(2) (nominal)

ID: MS00111.QC_LEVEL

Quality control flag indicates level of quality checking performed including an indication of "provisional" data.

Type system: Microsoft SQL Server 2019

Code definitions (5)

1P
Data is provisional and subject to revision - preliminary quality checks have been performed
1A
Data is published and unlikely to change - automated range checking and manual review has been conducted. Quality is indicated in data value qualifier flags.
2A
Data is published and unlikely to change - Level 1A data has been modified such that data gaps may be filled or problem data may be removed
2D
Data is published and unlikely to change - data is derived or aggregated from published data of level 2A
1D
Data is published and unlikely to change - data is derived or aggregated from published data of level 1A

PROBE_CODE - char(8) (nominal)

ID: MS00111.PROBE_CODE

Probe number code indicates the measurement type, site, and sensor number (e.g., AIRPRI01)

Type system: Microsoft SQL Server 2019

Code definitions (194)

AIRCEN01
Air temperature at CENMET, probe no. 01 at height 450 cm on tower
AIRCEN02
Air temperature at CENMET, probe no. 02 at height 350 cm on tower (450 cm from 4 Nov 2002 to 24 Sep 2007)
AIRCEN03
Air temperature at CENMET, probe no. 03 at height 250 cm on tower (150 cm from 31 Oct 2002 to 24 Sep 2007)
AIRCEN04
Air temperature at CENMET, probe no. 04 at height 150 cm on tower
AIRCS201
Air temperature at CS2MET, probe no. 01 at height 130 cm in cotton shelter; daily min-max hygrothermograph charts; discontinued 1999
AIRCS202
Air temperature at CS2MET, probe no. 02 at height 150 cm
AIRH1501
Air temperature at H15MET, probe no. 01 at height 450 cm
AIRH1502
Air temperature at H15MET, probe no. 02 at height 150 cm
AIRPRI01
Air temperature at PRIMET, probe no. 01 at height 450 cm on tower
AIRPRI02
Air temperature at PRIMET, probe no. 02 at height 350 cm on tower (450 cm from 24 Sep 2002 to 30 Apr 2007)
AIRPRI03
Air temperature at PRIMET, probe no. 03 at height 250 cm on tower (150 cm from 24 Sep 2002 to 6 Jul 2003; 24 Jun 2004 to 30 Apr 2007)
AIRPRI04
Air temperature at PRIMET, probe no. 04 at height 150 cm on tower
AIRPRI05
Air temperature at PRIMET, probe no. 05 at height 150 cm in cotton region shelter; discontinued 14 June 2004
AIRUPL01
Air temperature at UPLMET, probe no. 01 at height 450 cm on tower
AIRUPL02
Air temperature at UPLMET, probe no. 02 at height 350 cm on tower (450 cm from 28 Jun 2004 to 16 Jul 2007)
AIRUPL03
Air temperature at UPLMET, probe no. 03 at height 250 cm on tower (350 cm 21 Oct 2002 - 22 Jul 2004; 150 cm 22 Jul 2004 - 16 Jul 2007)
AIRUPL04
Air temperature at UPLMET, probe no. 04 at height 150 cm on tower (450 cm from 24 Oct 2002 to 18 Jun 2004)
AIRVAN01
Air temperature at VANMET, probe no. 01 at height 450 cm on tower
AIRVAN02
Air temperature at VANMET, probe no. 02 at height 350 cm on tower (450 cm from 16 Jun 2004 to 25 Jul 2007)
AIRVAN03
Air temperature at VANMET, probe no. 03 at height 150 cm on tower (350 cm 17 Oct 2002 - 16 Jun 2004; 150 cm 16 Jun 2004 - 25 Jul 2007)
AIRVAN04
Air temperature at VANMET, probe no. 04 at height 150 cm on tower (450 cm from 17 Oct 2002 to 16 Jun 2004)
AIRVAN05
Air temperature at VANMET, probe no. 05 at height 50 cm; discontinued 5 Oct 1995
DEWCEN01
Dew point temperature at CENMET, probe no. 01 at height 450 cm on tower, calculated
DEWCEN04
Dew point temperature at CENMET, probe no. 04 at height 150 cm on tower, calculated
DEWCS202
Dew point temperature at CS2MET, probe no. 02 at height 150 cm on tower, calculated; begins 14 Apr 1998
DEWH1501
Dew point temperature at H15MET, probe no. 01 at height 450 cm on tower, calculated
DEWH1502
Dew point temperature at H15MET, probe no. 02 at height 150 cm on tower, calculated
DEWPRI01
Dew point temperature at PRIMET, probe no. 01 at height 450 cm on tower, calculated
DEWPRI04
Dew point temperature at PRIMET, probe no. 04 at height 150 cm on tower, calculated
DEWPRI05
Dew point temperature at PRIMET, probe no. 05 at height 150 cm in shelter, calculated; direct measurement before Jul 1988; discontinued 2000
DEWUPL01
Dew point temperature at UPLMET, probe no. 01 at height 450 cm on tower, calculated
DEWUPL04
Dew point temperature at UPLMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 24 Oct 2002 to 18 Jun 2004)
DEWVAN01
Dew point temperature at VANMET, probe no. 01 at height 450 cm on tower, calculated
DEWVAN04
Dew point temperature at VANMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 17 Oct 2002 to 16 Jun 2004)
VPDCEN01
Water vapor pressure deficit at CENMET, probe no. 01 at height 450 cm on tower, calculated
VPDCEN04
Water vapor pressure deficit at CENMET, probe no. 04 at height 150 cm on tower, calculated
VPDCS202
Water vapor pressure deficit at CS2MET, probe no. 02 at height 150 cm on tower, calculated; begins 14 Apr 1998
VPDH1501
Water vapor pressure deficit at H15MET, probe no. 01 at height 450 cm on tower, calculated
VPDH1502
Water vapor pressure deficit at H15MET, probe no. 02 at height 150 cm on tower, calculated
VPDPRI01
Water vapor pressure deficit at PRIMET, probe no. 01 at height 450 cm on tower, calculated
VPDPRI04
Water vapor pressure deficit at PRIMET, probe no. 04 at height 150 cm on tower, calculated
VPDPRI05
Water vapor pressure deficit at PRIMET, probe no. 05 at height 150 cm in cotton region shelter, calculated; discontinued May 2000
VPDUPL01
Water vapor pressure deficit at UPLMET, probe no. 01 at height 450 cm on tower, calculated
VPDUPL04
Water vapor pressure deficit at UPLMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 24 Oct 2002 to 18 Jun 2004)
VPDVAN01
Water vapor pressure deficit at VANMET, probe no. 01 at height 450 cm on tower, calculated
VPDVAN04
Water vapor pressure deficit at VANMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 17 Oct 2002 to 16 Jun 2004)
LYSCEN01
Snow lysimeter at CENMET, probe no. 01
LYSH1501
Snow lysimeter at H15MET, probe no. 01
LYSUPL01
Snow lysimeter at UPLMET, probe no. 01
PARCEN01
Photosynthetically active radiation (PAR) at CENMET, probe no. 1 at height 627 cm
PPTCEN01
Precipitation at CENMET, probe no. 01, stand-alone model
PPTCEN02
Precipitation at CENMET, probe no. 02, shelter-top model
PPTCS201
Precipitation at CS2MET, probe no. 01; Universal rain gauge chart; backup record not digitized beyond 2012
PPTH1501
Precipitation at H15MET, probe no. 01 at height 410 cm prorated to adjacent standard raingage, discontinued 1992
PPTH1502
Precipitation at H15MET, probe no. 02 at height 410 cm
PPTPRI01
Precipitation at PRIMET, probe no. 01 at height 100 cm
PPTPRI02
Precipitation at PRIMET, probe no. 02, stand-alone model; inconsistencies prevent sharing this data; discontinued 2010
PPTUPL01
Precipitation at UPLMET, probe no. 01 at height 457 cm, stand-alone model
PPTUPL02
Precipitation at UPLMET, probe no. 02 at height 627 cm, shelter-top model
PPTVAN01
Precipitation at VANMET, probe no. 01 at height 305 cm, shelter-top model; record ends Feb 1996; discontinued Sep 2001
PPTVAR02
Precipitation at VARMET, probe no. 02, stand-alone model in meadow
RELCEN01
Relative humidity at CENMET, probe no. 01 at height 450 cm
RELCEN04
Relative humidity at CENMET, probe no. 04 at height 150 cm
RELCS201
Relative humidity at CS2MET, probe no. 01 at height 130 cm in cotton shelter; daily min-max hygrothermograph charts; discontinued 1999
RELCS202
Relative humidity at CS2MET, probe no. 02 at height 150 cm
RELH1501
Relative humidity at H15MET, probe no. 01 at height 450 cm
RELH1502
Relative humidity at H15MET, probe no. 02 at height 150 cm
RELPRI01
Relative humidity at PRIMET, probe no. 01 at height 450 cm
RELPRI04
Relative humidity at PRIMET, probe no. 04 at height 150 cm
RELPRI05
Relative humidity at PRIMET, probe no. 05 at height 150 cm in cotton region shelter; discontinued 30 May 2000
RELUPL01
Relative humidity at UPLMET, probe no. 01 at height 450 cm
RELUPL04
Relative humidity at UPLMET, probe no. 04 at height 150 cm (450 cm from 24 Oct 2002 to 18 Jun 2004)
RELVAN01
Relative humidity at VANMET, probe no. 01 at height 450 cm; originally probe was repositioned at 150 cm in summer
RELVAN04
Relative humidity at VANMET, probe no. 04 at height 150 cm (450 cm from 17 Oct 2002 to 16 Jun 2004)
SWCPRI01
Soil water content at PRIMET, probe no. 01 at depth 10 cm
SWCPRI02
Soil water content at PRIMET, probe no. 02 at depth 20 cm
SWCPRI03
Soil water content at PRIMET, probe no. 03 at depth 50 cm
SWCPRI04
Soil water content at PRIMET, probe no. 04 at depth 100 cm
SWCCEN01
Soil water content at CENMET, probe no. 01 at depth 10 cm
SWCCEN02
Soil water content at CENMET, probe no. 02 at depth 20 cm
SWCCEN03
Soil water content at CENMET, probe no. 03 at depth 50 cm
SWCCEN04
Soil water content at CENMET, probe no. 04 at depth 100 cm
SWCUPL01
Soil water content at UPLMET, probe no. 01 at depth 10 cm
SWCUPL02
Soil water content at UPLMET, probe no. 02 at depth 20 cm
SWCUPL03
Soil water content at UPLMET, probe no. 03 at depth 50 cm
SWCUPL04
Soil water content at UPLMET, probe no. 04 at depth 100 cm
SWCVAN01
Soil water content at VANMET, probe no. 01 at depth 10 cm
SWCVAN02
Soil water content at VANMET, probe no. 02 at depth 20 cm
SWCVAN03
Soil water content at VANMET, probe no. 03 at depth 50 cm
SWCVAN04
Soil water content at VANMET, probe no. 04 at depth 100 cm
SMPCEN01
Soil moisture potential at CENMET, probe no. 01 at depth 10 cm; discontinued 13 Nov 2002
SMPCEN02
Soil moisture potential at CENMET, probe no. 02 at depth 20 cm; discontinued 13 Nov 2002
SMPCEN03
Soil moisture potential at CENMET, probe no. 03 at depth 50 cm; discontinued 13 Nov 2002
SMPCEN04
Soil moisture potential at CENMET, probe no. 04 at depth 100 cm; discontinued 13 Nov 2002
SMPPRI01
Soil moisture potential at PRIMET, probe no. 01 at depth 10 cm; discontinued 23 May 2000
SMPPRI02
Soil moisture potential at PRIMET, probe no. 02 at depth 20 cm; discontinued 23 May 2000
SMPPRI03
Soil moisture potential at PRIMET, probe no. 03 at depth 50 cm; discontinued 23 May 2000
SMPPRI04
Soil moisture potential at PRIMET, probe no. 04 at depth 100 cm; discontinued 23 May 2000
SMPUPL01
Soil moisture potential at UPLMET, probe no. 01 at depth 10 cm; discontinued 18 Oct 2001
SMPUPL02
Soil moisture potential at UPLMET, probe no. 02 at depth 20 cm; discontinued 18 Oct 2001
SMPUPL03
Soil moisture potential at UPLMET, probe no. 03 at depth 50 cm; discontinued 18 Oct 2001
SMPUPL04
Soil moisture potential at UPLMET, probe no. 04 at depth 100 cm; discontinued 18 Oct 2001
SMPVAN01
Soil moisture potential at VANMET, probe no. 01 at depth 10 cm; discontinued 9 Sep 2001
SMPVAN02
Soil moisture potential at VANMET, probe no. 02 at depth 20 cm; discontinued 9 Sep 2001
SMPVAN03
Soil moisture potential at VANMET, probe no. 03 at depth 50 cm; discontinued 9 Sep 2001
SMPVAN04
Soil moisture potential at VANMET, probe no. 04 at depth 100 cm; discontinued 9 Sep 2001
SMPVAN05
Soil moisture potential at VANMET, probe no. 05 at depth 30 cm; discontinued 9 Sep 2001
SNOCEN01
Snow water equivalence and depth at CENMET, probe no. 01, snow pillow with snow depth sensor
SNOCEN02
Snow water equivalence and depth at CENMET, probe no. 02, snow depth and calculated snow water around snow pillow
SNOCEN03
Snow water equivalence and depth at CENMET, probe no. 03, average snow course measurement along transect near the station
SNOPRI01
Snow water equivalence and depth at PRIMET, probe no. 01, snow pillow with snow depth sensor
SNOUPL01
Snow water equivalence and depth at UPLMET, probe no. 01, snow pillow with snow depth sensor
SNOUPL02
Snow water equivalence and depth at UPLMET, probe no. 02, snow depth and calculated snow water around snow pillow
SNOUPL03
Snow water equivalence and depth at UPLMET, probe no. 03, average snow course measurement along transect near the station
SNOVAN01
Snow water equivalence and depth at VANMET, probe no. 01, snow pillow with snow depth sensor
SNOVAN02
Snow water equivalence and depth at VANMET, probe no. 02, snow depth and calculated snow water around snow pillow in clearcut
SNOVAN03
Snow moisture and depth at VANMET, probe no. 03, average snow course measurement along transect near the station in the clearcut
SOICEN01
Soil temperature at CENMET, probe no. 01 at depth10 cm
SOICEN02
Soil temperature at CENMET, probe no. 02 at depth 20 cm
SOICEN03
Soil temperature at CENMET, probe no. 03 at depth 50 cm
SOICEN04
Soil temperature at CENMET, probe no. 04 at depth 100 cm
SOIPRI01
Soil temperature at PRIMET, probe no. 01 at depth 10 cm
SOIPRI02
Soil temperature at PRIMET, probe no. 02 at depth 20 cm
SOIPRI03
Soil temperature at PRIMET, probe no. 03 at depth 50 cm
SOIPRI04
Soil temperature at PRIMET, probe no. 04 at depth 100 cm
SOIUPL01
Soil temperature at UPLMET, probe no. 01 at depth 10 cm
SOIUPL02
Soil temperature at UPLMET, probe no. 02 at depth 20 cm
SOIUPL03
Soil temperature at UPLMET, probe no. 03 at depth 50 cm
SOIUPL04
Soil temperature at UPLMET, probe no. 04 at depth 100 cm
SOIVAN01
Soil temperature at VANMET, probe no. 01 at depth 10 cm; discontinued 29 July 2007
SOIVAN02
Soil temperature at VANMET, probe no. 02 at depth 20 cm; discontinued 29 July 2007
SOIVAN03
Soil temperature at VANMET, probe no. 03 at depth 50 cm; discontinued 29 July 2007
SOIVAN04
Soil temperature at VANMET, probe no. 04 at depth 100 cm; discontinued 29 July 2007
SOIVAN05
Soil temperature at VANMET, probe no. 05 at depth 30 cm; discontinued 13 July 1994
SWICEN01
Shortwave incoming solar radiation at CENMET, probe no. 01 at height 625 cm
SWIPRI01
Shortwave incoming solar radiation at PRIMET, probe no. 01 at height 100 cm
SWIUPL01
Shortwave incoming solar radiation at UPLMET, probe no. 01 at height 615 cm
SWIVAN01
Shortwave incoming solar radiation at VANMET, probe no. 01 at height 850 cm
WNDCEN01
Wind speed and direction at CENMET, probe no. 01 at height 1000 cm
WNDH1501
Wind speed and direction at H15MET, probe no. 01 at height 500 cm
WNDPRI01
Wind speed and direction at PRIMET, probe no. 01 at height 1000 cm
WNDUPL01
Wind speed and direction at UPLMET, probe no. 01 at height 1000 cm
WNDVAN01
Wind speed and direction at VANMET, probe no. 01 at height 1000 cm
AIRPRI06
Air temperature at PRIMET, probe no. 06 at height 150 cm on tower with aspirated shield
SNOVAR04
Snow moisture and depth at VARMET, probe no. 04, average snow course measurement along transect in the meadow
AIRPRI07
Air temperature at PRIMET, probe no. 07 at height 250 cm on tower with aspirated shield
AIRPRI08
Air temperature at PRIMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRPRI09
Air temperature at PRIMET, probe no. 09 at height 450 cm on tower with aspirated shield
AIRUPL08
Air temperature at UPLMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRVAN08
Air temperature at VANMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRVAR10
Air temperature at VARMET, probe no. 10 at height 450 cm on stand-alone rain gauge in meadow
ATMPRI01
Atmospheric pressure at PRIMET, probe no. 01 at elevation 430 m corrected to sea level
ATMUPL01
Atmospheric pressure at UPLMET, probe no. 01 at elevation 1294 m corrected to sea level
SWIPRI02
Shortwave incoming solar radiation at PRIMET, probe no. 02 at height 600 cm
SWIVAN02
Shortwave incoming solar radiation at VANMET, probe no. 02 at height 600 cm
WNDPRI02
Wind speed and direction using sonic anemometer at PRIMET, probe no. 02 at height 1000 cm
WNDVAN02
Wind speed and direction using sonic anemometer at VANMET, probe no. 02 at height 1000 cm
PPTCS202
Precipitation at CS2MET, probe no. 02; Noah IV rain gauge
SNOVAR05
Snow moisture and depth at VARMET, probe no. 05 in meadow, snow pillow with snow depth sensor
SOIVAN06
Soil temperature at VANMET, probe no. 06 at depth 10 cm; established 15 Sep 2004
SOIVAN07
Soil temperature at VANMET, probe no. 07 at depth 20 cm; established 15 Sep 2004
SOIVAN08
Soil temperature at VANMET, probe no. 08 at depth 50 cm; established 15 Sep 2004
SOIVAN09
Soil temperature at VANMET, probe no. 09 at depth 100 cm; established 15 Sep 2004
AIRCEN08
Air temperature at CENMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRCS203
Air temperature at CS2MET, probe no. 03 at height 150 cm
RELCS203
Relative humidity at CS2MET, probe no. 03 at height 150 cm
DEWCS203
Dew point temperature at CS2MET, probe no. 03 at height 150 cm on tower, calculated; begins 9 Apr 2015
VPDCS203
Water vapor pressure deficit at CS2MET, probe no. 03 at height 150 cm on tower, calculated; begins 09 Apr 2015; replaces VPDCS202
WNDWS702
Wind speed and direction using sonic anemometer at WS7MET, probe no. 02 at height 1000 cm
WNDCEN02
Wind speed and direction using sonic anemometer at CENMET, probe no. 02 at height 1000 cm
SWIWS701
Shortwave incoming solar radiation at WS7MET, probe no. 01 at height 450 cm
SOIWS701
Soil temperature at WS7MET, probe no. 01 at depth 10 cm; established 6 Dec 2006
SOIWS702
Soil temperature at WS7MET, probe no. 02 at depth 20 cm; established 6 Dec 2006
SOIWS703
Soil temperature at WS7MET, probe no. 03 at depth 50 cm; established 6 Dec 2006
SOIWS704
Soil temperature at WS7MET, probe no. 04 at depth 100 cm; established 6 Dec 2006
ATMWS701
Atmospheric pressure at WS7MET, probe no. 01 at elevation 998 m corrected to sea level
WNDWS701
Wind speed and direction at WS7MET, probe no. 01 at height 1000 cm
WNDWS703
Wind speed and direction at WS7MET, probe no. 03 at height 450 cm (discontinued 16 Sep 2012)
WNDWS704
Wind speed and direction at WS7MET, probe no. 04 at height 150 cm (discontinued 27 Jan 2008)
AIRWS701
Air temperature at WS7MET, probe no. 01 at height 450 cm on tower
AIRWS702
Air temperature at WS7MET, probe no. 02 at height 350 cm on tower
AIRWS703
Air temperature at WS7MET, probe no. 03 at height 250 cm on tower
AIRWS704
Air temperature at WS7MET, probe no. 04 at height 150 cm on tower
AIRWS708
Air temperature at WS7MET, probe no. 08 at height 350 cm on tower with aspirated shield
RELWS701
Relative humidity at WS7MET, probe no. 01 at height 450 cm
RELWS704
Relative humidity at WS7MET, probe no. 01 at height 150 cm
DEWWS701
Dew point temperature at WS7MET, probe no. 01 at height 450 cm on tower, calculated
DEWWS704
Dew point temperature at WS7MET, probe no. 04 at height 150 cm on tower, calculated
VPDWS701
Water vapor pressure deficit at WS7MET, probe no. 01 at height 450 cm on tower, calculated
VPDWS704
Water vapor pressure deficit at WS7MET, probe no. 04 at height 150 cm on tower, calculated
SNOWS701
Snow depth at WS7MET, probe no. 01, snow depth sensor at south site
SNOWS702
Snow depth at WS7MET, probe no. 02, snow depth sensor at west site (discontinued 14 May 2007)
WNDUPL02
Wind speed and direction using sonic anemometer at UPLMET, probe no. 02 at height 1000 cm
AIRCS205
Air temperature at CS2MET, probe no. 05 at height 150 cm

DATE_TIME - datetime (dateTime)

ID: MS00111.DATE_TIME

Date and time in Pacific Standard Time (PST) of sensor reading

Type system: Microsoft SQL Server 2019

Date format: YYYY-MM-DD hh:mm:ss

AIRTEMP_MEAN - numeric(5,1) (interval)

ID: MS00111.AIRTEMP_MEAN

Mean air temperature over the last interval (e.g., 15 minutes)

Type system: Microsoft SQL Server 2019

Unit: degrees Celsius

Precision: 0.100000

Numeric domain: type=real, min=-23.7000 (exclusive=false), max=45.0000 (exclusive=false)

AIRTEMP_MEAN_FLAG - char(1) (nominal)

ID: MS00111.AIRTEMP_MEAN_FLAG

Mean air temperature flag

Type system: Microsoft SQL Server 2019

Code definitions (8)

B
Sensor buried in snow; value is the snow temperature
E
Estimated value
M
Missing value
Q
Questionable value
S
Daily value based on sunrise to sunrise
A
Accepted value has passed all QC tests applied as represented by the quality level
D
Value is estimated as the average of daily minimum and daily maximum
P
Fire effects are visible in the data

EVENT_CODE - char(6) (nominal)

ID: MS00111.EVENT_CODE

Any event, disruption in protocol, or unusual conditions that occur at the given date or time and may have an effect on the data values; contact information manager for access to specific details from the field 'Notes' database

Type system: Microsoft SQL Server 2019

Code definitions (11)

INSREM
Sensor is installed or removed
LOGGER
Change in data logger, data logger program, or wiring
METHOD
Change in data collection method
NA
No event is reported (not applicable)
QUALTY
Event may directly affect data quality (individual activities tracked in field notes database)
MAINTE
A maintenance event has occurred
INTPRO
Internal processing may produce an anomalous reading
WEATHR
A weather event has occurred that may affect reading
CALIBR
Associated with the inspection or replacement of sensors for calibration
CLEARD
Site clearing of trees and brush around the meteorological station is being conducted
BURNED
Burning, including cleared trees and brush or wildfire, around the meteorological station or within the watershed (code begins at event initiation)

MS00112 - Relative humidity (fine temporal resolution)

Object name: MS00112_v9.txt

Records: 14543794

Attributes: 11

Temporal coverage: 1988-07-06 to 2024-10-01

File size: 1131507949 byte

Checksum (MD5): 0ab2f5a90474c2d03fd2e58720974f70

Format: headers=1, recordDelimiter=\r\n, fieldDelimiter=,, quoteCharacter=", orientation=column

Constraints (2)

primaryKey: PRIMARY
MS00112.DATE_TIME, MS00112.PROBE_CODE, MS00112.SITECODE
notNullConstraint: NOTNULL
MS00112.DATE_TIME, MS00112.ENTITY, MS00112.RELHUM_MEAN_FLAG, MS00112.PROBE_CODE, MS00112.DBCODE, MS00112.SITECODE, MS00112.HEIGHT, MS00112.EVENT_CODE, MS00112.QC_LEVEL, MS00112.RELHUM_METHOD

Attributes (11)

DBCODE - char(5) (nominal)

ID: MS00112.DBCODE

FSDB database code

Type system: Microsoft SQL Server 2019

Code definitions (1)

MS001
FSDB Database Code

ENTITY - numeric(2,0) (interval)

ID: MS00112.ENTITY

Entity number

Type system: Microsoft SQL Server 2019

Unit: number

Precision: 1.000000

Numeric domain: type=natural, min=12.0000 (exclusive=false), max=12.0000 (exclusive=false)

SITECODE - char(6) (nominal)

ID: MS00112.SITECODE

Site code for the meteorological measurement station

Type system: Microsoft SQL Server 2019

Code definitions (8)

CENMET
Central Meteorological Station
PRIMET
Primary Meteorological Station
UPLMET
Upper Lookout Meteorological Station
VANMET
Vanilla Leaf Meteorological Station
CS2MET
Climatic Station at Watershed 2
H15MET
High 15 Meteorological Station
VARMET
Vanilla Leaf Meadow Meteorological Station
WS7MET
Watershed 7 Meteorological Station

RELHUM_METHOD - char(6) (nominal)

ID: MS00112.RELHUM_METHOD

An indication of the the general methodology and instrumentation used to collect this relative humidity data

Type system: Microsoft SQL Server 2019

Code definitions (45)

REL004
Relative humidity is sampled by a Campbell Scientific model HMP35C probe housed in a cotton region shelter at 150 cm height; mean relative humidity is output every 60 minutes
REL005
Relative humidity is sampled by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 150 cm height; mean relative humidity is output every 60 minutes
REL006
Relative humidity is sampled by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 450 cm height; mean relative humidity is output every 60 minutes
REL007
Relative humidity is sampled by a Campbell Scientific model HMP45C probe housed in a locally designed PVC radiation shield at 150 cm height; mean relative humidity is output every 60 minutes
REL008
Relative humidity is sampled by a Campbell Scientific model HMP45C probe housed in a locally designed PVC radiation shield at 450 cm height; mean relative humidity is output every 60 minutes
REL009
Relative humidity is sampled by a Campbell Scientific model HMP45C probe housed in a locally designed PVC radiation shield at 450 cm height; program failure in output of relative humidty values
REL010
Relative humidity is sampled by a Campbell Scientific model HMP35C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean relative humidity is output every 60 minutes
REL011
Relative humidity is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean relative humidity is output every 60 minutes
REL012
Relative humidity is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean relative humidity is output every 60 minutes
REL013
Relative humidity is sampled by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 480 cm height; mean relative humidity is output every 60 minutes
REL014
Relative humidity is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean relative humidity is output every 15 minutes
REL015
Relative humidity is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean relative humidity is output every 15 minutes
REL215
Mean daily relative humidity is post-calculated from all 15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 450 cm height (See meth REL015)
REL101
Daily minimum and maximum relative humidity is recorded on a Cole Parmer hygrothermograph chart at 130 cm height in cotton region shelter; daily chart readings are adjusted weekly using a sling psychrometer
REL102
Daily minimum and maximum relative humidity is recorded on a Belfort hygrothermograph chart at 130 cm height in cotton region shelter; daily chart readings are adjusted weekly using a sling psychrometer
REL103
Mean daily relative humidity is calculated by the Campbell Scientific datalogger and output on a sunrise to sunrise basis. Max-min values are based on instantaneous 15 second readings. HMP35C; PVC radiation shield; 450 cm height
REL104
Mean daily relative humidity is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. CS Model HMP35C; cotton region shelter; 150 cm height (See method REL004)
REL105
Mean daily relative humidity is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP35C; PVC radiation shield; 150 cm height (See method REL005)
REL106
Mean daily relative humidity is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP35C; PVC radiation shield; 450 cm height (See method REL006)
REL107
Mean daily relative humidity is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; PVC radiation shield; 150 cm height (See method REL007)
REL108
Mean daily relative humidity is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; PVC radiation shield; 450 cm height (See method REL008)
REL109
Mean daily relative humidity is not output; program failure of the Campbell Scientific datalogger. Model HMP45C; PVC radiation shield; 450 cm height (See method REL009)
REL110
Mean daily relative humidity is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP35C; R.M. Young Gill radiation shield; 450 cm height (See method REL010)
REL111
Mean daily relative humidity is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 150 cm height (See method REL011)
REL311
Mean daily relative humidity is post-calculated from all hourly mean values for the day. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 150 cm height (See method REL011)
REL112
Mean daily relative humidity is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 450 cm height (See methodREL012)
REL312
Mean daily relative humidity is post-calculated from all hourly mean values for the day. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 450 cm height (See method REL012)
REL113
Mean daily relative humidity is calculated by the Campbell Scientific datalogger based on 15 second samples. Max-min values are based on instantaneous 15 second readings. Model HMP35C; PVC radiation shield; 480 cm height (See method REL013)
REL211
Mean daily relative humidity is post-calculated from all hourly mean values for the day. Max-min values are based on hourly mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 150 cm height (See method REL011)
REL314
Mean daily relative humidity is post-calculated from all 15 minute mean values for the day. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 150 cm height (See method REL014)
REL315
Mean daily relative humidity is post-calculated from all 15 minute mean values for the day. Max-min values are based on instantaneous 15 second readings. Model HMP45C; R.M. Young Gill radiation shield; 450 cm height (See method REL015)
REL212
Mean daily relative humidity is post-calculated from all hourly mean values for the day. Max-min values are based on hourly mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 450 cm height (See method REL012)
REL214
Mean daily relative humidity is post-calculated from all 15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 150 cm height (See meth REL014)
REL016
Relative humidity is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean relative humidity is output every 5 minutes
REL017
Relative humidity is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean relative humidity is output every 5 minutes
REL216
Mean daily relative humidity is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 150 cm height (See method REL016)
REL217
Mean daily relative humidity is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 450 cm height (See method REL017)
REL020
Relative humidity is sampled by a Campbell Scientific model HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean relative humidity is output every 5 minutes
REL220
Mean daily relative humidity is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. Model HC2S3-L; R.M. Young Gill radiation shield; 150 cm ht (See method REL020)
REL021
Relative humidity is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean relative humidity is output every 10 minutes
REL022
Relative humidity is sampled by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean relative humidity is output every 10 minutes
REL221
Mean daily relative humidity is post-calculated from all 10 minute mean values for the day. Max-min values are based on 10 minute mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 450 cm ht (See method REL021)
REL222
Mean daily relative humidity is post-calculated from all 10 minute mean values for the day. Max-min values are based on 10 minute mean intervals and not instantaneous values. Model HMP45C; R.M. Young Gill radiation shield; 150 cm ht (See method REL022)
REL023
Relative humidity is sampled by a Campbell Scientific (CS) CR1000 data logger and CS HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; sampling rate 10 seconds; 5-minute output is the minimum, mean, and maximum of 30 samples.
REL223
Relative humidity is sampled by a Campbell Scientific (CS) CR1000 data logger and CS HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; sampling rate 10 seconds; 5-minute output is the minimum, mean, and maximum of 30 samples. Daily mean, mean minimum and mean maximum are post-calculated from 5-minute mean data.

HEIGHT - numeric(4,0) (ratio)

ID: MS00112.HEIGHT

Height of sensor from ground surface

Type system: Microsoft SQL Server 2019

Unit: centimeters

Precision: 1.000000

Numeric domain: type=whole, min=130.0000 (exclusive=false), max=480.0000 (exclusive=false)

QC_LEVEL - char(2) (nominal)

ID: MS00112.QC_LEVEL

Quality control flag indicates level of quality checking performed including an indication of "provisional" data.

Type system: Microsoft SQL Server 2019

Code definitions (5)

1P
Data is provisional and subject to revision - preliminary quality checks have been performed
1A
Data is published and unlikely to change - automated range checking and manual review has been conducted. Quality is indicated in data value qualifier flags.
2A
Data is published and unlikely to change - Level 1A data has been modified such that data gaps may be filled or problem data may be removed
2D
Data is published and unlikely to change - data is derived or aggregated from published data of level 2A
1D
Data is published and unlikely to change - data is derived or aggregated from published data of level 1A

PROBE_CODE - char(8) (nominal)

ID: MS00112.PROBE_CODE

Probe number code indicates the measurement type, site, and sensor number (e.g., AIRPRI01)

Type system: Microsoft SQL Server 2019

Code definitions (194)

AIRCEN01
Air temperature at CENMET, probe no. 01 at height 450 cm on tower
AIRCEN02
Air temperature at CENMET, probe no. 02 at height 350 cm on tower (450 cm from 4 Nov 2002 to 24 Sep 2007)
AIRCEN03
Air temperature at CENMET, probe no. 03 at height 250 cm on tower (150 cm from 31 Oct 2002 to 24 Sep 2007)
AIRCEN04
Air temperature at CENMET, probe no. 04 at height 150 cm on tower
AIRCS201
Air temperature at CS2MET, probe no. 01 at height 130 cm in cotton shelter; daily min-max hygrothermograph charts; discontinued 1999
AIRCS202
Air temperature at CS2MET, probe no. 02 at height 150 cm
AIRH1501
Air temperature at H15MET, probe no. 01 at height 450 cm
AIRH1502
Air temperature at H15MET, probe no. 02 at height 150 cm
AIRPRI01
Air temperature at PRIMET, probe no. 01 at height 450 cm on tower
AIRPRI02
Air temperature at PRIMET, probe no. 02 at height 350 cm on tower (450 cm from 24 Sep 2002 to 30 Apr 2007)
AIRPRI03
Air temperature at PRIMET, probe no. 03 at height 250 cm on tower (150 cm from 24 Sep 2002 to 6 Jul 2003; 24 Jun 2004 to 30 Apr 2007)
AIRPRI04
Air temperature at PRIMET, probe no. 04 at height 150 cm on tower
AIRPRI05
Air temperature at PRIMET, probe no. 05 at height 150 cm in cotton region shelter; discontinued 14 June 2004
AIRUPL01
Air temperature at UPLMET, probe no. 01 at height 450 cm on tower
AIRUPL02
Air temperature at UPLMET, probe no. 02 at height 350 cm on tower (450 cm from 28 Jun 2004 to 16 Jul 2007)
AIRUPL03
Air temperature at UPLMET, probe no. 03 at height 250 cm on tower (350 cm 21 Oct 2002 - 22 Jul 2004; 150 cm 22 Jul 2004 - 16 Jul 2007)
AIRUPL04
Air temperature at UPLMET, probe no. 04 at height 150 cm on tower (450 cm from 24 Oct 2002 to 18 Jun 2004)
AIRVAN01
Air temperature at VANMET, probe no. 01 at height 450 cm on tower
AIRVAN02
Air temperature at VANMET, probe no. 02 at height 350 cm on tower (450 cm from 16 Jun 2004 to 25 Jul 2007)
AIRVAN03
Air temperature at VANMET, probe no. 03 at height 150 cm on tower (350 cm 17 Oct 2002 - 16 Jun 2004; 150 cm 16 Jun 2004 - 25 Jul 2007)
AIRVAN04
Air temperature at VANMET, probe no. 04 at height 150 cm on tower (450 cm from 17 Oct 2002 to 16 Jun 2004)
AIRVAN05
Air temperature at VANMET, probe no. 05 at height 50 cm; discontinued 5 Oct 1995
DEWCEN01
Dew point temperature at CENMET, probe no. 01 at height 450 cm on tower, calculated
DEWCEN04
Dew point temperature at CENMET, probe no. 04 at height 150 cm on tower, calculated
DEWCS202
Dew point temperature at CS2MET, probe no. 02 at height 150 cm on tower, calculated; begins 14 Apr 1998
DEWH1501
Dew point temperature at H15MET, probe no. 01 at height 450 cm on tower, calculated
DEWH1502
Dew point temperature at H15MET, probe no. 02 at height 150 cm on tower, calculated
DEWPRI01
Dew point temperature at PRIMET, probe no. 01 at height 450 cm on tower, calculated
DEWPRI04
Dew point temperature at PRIMET, probe no. 04 at height 150 cm on tower, calculated
DEWPRI05
Dew point temperature at PRIMET, probe no. 05 at height 150 cm in shelter, calculated; direct measurement before Jul 1988; discontinued 2000
DEWUPL01
Dew point temperature at UPLMET, probe no. 01 at height 450 cm on tower, calculated
DEWUPL04
Dew point temperature at UPLMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 24 Oct 2002 to 18 Jun 2004)
DEWVAN01
Dew point temperature at VANMET, probe no. 01 at height 450 cm on tower, calculated
DEWVAN04
Dew point temperature at VANMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 17 Oct 2002 to 16 Jun 2004)
VPDCEN01
Water vapor pressure deficit at CENMET, probe no. 01 at height 450 cm on tower, calculated
VPDCEN04
Water vapor pressure deficit at CENMET, probe no. 04 at height 150 cm on tower, calculated
VPDCS202
Water vapor pressure deficit at CS2MET, probe no. 02 at height 150 cm on tower, calculated; begins 14 Apr 1998
VPDH1501
Water vapor pressure deficit at H15MET, probe no. 01 at height 450 cm on tower, calculated
VPDH1502
Water vapor pressure deficit at H15MET, probe no. 02 at height 150 cm on tower, calculated
VPDPRI01
Water vapor pressure deficit at PRIMET, probe no. 01 at height 450 cm on tower, calculated
VPDPRI04
Water vapor pressure deficit at PRIMET, probe no. 04 at height 150 cm on tower, calculated
VPDPRI05
Water vapor pressure deficit at PRIMET, probe no. 05 at height 150 cm in cotton region shelter, calculated; discontinued May 2000
VPDUPL01
Water vapor pressure deficit at UPLMET, probe no. 01 at height 450 cm on tower, calculated
VPDUPL04
Water vapor pressure deficit at UPLMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 24 Oct 2002 to 18 Jun 2004)
VPDVAN01
Water vapor pressure deficit at VANMET, probe no. 01 at height 450 cm on tower, calculated
VPDVAN04
Water vapor pressure deficit at VANMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 17 Oct 2002 to 16 Jun 2004)
LYSCEN01
Snow lysimeter at CENMET, probe no. 01
LYSH1501
Snow lysimeter at H15MET, probe no. 01
LYSUPL01
Snow lysimeter at UPLMET, probe no. 01
PARCEN01
Photosynthetically active radiation (PAR) at CENMET, probe no. 1 at height 627 cm
PPTCEN01
Precipitation at CENMET, probe no. 01, stand-alone model
PPTCEN02
Precipitation at CENMET, probe no. 02, shelter-top model
PPTCS201
Precipitation at CS2MET, probe no. 01; Universal rain gauge chart; backup record not digitized beyond 2012
PPTH1501
Precipitation at H15MET, probe no. 01 at height 410 cm prorated to adjacent standard raingage, discontinued 1992
PPTH1502
Precipitation at H15MET, probe no. 02 at height 410 cm
PPTPRI01
Precipitation at PRIMET, probe no. 01 at height 100 cm
PPTPRI02
Precipitation at PRIMET, probe no. 02, stand-alone model; inconsistencies prevent sharing this data; discontinued 2010
PPTUPL01
Precipitation at UPLMET, probe no. 01 at height 457 cm, stand-alone model
PPTUPL02
Precipitation at UPLMET, probe no. 02 at height 627 cm, shelter-top model
PPTVAN01
Precipitation at VANMET, probe no. 01 at height 305 cm, shelter-top model; record ends Feb 1996; discontinued Sep 2001
PPTVAR02
Precipitation at VARMET, probe no. 02, stand-alone model in meadow
RELCEN01
Relative humidity at CENMET, probe no. 01 at height 450 cm
RELCEN04
Relative humidity at CENMET, probe no. 04 at height 150 cm
RELCS201
Relative humidity at CS2MET, probe no. 01 at height 130 cm in cotton shelter; daily min-max hygrothermograph charts; discontinued 1999
RELCS202
Relative humidity at CS2MET, probe no. 02 at height 150 cm
RELH1501
Relative humidity at H15MET, probe no. 01 at height 450 cm
RELH1502
Relative humidity at H15MET, probe no. 02 at height 150 cm
RELPRI01
Relative humidity at PRIMET, probe no. 01 at height 450 cm
RELPRI04
Relative humidity at PRIMET, probe no. 04 at height 150 cm
RELPRI05
Relative humidity at PRIMET, probe no. 05 at height 150 cm in cotton region shelter; discontinued 30 May 2000
RELUPL01
Relative humidity at UPLMET, probe no. 01 at height 450 cm
RELUPL04
Relative humidity at UPLMET, probe no. 04 at height 150 cm (450 cm from 24 Oct 2002 to 18 Jun 2004)
RELVAN01
Relative humidity at VANMET, probe no. 01 at height 450 cm; originally probe was repositioned at 150 cm in summer
RELVAN04
Relative humidity at VANMET, probe no. 04 at height 150 cm (450 cm from 17 Oct 2002 to 16 Jun 2004)
SWCPRI01
Soil water content at PRIMET, probe no. 01 at depth 10 cm
SWCPRI02
Soil water content at PRIMET, probe no. 02 at depth 20 cm
SWCPRI03
Soil water content at PRIMET, probe no. 03 at depth 50 cm
SWCPRI04
Soil water content at PRIMET, probe no. 04 at depth 100 cm
SWCCEN01
Soil water content at CENMET, probe no. 01 at depth 10 cm
SWCCEN02
Soil water content at CENMET, probe no. 02 at depth 20 cm
SWCCEN03
Soil water content at CENMET, probe no. 03 at depth 50 cm
SWCCEN04
Soil water content at CENMET, probe no. 04 at depth 100 cm
SWCUPL01
Soil water content at UPLMET, probe no. 01 at depth 10 cm
SWCUPL02
Soil water content at UPLMET, probe no. 02 at depth 20 cm
SWCUPL03
Soil water content at UPLMET, probe no. 03 at depth 50 cm
SWCUPL04
Soil water content at UPLMET, probe no. 04 at depth 100 cm
SWCVAN01
Soil water content at VANMET, probe no. 01 at depth 10 cm
SWCVAN02
Soil water content at VANMET, probe no. 02 at depth 20 cm
SWCVAN03
Soil water content at VANMET, probe no. 03 at depth 50 cm
SWCVAN04
Soil water content at VANMET, probe no. 04 at depth 100 cm
SMPCEN01
Soil moisture potential at CENMET, probe no. 01 at depth 10 cm; discontinued 13 Nov 2002
SMPCEN02
Soil moisture potential at CENMET, probe no. 02 at depth 20 cm; discontinued 13 Nov 2002
SMPCEN03
Soil moisture potential at CENMET, probe no. 03 at depth 50 cm; discontinued 13 Nov 2002
SMPCEN04
Soil moisture potential at CENMET, probe no. 04 at depth 100 cm; discontinued 13 Nov 2002
SMPPRI01
Soil moisture potential at PRIMET, probe no. 01 at depth 10 cm; discontinued 23 May 2000
SMPPRI02
Soil moisture potential at PRIMET, probe no. 02 at depth 20 cm; discontinued 23 May 2000
SMPPRI03
Soil moisture potential at PRIMET, probe no. 03 at depth 50 cm; discontinued 23 May 2000
SMPPRI04
Soil moisture potential at PRIMET, probe no. 04 at depth 100 cm; discontinued 23 May 2000
SMPUPL01
Soil moisture potential at UPLMET, probe no. 01 at depth 10 cm; discontinued 18 Oct 2001
SMPUPL02
Soil moisture potential at UPLMET, probe no. 02 at depth 20 cm; discontinued 18 Oct 2001
SMPUPL03
Soil moisture potential at UPLMET, probe no. 03 at depth 50 cm; discontinued 18 Oct 2001
SMPUPL04
Soil moisture potential at UPLMET, probe no. 04 at depth 100 cm; discontinued 18 Oct 2001
SMPVAN01
Soil moisture potential at VANMET, probe no. 01 at depth 10 cm; discontinued 9 Sep 2001
SMPVAN02
Soil moisture potential at VANMET, probe no. 02 at depth 20 cm; discontinued 9 Sep 2001
SMPVAN03
Soil moisture potential at VANMET, probe no. 03 at depth 50 cm; discontinued 9 Sep 2001
SMPVAN04
Soil moisture potential at VANMET, probe no. 04 at depth 100 cm; discontinued 9 Sep 2001
SMPVAN05
Soil moisture potential at VANMET, probe no. 05 at depth 30 cm; discontinued 9 Sep 2001
SNOCEN01
Snow water equivalence and depth at CENMET, probe no. 01, snow pillow with snow depth sensor
SNOCEN02
Snow water equivalence and depth at CENMET, probe no. 02, snow depth and calculated snow water around snow pillow
SNOCEN03
Snow water equivalence and depth at CENMET, probe no. 03, average snow course measurement along transect near the station
SNOPRI01
Snow water equivalence and depth at PRIMET, probe no. 01, snow pillow with snow depth sensor
SNOUPL01
Snow water equivalence and depth at UPLMET, probe no. 01, snow pillow with snow depth sensor
SNOUPL02
Snow water equivalence and depth at UPLMET, probe no. 02, snow depth and calculated snow water around snow pillow
SNOUPL03
Snow water equivalence and depth at UPLMET, probe no. 03, average snow course measurement along transect near the station
SNOVAN01
Snow water equivalence and depth at VANMET, probe no. 01, snow pillow with snow depth sensor
SNOVAN02
Snow water equivalence and depth at VANMET, probe no. 02, snow depth and calculated snow water around snow pillow in clearcut
SNOVAN03
Snow moisture and depth at VANMET, probe no. 03, average snow course measurement along transect near the station in the clearcut
SOICEN01
Soil temperature at CENMET, probe no. 01 at depth10 cm
SOICEN02
Soil temperature at CENMET, probe no. 02 at depth 20 cm
SOICEN03
Soil temperature at CENMET, probe no. 03 at depth 50 cm
SOICEN04
Soil temperature at CENMET, probe no. 04 at depth 100 cm
SOIPRI01
Soil temperature at PRIMET, probe no. 01 at depth 10 cm
SOIPRI02
Soil temperature at PRIMET, probe no. 02 at depth 20 cm
SOIPRI03
Soil temperature at PRIMET, probe no. 03 at depth 50 cm
SOIPRI04
Soil temperature at PRIMET, probe no. 04 at depth 100 cm
SOIUPL01
Soil temperature at UPLMET, probe no. 01 at depth 10 cm
SOIUPL02
Soil temperature at UPLMET, probe no. 02 at depth 20 cm
SOIUPL03
Soil temperature at UPLMET, probe no. 03 at depth 50 cm
SOIUPL04
Soil temperature at UPLMET, probe no. 04 at depth 100 cm
SOIVAN01
Soil temperature at VANMET, probe no. 01 at depth 10 cm; discontinued 29 July 2007
SOIVAN02
Soil temperature at VANMET, probe no. 02 at depth 20 cm; discontinued 29 July 2007
SOIVAN03
Soil temperature at VANMET, probe no. 03 at depth 50 cm; discontinued 29 July 2007
SOIVAN04
Soil temperature at VANMET, probe no. 04 at depth 100 cm; discontinued 29 July 2007
SOIVAN05
Soil temperature at VANMET, probe no. 05 at depth 30 cm; discontinued 13 July 1994
SWICEN01
Shortwave incoming solar radiation at CENMET, probe no. 01 at height 625 cm
SWIPRI01
Shortwave incoming solar radiation at PRIMET, probe no. 01 at height 100 cm
SWIUPL01
Shortwave incoming solar radiation at UPLMET, probe no. 01 at height 615 cm
SWIVAN01
Shortwave incoming solar radiation at VANMET, probe no. 01 at height 850 cm
WNDCEN01
Wind speed and direction at CENMET, probe no. 01 at height 1000 cm
WNDH1501
Wind speed and direction at H15MET, probe no. 01 at height 500 cm
WNDPRI01
Wind speed and direction at PRIMET, probe no. 01 at height 1000 cm
WNDUPL01
Wind speed and direction at UPLMET, probe no. 01 at height 1000 cm
WNDVAN01
Wind speed and direction at VANMET, probe no. 01 at height 1000 cm
AIRPRI06
Air temperature at PRIMET, probe no. 06 at height 150 cm on tower with aspirated shield
SNOVAR04
Snow moisture and depth at VARMET, probe no. 04, average snow course measurement along transect in the meadow
AIRPRI07
Air temperature at PRIMET, probe no. 07 at height 250 cm on tower with aspirated shield
AIRPRI08
Air temperature at PRIMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRPRI09
Air temperature at PRIMET, probe no. 09 at height 450 cm on tower with aspirated shield
AIRUPL08
Air temperature at UPLMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRVAN08
Air temperature at VANMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRVAR10
Air temperature at VARMET, probe no. 10 at height 450 cm on stand-alone rain gauge in meadow
ATMPRI01
Atmospheric pressure at PRIMET, probe no. 01 at elevation 430 m corrected to sea level
ATMUPL01
Atmospheric pressure at UPLMET, probe no. 01 at elevation 1294 m corrected to sea level
SWIPRI02
Shortwave incoming solar radiation at PRIMET, probe no. 02 at height 600 cm
SWIVAN02
Shortwave incoming solar radiation at VANMET, probe no. 02 at height 600 cm
WNDPRI02
Wind speed and direction using sonic anemometer at PRIMET, probe no. 02 at height 1000 cm
WNDVAN02
Wind speed and direction using sonic anemometer at VANMET, probe no. 02 at height 1000 cm
PPTCS202
Precipitation at CS2MET, probe no. 02; Noah IV rain gauge
SNOVAR05
Snow moisture and depth at VARMET, probe no. 05 in meadow, snow pillow with snow depth sensor
SOIVAN06
Soil temperature at VANMET, probe no. 06 at depth 10 cm; established 15 Sep 2004
SOIVAN07
Soil temperature at VANMET, probe no. 07 at depth 20 cm; established 15 Sep 2004
SOIVAN08
Soil temperature at VANMET, probe no. 08 at depth 50 cm; established 15 Sep 2004
SOIVAN09
Soil temperature at VANMET, probe no. 09 at depth 100 cm; established 15 Sep 2004
AIRCEN08
Air temperature at CENMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRCS203
Air temperature at CS2MET, probe no. 03 at height 150 cm
RELCS203
Relative humidity at CS2MET, probe no. 03 at height 150 cm
DEWCS203
Dew point temperature at CS2MET, probe no. 03 at height 150 cm on tower, calculated; begins 9 Apr 2015
VPDCS203
Water vapor pressure deficit at CS2MET, probe no. 03 at height 150 cm on tower, calculated; begins 09 Apr 2015; replaces VPDCS202
WNDWS702
Wind speed and direction using sonic anemometer at WS7MET, probe no. 02 at height 1000 cm
WNDCEN02
Wind speed and direction using sonic anemometer at CENMET, probe no. 02 at height 1000 cm
SWIWS701
Shortwave incoming solar radiation at WS7MET, probe no. 01 at height 450 cm
SOIWS701
Soil temperature at WS7MET, probe no. 01 at depth 10 cm; established 6 Dec 2006
SOIWS702
Soil temperature at WS7MET, probe no. 02 at depth 20 cm; established 6 Dec 2006
SOIWS703
Soil temperature at WS7MET, probe no. 03 at depth 50 cm; established 6 Dec 2006
SOIWS704
Soil temperature at WS7MET, probe no. 04 at depth 100 cm; established 6 Dec 2006
ATMWS701
Atmospheric pressure at WS7MET, probe no. 01 at elevation 998 m corrected to sea level
WNDWS701
Wind speed and direction at WS7MET, probe no. 01 at height 1000 cm
WNDWS703
Wind speed and direction at WS7MET, probe no. 03 at height 450 cm (discontinued 16 Sep 2012)
WNDWS704
Wind speed and direction at WS7MET, probe no. 04 at height 150 cm (discontinued 27 Jan 2008)
AIRWS701
Air temperature at WS7MET, probe no. 01 at height 450 cm on tower
AIRWS702
Air temperature at WS7MET, probe no. 02 at height 350 cm on tower
AIRWS703
Air temperature at WS7MET, probe no. 03 at height 250 cm on tower
AIRWS704
Air temperature at WS7MET, probe no. 04 at height 150 cm on tower
AIRWS708
Air temperature at WS7MET, probe no. 08 at height 350 cm on tower with aspirated shield
RELWS701
Relative humidity at WS7MET, probe no. 01 at height 450 cm
RELWS704
Relative humidity at WS7MET, probe no. 01 at height 150 cm
DEWWS701
Dew point temperature at WS7MET, probe no. 01 at height 450 cm on tower, calculated
DEWWS704
Dew point temperature at WS7MET, probe no. 04 at height 150 cm on tower, calculated
VPDWS701
Water vapor pressure deficit at WS7MET, probe no. 01 at height 450 cm on tower, calculated
VPDWS704
Water vapor pressure deficit at WS7MET, probe no. 04 at height 150 cm on tower, calculated
SNOWS701
Snow depth at WS7MET, probe no. 01, snow depth sensor at south site
SNOWS702
Snow depth at WS7MET, probe no. 02, snow depth sensor at west site (discontinued 14 May 2007)
WNDUPL02
Wind speed and direction using sonic anemometer at UPLMET, probe no. 02 at height 1000 cm
AIRCS205
Air temperature at CS2MET, probe no. 05 at height 150 cm

DATE_TIME - datetime (dateTime)

ID: MS00112.DATE_TIME

Date and time in Pacific Standard Time (PST) of sensor reading

Type system: Microsoft SQL Server 2019

Date format: YYYY-MM-DD hh:mm:ss

RELHUM_MEAN - numeric(5,1) (ratio)

ID: MS00112.RELHUM_MEAN

Mean relative humidity over the last interval (e.g., 60 minutes)

Type system: Microsoft SQL Server 2019

Unit: percent

Precision: 2.000000

Numeric domain: type=real, min=1.0000 (exclusive=false), max=100.0000 (exclusive=false)

RELHUM_MEAN_FLAG - char(1) (nominal)

ID: MS00112.RELHUM_MEAN_FLAG

Mean relative humidity flag

Type system: Microsoft SQL Server 2019

Code definitions (7)

E
Estimated value
M
Missing value
Q
Questionable value
A
Accepted value has passed all QC tests applied as represented by the quality level
B
Sensor buried in snow
S
Daily value based on sunrise to sunrise
P
Fire effects are visible in the data

EVENT_CODE - char(6) (nominal)

ID: MS00112.EVENT_CODE

Any event, disruption in protocol, or unusual conditions that occur at the given date or time and may have an effect on the data values; contact information manager for access to specific details from the field 'Notes' database

Type system: Microsoft SQL Server 2019

Code definitions (11)

INSREM
Sensor is installed or removed
LOGGER
Change in data logger, data logger program, or wiring
METHOD
Change in data collection method
NA
No event is reported (not applicable)
QUALTY
Event may directly affect data quality (individual activities tracked in field notes database)
MAINTE
A maintenance event has occurred
INTPRO
Internal processing may produce an anomalous reading
WEATHR
A weather event has occurred that may affect reading
CALIBR
Associated with the inspection or replacement of sensors for calibration
CLEARD
Site clearing of trees and brush around the meteorological station is being conducted
BURNED
Burning, including cleared trees and brush or wildfire, around the meteorological station or within the watershed (code begins at event initiation)

MS00117 - Dewpoint temperature (fine temporal resolution)

Object name: MS00117_v9.txt

Records: 13769625

Attributes: 11

Temporal coverage: 1972-05-10 to 2024-10-01

File size: 1060508739 byte

Checksum (MD5): ca2dd34998c50b3b1079edf968b8b00f

Format: headers=1, recordDelimiter=\r\n, fieldDelimiter=,, quoteCharacter=", orientation=column

Constraints (2)

primaryKey: PRIMARY
MS00117.DATE_TIME, MS00117.PROBE_CODE, MS00117.SITECODE
notNullConstraint: NOTNULL
MS00117.DATE_TIME, MS00117.ENTITY, MS00117.DEWPT_MEAN_FLAG, MS00117.PROBE_CODE, MS00117.DBCODE, MS00117.SITECODE, MS00117.HEIGHT, MS00117.EVENT_CODE, MS00117.QC_LEVEL, MS00117.DEWPT_METHOD

Attributes (11)

DBCODE - char(5) (nominal)

ID: MS00117.DBCODE

FSDB database code

Type system: Microsoft SQL Server 2019

Code definitions (1)

MS001
FSDB Database Code

ENTITY - numeric(2,0) (interval)

ID: MS00117.ENTITY

Entity number

Type system: Microsoft SQL Server 2019

Unit: number

Precision: 1.000000

Numeric domain: type=natural, min=17.0000 (exclusive=false), max=17.0000 (exclusive=false)

SITECODE - char(6) (nominal)

ID: MS00117.SITECODE

Site code for the meteorological measurement station

Type system: Microsoft SQL Server 2019

Code definitions (8)

CENMET
Central Meteorological Station
PRIMET
Primary Meteorological Station
UPLMET
Upper Lookout Meteorological Station
VANMET
Vanilla Leaf Meteorological Station
CS2MET
Climatic Station at Watershed 2
H15MET
High 15 Meteorological Station
VARMET
Vanilla Leaf Meadow Meteorological Station
WS7MET
Watershed 7 Meteorological Station

DEWPT_METHOD - char(6) (nominal)

ID: MS00117.DEWPT_METHOD

An indication of the the general methodology and instrumentation used to collect or calculate this dew point temperature data

Type system: Microsoft SQL Server 2019

Code definitions (48)

DEW001
Dewpoint temperature is measured with a heated lithium-chloride dewpoint sensor at 100 cm height and recorded continuously on a separate 30-day Rustrak strip chart; the mean is output every 60 minutes
DEW002
Dewpoint temperature is measured indirectly by a heated Interface Instrument lithium-chloride hygrometer with a linear thermistor at 150 cm height; the mean is output every 60 minutes
DEW003
Dewpoint temperature is measured indirectly by a heated Interface Instrument lithium-chloride hygrometer with a linear thermistor at 100 cm height; the mean is output every 60 minutes
DEW004
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP35C probe housed in a cotton region shelter at 150 cm height; the mean is output every 60 minutes
DEW005
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 150 cm height; the mean is output every 60 minutes
DEW006
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 450 cm height; the mean is output every 60 minutes
DEW007
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 480 cm height; the mean is output every 60 minutes
DEW008
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a locally designed PVC radiation shield at 150 cm height; the mean is output every 60 minutes
DEW009
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a locally designed PVC radiation shield at 450 cm height; the mean is output every 60 minutes
DEW010
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP35C probe housed in a R.M. Young Gill radiation shield at 450 cm height; the mean is output every 60 minutes
DEW011
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; the mean is output every 60 minutes
DEW012
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; the mean is output every 60 minutes
DEW014
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; the mean is output every 15 minutes
DEW015
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; the mean is output every 15 minutes
DEW201
Mean daily dew point temperature is calculated from hourly chart readings. Min-max values are based on hourly mean values. Heated lithium-chloride dewpoint sensor at 100 cm height records continuously on 30-day Rustrak strip chart; mean output 60 minutes
DEW202
Mean daily dew point temperature is calculated from hourly means. Min-max values are based on hourly mean values. Heated Interface Instrument lithium-chloride hygrometer with a linear thermistor at 150 cm height; mean is output every 60 minutes
DEW203
Mean daily dew point temperature is calculated from hourly means. Min-max values are based on hourly mean values. Heated Interface Instrument lithium-chloride hygrometer with a linear thermistor at 100 cm height; mean is output every 60 minutes
DEW104
Mean daily dew point temperature is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CSModel HMP35C; cotton region shelter; 150 cm (DEW004)
DEW105
Mean daily dew point temperature is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CSModel HMP35C; PVC radiation shield; 150 cm (DEW005)
DEW106
Mean daily dew point temperature is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CSModel HMP35C; PVC radiation shield; 450 cm (DEW006)
DEW107
Mean daily dew point temperature is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CSModel HMP35C; PVC radiation shield; 480 cm (DEW007)
DEW108
Mean daily dew point temperature is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CSModel HMP45C; PVC radiation shield; 150 cm (DEW008)
DEW109
Mean daily dew point temperature is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CSModel HMP45C; PVC radiation shield; 450 cm (DEW009)
DEW110
Mean daily dew point temperature is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CSModel HMP35C; RM Young Gill shield; 450 cm (DEW010)
DEW111
Mean daily dew point temperature is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CSModel HMP45C; RM Young Gill shield; 150 cm (DEW011)
DEW112
Mean daily dew point temperature is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP45C; RM Young Gill shield; 450 cm (DEW012)
DEW114
Mean daily dew point temperature is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP45C; RM Young Gill shield; 150 cm (DEW014)
DEW115
Mean daily dew point temperature is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP45C; RM Young Gill shield; 450 cm (DEW015)
DEW311
Mean daily dew point temperature is post-calculated from all hourly mean values for the day. Max-min values are calculated from 15 second readings of air temperature and relative humidity. CS Model HMP45C; RM Young Gill shield; 150 cm (DEW011)
DEW312
Mean daily dew point temperature is post-calculated from all hourly mean values for the day. Max-min values are calculated from 15 second readings of air temperature and relative humidity. CS Model HMP45C; RM Young Gill shield; 450 cm (DEW012)
DEW314
Mean daily dew point temperature is post-calculated from all 15 minute mean values for the day. Max-min values are calculated from 15 second readings of air temperature and relative humidity. CS Model HMP45C; RM Young Gill shield; 150 cm (method DEW014)
DEW315
Mean daily dew point temperature is post-calculated from all 15 minute mean values for the day. Max-min values are calculated from 15 second readings of air temperature and relative humidity. CS Model HMP45C; RM Young Gill shield; 450 cm (method DEW015)
DEW211
Mean daily dew point temperature is post-calculated from all hourly mean values for the day. Max-min values are based on hourly mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 150 cm height (See method DEW011)
DEW212
Mean daily dew point temperature is post-calculated from all hourly mean values for the day. Max-min values are based on hourly mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 450 cm height (See method DEW012)
DEW214
Mean daily dew point temperature is post-calculated from all15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 150 cm height (See method DEW014)
DEW215
Mean daily dew point temperature is post-calculated from all15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 450 cm height (See method DEW015)
DEW016
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; the mean is output every 5 minutes
DEW017
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; the mean is output every 5 minutes
DEW216
Mean daily dew point temperature is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 150 cm height (See method DEW016)
DEW217
Mean daily dew point temperature is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 450 cm height (See method DEW017)
DEW018
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean, min
DEW019
Dew point temperature is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; mean, min
DEW020
Dew point temperature is sampled by a Campbell Scientific model HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; mean, min and max dew point temperature is output every 5 minutes
DEW118
Mean daily dew point temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. CS Model HMP45C; RM Young Gill shield; 150 cm height (See method DEW018)
DEW119
Mean daily dew point temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. CS Model HMP45C; RM Young Gill shield; 450 cm height (See method DEW019)
DEW120
Mean daily dew point temperature is post-calculated from all 5 minute mean, max and min values for the day. Max-min values are based on instantaneous values per 5 minute intervals. CS Model HC2S3-L; RM Young Gill shield; 150 cm height (See method DEW020)
DEW021
Dew point temperature is sampled by a Campbell Scientific (CS) CR1000 data logger and CS HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; sampling rate 10 seconds; 5-minute output is the minimum, mean, and maximum of 30 samples.
DEW121
Dew point temperature is sampled by a Campbell Scientific (CS) CR1000 data logger and CS HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; sampling rate 10 seconds; 5-minute output is the minimum, mean, and maximum of 30 samples. Daily mean minimum, mean, and maximum are post-calculated from 5-minute output.

HEIGHT - numeric(4,0) (ratio)

ID: MS00117.HEIGHT

Height of sensor from ground surface

Type system: Microsoft SQL Server 2019

Unit: centimeters

Precision: 1.000000

Numeric domain: type=whole, min=100.0000 (exclusive=false), max=480.0000 (exclusive=false)

QC_LEVEL - char(2) (nominal)

ID: MS00117.QC_LEVEL

Quality control flag indicates level of quality checking performed including an indication of "provisional" data.

Type system: Microsoft SQL Server 2019

Code definitions (5)

1P
Data is provisional and subject to revision - preliminary quality checks have been performed
1A
Data is published and unlikely to change - automated range checking and manual review has been conducted. Quality is indicated in data value qualifier flags.
2A
Data is published and unlikely to change - Level 1A data has been modified such that data gaps may be filled or problem data may be removed
2D
Data is published and unlikely to change - data is derived or aggregated from published data of level 2A
1D
Data is published and unlikely to change - data is derived or aggregated from published data of level 1A

PROBE_CODE - char(8) (nominal)

ID: MS00117.PROBE_CODE

Probe number code indicates the measurement type, site, and sensor number (e.g., AIRPRI01)

Type system: Microsoft SQL Server 2019

Code definitions (194)

AIRCEN01
Air temperature at CENMET, probe no. 01 at height 450 cm on tower
AIRCEN02
Air temperature at CENMET, probe no. 02 at height 350 cm on tower (450 cm from 4 Nov 2002 to 24 Sep 2007)
AIRCEN03
Air temperature at CENMET, probe no. 03 at height 250 cm on tower (150 cm from 31 Oct 2002 to 24 Sep 2007)
AIRCEN04
Air temperature at CENMET, probe no. 04 at height 150 cm on tower
AIRCS201
Air temperature at CS2MET, probe no. 01 at height 130 cm in cotton shelter; daily min-max hygrothermograph charts; discontinued 1999
AIRCS202
Air temperature at CS2MET, probe no. 02 at height 150 cm
AIRH1501
Air temperature at H15MET, probe no. 01 at height 450 cm
AIRH1502
Air temperature at H15MET, probe no. 02 at height 150 cm
AIRPRI01
Air temperature at PRIMET, probe no. 01 at height 450 cm on tower
AIRPRI02
Air temperature at PRIMET, probe no. 02 at height 350 cm on tower (450 cm from 24 Sep 2002 to 30 Apr 2007)
AIRPRI03
Air temperature at PRIMET, probe no. 03 at height 250 cm on tower (150 cm from 24 Sep 2002 to 6 Jul 2003; 24 Jun 2004 to 30 Apr 2007)
AIRPRI04
Air temperature at PRIMET, probe no. 04 at height 150 cm on tower
AIRPRI05
Air temperature at PRIMET, probe no. 05 at height 150 cm in cotton region shelter; discontinued 14 June 2004
AIRUPL01
Air temperature at UPLMET, probe no. 01 at height 450 cm on tower
AIRUPL02
Air temperature at UPLMET, probe no. 02 at height 350 cm on tower (450 cm from 28 Jun 2004 to 16 Jul 2007)
AIRUPL03
Air temperature at UPLMET, probe no. 03 at height 250 cm on tower (350 cm 21 Oct 2002 - 22 Jul 2004; 150 cm 22 Jul 2004 - 16 Jul 2007)
AIRUPL04
Air temperature at UPLMET, probe no. 04 at height 150 cm on tower (450 cm from 24 Oct 2002 to 18 Jun 2004)
AIRVAN01
Air temperature at VANMET, probe no. 01 at height 450 cm on tower
AIRVAN02
Air temperature at VANMET, probe no. 02 at height 350 cm on tower (450 cm from 16 Jun 2004 to 25 Jul 2007)
AIRVAN03
Air temperature at VANMET, probe no. 03 at height 150 cm on tower (350 cm 17 Oct 2002 - 16 Jun 2004; 150 cm 16 Jun 2004 - 25 Jul 2007)
AIRVAN04
Air temperature at VANMET, probe no. 04 at height 150 cm on tower (450 cm from 17 Oct 2002 to 16 Jun 2004)
AIRVAN05
Air temperature at VANMET, probe no. 05 at height 50 cm; discontinued 5 Oct 1995
DEWCEN01
Dew point temperature at CENMET, probe no. 01 at height 450 cm on tower, calculated
DEWCEN04
Dew point temperature at CENMET, probe no. 04 at height 150 cm on tower, calculated
DEWCS202
Dew point temperature at CS2MET, probe no. 02 at height 150 cm on tower, calculated; begins 14 Apr 1998
DEWH1501
Dew point temperature at H15MET, probe no. 01 at height 450 cm on tower, calculated
DEWH1502
Dew point temperature at H15MET, probe no. 02 at height 150 cm on tower, calculated
DEWPRI01
Dew point temperature at PRIMET, probe no. 01 at height 450 cm on tower, calculated
DEWPRI04
Dew point temperature at PRIMET, probe no. 04 at height 150 cm on tower, calculated
DEWPRI05
Dew point temperature at PRIMET, probe no. 05 at height 150 cm in shelter, calculated; direct measurement before Jul 1988; discontinued 2000
DEWUPL01
Dew point temperature at UPLMET, probe no. 01 at height 450 cm on tower, calculated
DEWUPL04
Dew point temperature at UPLMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 24 Oct 2002 to 18 Jun 2004)
DEWVAN01
Dew point temperature at VANMET, probe no. 01 at height 450 cm on tower, calculated
DEWVAN04
Dew point temperature at VANMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 17 Oct 2002 to 16 Jun 2004)
VPDCEN01
Water vapor pressure deficit at CENMET, probe no. 01 at height 450 cm on tower, calculated
VPDCEN04
Water vapor pressure deficit at CENMET, probe no. 04 at height 150 cm on tower, calculated
VPDCS202
Water vapor pressure deficit at CS2MET, probe no. 02 at height 150 cm on tower, calculated; begins 14 Apr 1998
VPDH1501
Water vapor pressure deficit at H15MET, probe no. 01 at height 450 cm on tower, calculated
VPDH1502
Water vapor pressure deficit at H15MET, probe no. 02 at height 150 cm on tower, calculated
VPDPRI01
Water vapor pressure deficit at PRIMET, probe no. 01 at height 450 cm on tower, calculated
VPDPRI04
Water vapor pressure deficit at PRIMET, probe no. 04 at height 150 cm on tower, calculated
VPDPRI05
Water vapor pressure deficit at PRIMET, probe no. 05 at height 150 cm in cotton region shelter, calculated; discontinued May 2000
VPDUPL01
Water vapor pressure deficit at UPLMET, probe no. 01 at height 450 cm on tower, calculated
VPDUPL04
Water vapor pressure deficit at UPLMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 24 Oct 2002 to 18 Jun 2004)
VPDVAN01
Water vapor pressure deficit at VANMET, probe no. 01 at height 450 cm on tower, calculated
VPDVAN04
Water vapor pressure deficit at VANMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 17 Oct 2002 to 16 Jun 2004)
LYSCEN01
Snow lysimeter at CENMET, probe no. 01
LYSH1501
Snow lysimeter at H15MET, probe no. 01
LYSUPL01
Snow lysimeter at UPLMET, probe no. 01
PARCEN01
Photosynthetically active radiation (PAR) at CENMET, probe no. 1 at height 627 cm
PPTCEN01
Precipitation at CENMET, probe no. 01, stand-alone model
PPTCEN02
Precipitation at CENMET, probe no. 02, shelter-top model
PPTCS201
Precipitation at CS2MET, probe no. 01; Universal rain gauge chart; backup record not digitized beyond 2012
PPTH1501
Precipitation at H15MET, probe no. 01 at height 410 cm prorated to adjacent standard raingage, discontinued 1992
PPTH1502
Precipitation at H15MET, probe no. 02 at height 410 cm
PPTPRI01
Precipitation at PRIMET, probe no. 01 at height 100 cm
PPTPRI02
Precipitation at PRIMET, probe no. 02, stand-alone model; inconsistencies prevent sharing this data; discontinued 2010
PPTUPL01
Precipitation at UPLMET, probe no. 01 at height 457 cm, stand-alone model
PPTUPL02
Precipitation at UPLMET, probe no. 02 at height 627 cm, shelter-top model
PPTVAN01
Precipitation at VANMET, probe no. 01 at height 305 cm, shelter-top model; record ends Feb 1996; discontinued Sep 2001
PPTVAR02
Precipitation at VARMET, probe no. 02, stand-alone model in meadow
RELCEN01
Relative humidity at CENMET, probe no. 01 at height 450 cm
RELCEN04
Relative humidity at CENMET, probe no. 04 at height 150 cm
RELCS201
Relative humidity at CS2MET, probe no. 01 at height 130 cm in cotton shelter; daily min-max hygrothermograph charts; discontinued 1999
RELCS202
Relative humidity at CS2MET, probe no. 02 at height 150 cm
RELH1501
Relative humidity at H15MET, probe no. 01 at height 450 cm
RELH1502
Relative humidity at H15MET, probe no. 02 at height 150 cm
RELPRI01
Relative humidity at PRIMET, probe no. 01 at height 450 cm
RELPRI04
Relative humidity at PRIMET, probe no. 04 at height 150 cm
RELPRI05
Relative humidity at PRIMET, probe no. 05 at height 150 cm in cotton region shelter; discontinued 30 May 2000
RELUPL01
Relative humidity at UPLMET, probe no. 01 at height 450 cm
RELUPL04
Relative humidity at UPLMET, probe no. 04 at height 150 cm (450 cm from 24 Oct 2002 to 18 Jun 2004)
RELVAN01
Relative humidity at VANMET, probe no. 01 at height 450 cm; originally probe was repositioned at 150 cm in summer
RELVAN04
Relative humidity at VANMET, probe no. 04 at height 150 cm (450 cm from 17 Oct 2002 to 16 Jun 2004)
SWCPRI01
Soil water content at PRIMET, probe no. 01 at depth 10 cm
SWCPRI02
Soil water content at PRIMET, probe no. 02 at depth 20 cm
SWCPRI03
Soil water content at PRIMET, probe no. 03 at depth 50 cm
SWCPRI04
Soil water content at PRIMET, probe no. 04 at depth 100 cm
SWCCEN01
Soil water content at CENMET, probe no. 01 at depth 10 cm
SWCCEN02
Soil water content at CENMET, probe no. 02 at depth 20 cm
SWCCEN03
Soil water content at CENMET, probe no. 03 at depth 50 cm
SWCCEN04
Soil water content at CENMET, probe no. 04 at depth 100 cm
SWCUPL01
Soil water content at UPLMET, probe no. 01 at depth 10 cm
SWCUPL02
Soil water content at UPLMET, probe no. 02 at depth 20 cm
SWCUPL03
Soil water content at UPLMET, probe no. 03 at depth 50 cm
SWCUPL04
Soil water content at UPLMET, probe no. 04 at depth 100 cm
SWCVAN01
Soil water content at VANMET, probe no. 01 at depth 10 cm
SWCVAN02
Soil water content at VANMET, probe no. 02 at depth 20 cm
SWCVAN03
Soil water content at VANMET, probe no. 03 at depth 50 cm
SWCVAN04
Soil water content at VANMET, probe no. 04 at depth 100 cm
SMPCEN01
Soil moisture potential at CENMET, probe no. 01 at depth 10 cm; discontinued 13 Nov 2002
SMPCEN02
Soil moisture potential at CENMET, probe no. 02 at depth 20 cm; discontinued 13 Nov 2002
SMPCEN03
Soil moisture potential at CENMET, probe no. 03 at depth 50 cm; discontinued 13 Nov 2002
SMPCEN04
Soil moisture potential at CENMET, probe no. 04 at depth 100 cm; discontinued 13 Nov 2002
SMPPRI01
Soil moisture potential at PRIMET, probe no. 01 at depth 10 cm; discontinued 23 May 2000
SMPPRI02
Soil moisture potential at PRIMET, probe no. 02 at depth 20 cm; discontinued 23 May 2000
SMPPRI03
Soil moisture potential at PRIMET, probe no. 03 at depth 50 cm; discontinued 23 May 2000
SMPPRI04
Soil moisture potential at PRIMET, probe no. 04 at depth 100 cm; discontinued 23 May 2000
SMPUPL01
Soil moisture potential at UPLMET, probe no. 01 at depth 10 cm; discontinued 18 Oct 2001
SMPUPL02
Soil moisture potential at UPLMET, probe no. 02 at depth 20 cm; discontinued 18 Oct 2001
SMPUPL03
Soil moisture potential at UPLMET, probe no. 03 at depth 50 cm; discontinued 18 Oct 2001
SMPUPL04
Soil moisture potential at UPLMET, probe no. 04 at depth 100 cm; discontinued 18 Oct 2001
SMPVAN01
Soil moisture potential at VANMET, probe no. 01 at depth 10 cm; discontinued 9 Sep 2001
SMPVAN02
Soil moisture potential at VANMET, probe no. 02 at depth 20 cm; discontinued 9 Sep 2001
SMPVAN03
Soil moisture potential at VANMET, probe no. 03 at depth 50 cm; discontinued 9 Sep 2001
SMPVAN04
Soil moisture potential at VANMET, probe no. 04 at depth 100 cm; discontinued 9 Sep 2001
SMPVAN05
Soil moisture potential at VANMET, probe no. 05 at depth 30 cm; discontinued 9 Sep 2001
SNOCEN01
Snow water equivalence and depth at CENMET, probe no. 01, snow pillow with snow depth sensor
SNOCEN02
Snow water equivalence and depth at CENMET, probe no. 02, snow depth and calculated snow water around snow pillow
SNOCEN03
Snow water equivalence and depth at CENMET, probe no. 03, average snow course measurement along transect near the station
SNOPRI01
Snow water equivalence and depth at PRIMET, probe no. 01, snow pillow with snow depth sensor
SNOUPL01
Snow water equivalence and depth at UPLMET, probe no. 01, snow pillow with snow depth sensor
SNOUPL02
Snow water equivalence and depth at UPLMET, probe no. 02, snow depth and calculated snow water around snow pillow
SNOUPL03
Snow water equivalence and depth at UPLMET, probe no. 03, average snow course measurement along transect near the station
SNOVAN01
Snow water equivalence and depth at VANMET, probe no. 01, snow pillow with snow depth sensor
SNOVAN02
Snow water equivalence and depth at VANMET, probe no. 02, snow depth and calculated snow water around snow pillow in clearcut
SNOVAN03
Snow moisture and depth at VANMET, probe no. 03, average snow course measurement along transect near the station in the clearcut
SOICEN01
Soil temperature at CENMET, probe no. 01 at depth10 cm
SOICEN02
Soil temperature at CENMET, probe no. 02 at depth 20 cm
SOICEN03
Soil temperature at CENMET, probe no. 03 at depth 50 cm
SOICEN04
Soil temperature at CENMET, probe no. 04 at depth 100 cm
SOIPRI01
Soil temperature at PRIMET, probe no. 01 at depth 10 cm
SOIPRI02
Soil temperature at PRIMET, probe no. 02 at depth 20 cm
SOIPRI03
Soil temperature at PRIMET, probe no. 03 at depth 50 cm
SOIPRI04
Soil temperature at PRIMET, probe no. 04 at depth 100 cm
SOIUPL01
Soil temperature at UPLMET, probe no. 01 at depth 10 cm
SOIUPL02
Soil temperature at UPLMET, probe no. 02 at depth 20 cm
SOIUPL03
Soil temperature at UPLMET, probe no. 03 at depth 50 cm
SOIUPL04
Soil temperature at UPLMET, probe no. 04 at depth 100 cm
SOIVAN01
Soil temperature at VANMET, probe no. 01 at depth 10 cm; discontinued 29 July 2007
SOIVAN02
Soil temperature at VANMET, probe no. 02 at depth 20 cm; discontinued 29 July 2007
SOIVAN03
Soil temperature at VANMET, probe no. 03 at depth 50 cm; discontinued 29 July 2007
SOIVAN04
Soil temperature at VANMET, probe no. 04 at depth 100 cm; discontinued 29 July 2007
SOIVAN05
Soil temperature at VANMET, probe no. 05 at depth 30 cm; discontinued 13 July 1994
SWICEN01
Shortwave incoming solar radiation at CENMET, probe no. 01 at height 625 cm
SWIPRI01
Shortwave incoming solar radiation at PRIMET, probe no. 01 at height 100 cm
SWIUPL01
Shortwave incoming solar radiation at UPLMET, probe no. 01 at height 615 cm
SWIVAN01
Shortwave incoming solar radiation at VANMET, probe no. 01 at height 850 cm
WNDCEN01
Wind speed and direction at CENMET, probe no. 01 at height 1000 cm
WNDH1501
Wind speed and direction at H15MET, probe no. 01 at height 500 cm
WNDPRI01
Wind speed and direction at PRIMET, probe no. 01 at height 1000 cm
WNDUPL01
Wind speed and direction at UPLMET, probe no. 01 at height 1000 cm
WNDVAN01
Wind speed and direction at VANMET, probe no. 01 at height 1000 cm
AIRPRI06
Air temperature at PRIMET, probe no. 06 at height 150 cm on tower with aspirated shield
SNOVAR04
Snow moisture and depth at VARMET, probe no. 04, average snow course measurement along transect in the meadow
AIRPRI07
Air temperature at PRIMET, probe no. 07 at height 250 cm on tower with aspirated shield
AIRPRI08
Air temperature at PRIMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRPRI09
Air temperature at PRIMET, probe no. 09 at height 450 cm on tower with aspirated shield
AIRUPL08
Air temperature at UPLMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRVAN08
Air temperature at VANMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRVAR10
Air temperature at VARMET, probe no. 10 at height 450 cm on stand-alone rain gauge in meadow
ATMPRI01
Atmospheric pressure at PRIMET, probe no. 01 at elevation 430 m corrected to sea level
ATMUPL01
Atmospheric pressure at UPLMET, probe no. 01 at elevation 1294 m corrected to sea level
SWIPRI02
Shortwave incoming solar radiation at PRIMET, probe no. 02 at height 600 cm
SWIVAN02
Shortwave incoming solar radiation at VANMET, probe no. 02 at height 600 cm
WNDPRI02
Wind speed and direction using sonic anemometer at PRIMET, probe no. 02 at height 1000 cm
WNDVAN02
Wind speed and direction using sonic anemometer at VANMET, probe no. 02 at height 1000 cm
PPTCS202
Precipitation at CS2MET, probe no. 02; Noah IV rain gauge
SNOVAR05
Snow moisture and depth at VARMET, probe no. 05 in meadow, snow pillow with snow depth sensor
SOIVAN06
Soil temperature at VANMET, probe no. 06 at depth 10 cm; established 15 Sep 2004
SOIVAN07
Soil temperature at VANMET, probe no. 07 at depth 20 cm; established 15 Sep 2004
SOIVAN08
Soil temperature at VANMET, probe no. 08 at depth 50 cm; established 15 Sep 2004
SOIVAN09
Soil temperature at VANMET, probe no. 09 at depth 100 cm; established 15 Sep 2004
AIRCEN08
Air temperature at CENMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRCS203
Air temperature at CS2MET, probe no. 03 at height 150 cm
RELCS203
Relative humidity at CS2MET, probe no. 03 at height 150 cm
DEWCS203
Dew point temperature at CS2MET, probe no. 03 at height 150 cm on tower, calculated; begins 9 Apr 2015
VPDCS203
Water vapor pressure deficit at CS2MET, probe no. 03 at height 150 cm on tower, calculated; begins 09 Apr 2015; replaces VPDCS202
WNDWS702
Wind speed and direction using sonic anemometer at WS7MET, probe no. 02 at height 1000 cm
WNDCEN02
Wind speed and direction using sonic anemometer at CENMET, probe no. 02 at height 1000 cm
SWIWS701
Shortwave incoming solar radiation at WS7MET, probe no. 01 at height 450 cm
SOIWS701
Soil temperature at WS7MET, probe no. 01 at depth 10 cm; established 6 Dec 2006
SOIWS702
Soil temperature at WS7MET, probe no. 02 at depth 20 cm; established 6 Dec 2006
SOIWS703
Soil temperature at WS7MET, probe no. 03 at depth 50 cm; established 6 Dec 2006
SOIWS704
Soil temperature at WS7MET, probe no. 04 at depth 100 cm; established 6 Dec 2006
ATMWS701
Atmospheric pressure at WS7MET, probe no. 01 at elevation 998 m corrected to sea level
WNDWS701
Wind speed and direction at WS7MET, probe no. 01 at height 1000 cm
WNDWS703
Wind speed and direction at WS7MET, probe no. 03 at height 450 cm (discontinued 16 Sep 2012)
WNDWS704
Wind speed and direction at WS7MET, probe no. 04 at height 150 cm (discontinued 27 Jan 2008)
AIRWS701
Air temperature at WS7MET, probe no. 01 at height 450 cm on tower
AIRWS702
Air temperature at WS7MET, probe no. 02 at height 350 cm on tower
AIRWS703
Air temperature at WS7MET, probe no. 03 at height 250 cm on tower
AIRWS704
Air temperature at WS7MET, probe no. 04 at height 150 cm on tower
AIRWS708
Air temperature at WS7MET, probe no. 08 at height 350 cm on tower with aspirated shield
RELWS701
Relative humidity at WS7MET, probe no. 01 at height 450 cm
RELWS704
Relative humidity at WS7MET, probe no. 01 at height 150 cm
DEWWS701
Dew point temperature at WS7MET, probe no. 01 at height 450 cm on tower, calculated
DEWWS704
Dew point temperature at WS7MET, probe no. 04 at height 150 cm on tower, calculated
VPDWS701
Water vapor pressure deficit at WS7MET, probe no. 01 at height 450 cm on tower, calculated
VPDWS704
Water vapor pressure deficit at WS7MET, probe no. 04 at height 150 cm on tower, calculated
SNOWS701
Snow depth at WS7MET, probe no. 01, snow depth sensor at south site
SNOWS702
Snow depth at WS7MET, probe no. 02, snow depth sensor at west site (discontinued 14 May 2007)
WNDUPL02
Wind speed and direction using sonic anemometer at UPLMET, probe no. 02 at height 1000 cm
AIRCS205
Air temperature at CS2MET, probe no. 05 at height 150 cm

DATE_TIME - datetime (dateTime)

ID: MS00117.DATE_TIME

Date and time in Pacific Standard Time (PST) of sensor reading

Type system: Microsoft SQL Server 2019

Date format: YYYY-MM-DD hh:mm:ss

DEWPT_MEAN - numeric(5,1) (interval)

ID: MS00117.DEWPT_MEAN

Mean dew point temperature over last interval (e.g., 60 minutes)

Type system: Microsoft SQL Server 2019

Unit: degrees Celsius

Precision: 0.100000

Numeric domain: type=real, min=-33.6000 (exclusive=false), max=29.9000 (exclusive=false)

DEWPT_MEAN_FLAG - char(1) (nominal)

ID: MS00117.DEWPT_MEAN_FLAG

Mean dew point temperature flag

Type system: Microsoft SQL Server 2019

Code definitions (6)

E
Estimated value
M
Missing
A
Accepted value has passed all QC tests applied as represented by the quality level
Q
Questionable
B
Sensor buried in snow
P
Fire effects are visible in the data

EVENT_CODE - char(6) (nominal)

ID: MS00117.EVENT_CODE

Any event, disruption in protocol, or unusual conditions that occur at the given date or time and may have an effect on the data values; contact information manager for access to specific details from the field 'Notes' database

Type system: Microsoft SQL Server 2019

Code definitions (11)

INSREM
Sensor is installed or removed
LOGGER
Change in data logger, data logger program, or wiring
METHOD
Change in data collection method
NA
No event is reported (not applicable)
QUALTY
Event may directly affect data quality (individual activities tracked in field notes database)
MAINTE
A maintenance event has occurred
INTPRO
Internal processing may produce an anomalous reading
WEATHR
A weather event has occurred that may affect reading
CALIBR
Associated with the inspection or replacement of sensors for calibration
CLEARD
Site clearing of trees and brush around the meteorological station is being conducted
BURNED
Burning, including cleared trees and brush or wildfire, around the meteorological station or within the watershed (code begins at event initiation)

MS00118 - Water vapor pressure deficit (fine temporal resolution)

Object name: MS00118_v8.txt

Records: 10101891

Attributes: 15

Temporal coverage: 1994-07-15 to 2021-10-01

File size: 878968507 byte

Checksum (MD5): be8976ec882e36ec2aeefd576aeadec3

Format: headers=1, recordDelimiter=\r\n, fieldDelimiter=,, quoteCharacter=", orientation=column

Constraints (2)

primaryKey: PRIMARY
MS00118.DATE_TIME, MS00118.PROBE_CODE, MS00118.SITECODE
notNullConstraint: NOTNULL
MS00118.DATE_TIME, MS00118.ENTITY, MS00118.VPD_MEAN_FLAG, MS00118.PROBE_CODE, MS00118.DBCODE, MS00118.SITECODE, MS00118.HEIGHT, MS00118.EVENT_CODE, MS00118.QC_LEVEL, MS00118.VPD_METHOD, MS00118.VAP_MEAN_FLAG, MS00118.SATVP_MEAN_FLAG

Attributes (15)

DBCODE - char(5) (nominal)

ID: MS00118.DBCODE

FSDB database code

Type system: Microsoft SQL Server 2019

Code definitions (1)

MS001
FSDB Database Code

ENTITY - numeric(2,0) (interval)

ID: MS00118.ENTITY

Entity number

Type system: Microsoft SQL Server 2019

Unit: number

Precision: 1.000000

Numeric domain: type=natural, min=18.0000 (exclusive=false), max=18.0000 (exclusive=false)

SITECODE - char(6) (nominal)

ID: MS00118.SITECODE

Site code for the meteorological measurement station

Type system: Microsoft SQL Server 2019

Code definitions (8)

CENMET
Central Meteorological Station
PRIMET
Primary Meteorological Station
UPLMET
Upper Lookout Meteorological Station
VANMET
Vanilla Leaf Meteorological Station
CS2MET
Climatic Station at Watershed 2
H15MET
High 15 Meteorological Station
VARMET
Vanilla Leaf Meadow Meteorological Station
WS7MET
Watershed 7 Meteorological Station

VPD_METHOD - char(6) (nominal)

ID: MS00118.VPD_METHOD

An indication of the the general methodology and instrumentation used to collect or calculate this vapor pressure deficit data

Type system: Microsoft SQL Server 2019

Code definitions (44)

VPD001
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP35C probe housed in a cotton region shelter at 150 cm height; the mean is output every 60 minutes
VPD002
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 150 cm height; the mean is output every 60 minutes
VPD003
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP35C probe housed in a locally designed PVC radiation shield at 450 cm height; the mean is output every 60 minutes
VPD004
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a locally designed PVC radiation shield at 150 cm height; the mean is output every 60 minutes
VPD005
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a locally designed PVC radiation shield at 450 cm height; the mean is output every 60 minutes
VPD006
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP35C probe housed in a R.M. Young Gill radiation shield at 450 cm height; the mean is output every 60 minutes
VPD007
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; the mean is output every 60 minutes
VPD008
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; the mean is output every 60 minutes
VPD009
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; the mean is output every 15 minutes
VPD010
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; the mean is output every 15 minutes
VPD101
Mean daily vapor pressure deficit is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP35C;cotton region shelter; 150 cm (VPD001)
VPD102
Mean daily vapor pressure deficit is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings.. CS Model HMP35C;PVC radiation shield; 150 cm (VPD002)
VPD103
Mean daily vapor pressure deficit is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP35C;PVC radiation shield; 450 cm VPD003)
VPD104
Mean daily vapor pressure deficit is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP45C;PVC radiation shield; 150 cm (VPD004)
VPD105
Mean daily vapor pressure deficit is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP45C;PVC radiation shield; 450 cm (VPD005)
VPD106
Mean daily vapor pressure deficit is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP35C;RM Young Gill shield; 450 cm (VPD006)
VPD107
Mean daily vapor pressure deficit is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP45C;RM Young Gill shield; 150 cm (VPD007)
VPD108
Mean daily vapor pressure deficit is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP45C;RM Young Gill shield; 450 cm (VPD008)
VPD109
Mean daily vapor pressure deficit is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP45C;RM Young Gill shield; 150 cm (VPD009)
VPD110
Mean daily vapor pressure deficit is calculated by the Campbell Scientific datalogger from air temperature and relative humid sampled every 15 seconds. Max-min values are based on 15 second readings. CS Model HMP45C;RM Young Gill shield; 450 cm (VPD010)
VPD207
Mean daily vapor pressure deficit is post-calculated from all hourly mean values for the day. Max-min values are based on hourly mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 150 cm (See method VPD007)
VPD307
Mean daily vapor pressure deficit is post-calculated from all hourly mean values for the day. Max-min values are calculated from 15 second readings of air temperature and relative humidity. CS Model HMP45C; RM Young Gill shield;150 cm (See method VPD007)
VPD208
Mean daily vapor pressure deficit is post-calculated from all hourly mean values for the day. Max-min values are based on hourly mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 450 cm (See method VPD008)
VPD308
Mean daily vapor pressure deficit is post-calculated from all hourly mean values for the day. Max-min values are calculated from 15 second readings of air temperature and relative humidity. CS Model HMP45C; RM Young Gill shield;450 cm (See method VPD008)
VPD209
Mean daily vapor pressure deficit is post-calculated from all 15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 150 cm (See method VPD009)
VPD309
Mean daily vapor pressure deficit is post-calculated from all 15 minute mean values for the day. Max-min values are calculated from 15 second readings of air temperature and relative humidity. CS Model HMP45C; RM Young Gill shield; 150 cm (method VPD009)
VPD210
Mean daily vapor pressure deficit is post-calculated from all 15 minute mean values for the day. Max-min values are based on 15 minute mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 450 cm (See method VPD010)
VPD310
Mean daily vapor pressure deficit is post-calculated from all 15 minute mean values for the day. Max-min values are calculated from 15 second readings of air temperature and relative humidity. CS Model HMP45C; RM Young Gill shield; 450 cm (method VPD010)
VPD011
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 150 cm height; the mean is output every 5 minutes
VPD012
Vapor pressure deficit is calculated from air temperature and relative humidity sampled every 15 seconds by a Campbell Scientific model HMP45C probe housed in a R.M. Young Gill radiation shield at 450 cm height; the mean is output every 5 minutes
VPD211
Mean daily vapor pressure deficit is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 150 cm (See method VPD011)
VPD212
Mean daily vapor pressure deficit is post-calculated from all 5 minute mean values for the day. Max-min values are based on 5 minute mean intervals and not instantaneous values. CS Model HMP45C; RM Young Gill shield; 450 cm (See method VPD012)
VPD213
Mean daily vapor pressure deficit and vp are post-calculated from all 5 minute mean air temp and rh values for the day. Max-min values are based on 5 minute means not instantaneous values. CS Model HMP45C; RM Young Gill shield; 150 cm (See method VPD013)
VPD214
Mean daily vapor pressure deficit and vp are post-calculated from all 5 minute mean air temp and rh values for the day. Max-min values are based on 5 minute means not instantaneous values. CS Model HMP45C; RM Young Gill shield; 450 cm (See method VPD014)
VPD215
Mean daily vapor pressure deficit and vp are post-calculated from all 5 minute mean air temp and rh values for the day. Max-min values are based on 5 minute means not instantaneous values. CS Model HC2S3-L; RMYoung Gill shield; 150 cm (See method VPD015)
VPD316
Mean daily vapor pressure deficit and vp are post-calculated from all 15 minute mean air temp and rh values for the day. Max-min values are based on 15 minute means not instantaneous values. CSModel HMP45C; RMYoung Gill shield; 150 cm (See method VPD016)
VPD317
Mean daily vapor pressure deficit and vp are post-calculated from all 15 minute mean air temp and rh values for the day. Max-min values are based on 15 minute means not instantaneous values. CSModel HMP45C; RMYoung Gill shield; 450 cm (See method VPD017)
VPD013
Vapor pressure deficit is post-calculated from 5-minute mean air temperature and relative humidity from a CS model HMP45C probe housed in a R.M.Young Gill radiation shield at 150 cm height; VPD, VP, SatVP means are output at 5 minute resolution
VPD014
Vapor pressure deficit is post-calculated from 5-minute mean air temperature and relative humidity from a CS model HMP45C probe housed in a R.M.Young Gill radiation shield at 450 cm height; VPD, VP, SatVP means are output at 5 minute resolution
VPD015
Vapor pressure deficit is post-calculated from 5-minute mean air temperature and relative humidity from a CS model HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; VPD, VP, SatVP means are output at 5 minute resolution
VPD016
Vapor pressure deficit is post-calculated from 15-minute mean air temperature and relative humidity from a CS model HMP45C probe housed in a R.M.Young Gill radiation shield at 150 cm height; VPD, VP, SatVP means are output at 15 minute resolution
VPD017
Vapor pressure deficit is post-calculated from 15-minute mean air temperature and relative humidity from a CS model HMP45C probe housed in a R.M.Young Gill radiation shield at 450 cm height; VPD, VP, SatVP means are output at 15 minute resolution
VPD018
Vapor pressure deficit is post-calculated from air temperature and relative humidity sampled by a Campbell Scientific (CS) CR1000 data logger and CS HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; sampling rate 10 seconds; 5-minute output is the mean of 30 samples.
VPD118
Vapor pressure deficit is post-calculated from air temperature and relative humidity sampled by a Campbell Scientific (CS) CR1000 data logger and CS HC2S3-L probe housed in a R.M. Young Gill radiation shield at 150 cm height; sampling rate 10 seconds; 5-minute output is the mean of 30 samples ; daily mean, mean minimum, and mean maximum are post-calculated from five-minute mean values.

HEIGHT - numeric(4,0) (ratio)

ID: MS00118.HEIGHT

Height of sensor from ground surface

Type system: Microsoft SQL Server 2019

Unit: centimeters

Precision: 1.000000

Numeric domain: type=whole, min=150.0000 (exclusive=false), max=450.0000 (exclusive=false)

QC_LEVEL - char(2) (nominal)

ID: MS00118.QC_LEVEL

Quality control flag indicates level of quality checking performed including an indication of "provisional" data.

Type system: Microsoft SQL Server 2019

Code definitions (5)

1P
Data is provisional and subject to revision - preliminary quality checks have been performed
1A
Data is published and unlikely to change - automated range checking and manual review has been conducted. Quality is indicated in data value qualifier flags.
2A
Data is published and unlikely to change - Level 1A data has been modified such that data gaps may be filled or problem data may be removed
2D
Data is published and unlikely to change - data is derived or aggregated from published data of level 2A
1D
Data is published and unlikely to change - data is derived or aggregated from published data of level 1A

PROBE_CODE - char(8) (nominal)

ID: MS00118.PROBE_CODE

Probe number code indicates the measurement type, site, and sensor number (e.g., AIRPRI01)

Type system: Microsoft SQL Server 2019

Code definitions (194)

AIRCEN01
Air temperature at CENMET, probe no. 01 at height 450 cm on tower
AIRCEN02
Air temperature at CENMET, probe no. 02 at height 350 cm on tower (450 cm from 4 Nov 2002 to 24 Sep 2007)
AIRCEN03
Air temperature at CENMET, probe no. 03 at height 250 cm on tower (150 cm from 31 Oct 2002 to 24 Sep 2007)
AIRCEN04
Air temperature at CENMET, probe no. 04 at height 150 cm on tower
AIRCS201
Air temperature at CS2MET, probe no. 01 at height 130 cm in cotton shelter; daily min-max hygrothermograph charts; discontinued 1999
AIRCS202
Air temperature at CS2MET, probe no. 02 at height 150 cm
AIRH1501
Air temperature at H15MET, probe no. 01 at height 450 cm
AIRH1502
Air temperature at H15MET, probe no. 02 at height 150 cm
AIRPRI01
Air temperature at PRIMET, probe no. 01 at height 450 cm on tower
AIRPRI02
Air temperature at PRIMET, probe no. 02 at height 350 cm on tower (450 cm from 24 Sep 2002 to 30 Apr 2007)
AIRPRI03
Air temperature at PRIMET, probe no. 03 at height 250 cm on tower (150 cm from 24 Sep 2002 to 6 Jul 2003; 24 Jun 2004 to 30 Apr 2007)
AIRPRI04
Air temperature at PRIMET, probe no. 04 at height 150 cm on tower
AIRPRI05
Air temperature at PRIMET, probe no. 05 at height 150 cm in cotton region shelter; discontinued 14 June 2004
AIRUPL01
Air temperature at UPLMET, probe no. 01 at height 450 cm on tower
AIRUPL02
Air temperature at UPLMET, probe no. 02 at height 350 cm on tower (450 cm from 28 Jun 2004 to 16 Jul 2007)
AIRUPL03
Air temperature at UPLMET, probe no. 03 at height 250 cm on tower (350 cm 21 Oct 2002 - 22 Jul 2004; 150 cm 22 Jul 2004 - 16 Jul 2007)
AIRUPL04
Air temperature at UPLMET, probe no. 04 at height 150 cm on tower (450 cm from 24 Oct 2002 to 18 Jun 2004)
AIRVAN01
Air temperature at VANMET, probe no. 01 at height 450 cm on tower
AIRVAN02
Air temperature at VANMET, probe no. 02 at height 350 cm on tower (450 cm from 16 Jun 2004 to 25 Jul 2007)
AIRVAN03
Air temperature at VANMET, probe no. 03 at height 150 cm on tower (350 cm 17 Oct 2002 - 16 Jun 2004; 150 cm 16 Jun 2004 - 25 Jul 2007)
AIRVAN04
Air temperature at VANMET, probe no. 04 at height 150 cm on tower (450 cm from 17 Oct 2002 to 16 Jun 2004)
AIRVAN05
Air temperature at VANMET, probe no. 05 at height 50 cm; discontinued 5 Oct 1995
DEWCEN01
Dew point temperature at CENMET, probe no. 01 at height 450 cm on tower, calculated
DEWCEN04
Dew point temperature at CENMET, probe no. 04 at height 150 cm on tower, calculated
DEWCS202
Dew point temperature at CS2MET, probe no. 02 at height 150 cm on tower, calculated; begins 14 Apr 1998
DEWH1501
Dew point temperature at H15MET, probe no. 01 at height 450 cm on tower, calculated
DEWH1502
Dew point temperature at H15MET, probe no. 02 at height 150 cm on tower, calculated
DEWPRI01
Dew point temperature at PRIMET, probe no. 01 at height 450 cm on tower, calculated
DEWPRI04
Dew point temperature at PRIMET, probe no. 04 at height 150 cm on tower, calculated
DEWPRI05
Dew point temperature at PRIMET, probe no. 05 at height 150 cm in shelter, calculated; direct measurement before Jul 1988; discontinued 2000
DEWUPL01
Dew point temperature at UPLMET, probe no. 01 at height 450 cm on tower, calculated
DEWUPL04
Dew point temperature at UPLMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 24 Oct 2002 to 18 Jun 2004)
DEWVAN01
Dew point temperature at VANMET, probe no. 01 at height 450 cm on tower, calculated
DEWVAN04
Dew point temperature at VANMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 17 Oct 2002 to 16 Jun 2004)
VPDCEN01
Water vapor pressure deficit at CENMET, probe no. 01 at height 450 cm on tower, calculated
VPDCEN04
Water vapor pressure deficit at CENMET, probe no. 04 at height 150 cm on tower, calculated
VPDCS202
Water vapor pressure deficit at CS2MET, probe no. 02 at height 150 cm on tower, calculated; begins 14 Apr 1998
VPDH1501
Water vapor pressure deficit at H15MET, probe no. 01 at height 450 cm on tower, calculated
VPDH1502
Water vapor pressure deficit at H15MET, probe no. 02 at height 150 cm on tower, calculated
VPDPRI01
Water vapor pressure deficit at PRIMET, probe no. 01 at height 450 cm on tower, calculated
VPDPRI04
Water vapor pressure deficit at PRIMET, probe no. 04 at height 150 cm on tower, calculated
VPDPRI05
Water vapor pressure deficit at PRIMET, probe no. 05 at height 150 cm in cotton region shelter, calculated; discontinued May 2000
VPDUPL01
Water vapor pressure deficit at UPLMET, probe no. 01 at height 450 cm on tower, calculated
VPDUPL04
Water vapor pressure deficit at UPLMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 24 Oct 2002 to 18 Jun 2004)
VPDVAN01
Water vapor pressure deficit at VANMET, probe no. 01 at height 450 cm on tower, calculated
VPDVAN04
Water vapor pressure deficit at VANMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 17 Oct 2002 to 16 Jun 2004)
LYSCEN01
Snow lysimeter at CENMET, probe no. 01
LYSH1501
Snow lysimeter at H15MET, probe no. 01
LYSUPL01
Snow lysimeter at UPLMET, probe no. 01
PARCEN01
Photosynthetically active radiation (PAR) at CENMET, probe no. 1 at height 627 cm
PPTCEN01
Precipitation at CENMET, probe no. 01, stand-alone model
PPTCEN02
Precipitation at CENMET, probe no. 02, shelter-top model
PPTCS201
Precipitation at CS2MET, probe no. 01; Universal rain gauge chart; backup record not digitized beyond 2012
PPTH1501
Precipitation at H15MET, probe no. 01 at height 410 cm prorated to adjacent standard raingage, discontinued 1992
PPTH1502
Precipitation at H15MET, probe no. 02 at height 410 cm
PPTPRI01
Precipitation at PRIMET, probe no. 01 at height 100 cm
PPTPRI02
Precipitation at PRIMET, probe no. 02, stand-alone model; inconsistencies prevent sharing this data; discontinued 2010
PPTUPL01
Precipitation at UPLMET, probe no. 01 at height 457 cm, stand-alone model
PPTUPL02
Precipitation at UPLMET, probe no. 02 at height 627 cm, shelter-top model
PPTVAN01
Precipitation at VANMET, probe no. 01 at height 305 cm, shelter-top model; record ends Feb 1996; discontinued Sep 2001
PPTVAR02
Precipitation at VARMET, probe no. 02, stand-alone model in meadow
RELCEN01
Relative humidity at CENMET, probe no. 01 at height 450 cm
RELCEN04
Relative humidity at CENMET, probe no. 04 at height 150 cm
RELCS201
Relative humidity at CS2MET, probe no. 01 at height 130 cm in cotton shelter; daily min-max hygrothermograph charts; discontinued 1999
RELCS202
Relative humidity at CS2MET, probe no. 02 at height 150 cm
RELH1501
Relative humidity at H15MET, probe no. 01 at height 450 cm
RELH1502
Relative humidity at H15MET, probe no. 02 at height 150 cm
RELPRI01
Relative humidity at PRIMET, probe no. 01 at height 450 cm
RELPRI04
Relative humidity at PRIMET, probe no. 04 at height 150 cm
RELPRI05
Relative humidity at PRIMET, probe no. 05 at height 150 cm in cotton region shelter; discontinued 30 May 2000
RELUPL01
Relative humidity at UPLMET, probe no. 01 at height 450 cm
RELUPL04
Relative humidity at UPLMET, probe no. 04 at height 150 cm (450 cm from 24 Oct 2002 to 18 Jun 2004)
RELVAN01
Relative humidity at VANMET, probe no. 01 at height 450 cm; originally probe was repositioned at 150 cm in summer
RELVAN04
Relative humidity at VANMET, probe no. 04 at height 150 cm (450 cm from 17 Oct 2002 to 16 Jun 2004)
SWCPRI01
Soil water content at PRIMET, probe no. 01 at depth 10 cm
SWCPRI02
Soil water content at PRIMET, probe no. 02 at depth 20 cm
SWCPRI03
Soil water content at PRIMET, probe no. 03 at depth 50 cm
SWCPRI04
Soil water content at PRIMET, probe no. 04 at depth 100 cm
SWCCEN01
Soil water content at CENMET, probe no. 01 at depth 10 cm
SWCCEN02
Soil water content at CENMET, probe no. 02 at depth 20 cm
SWCCEN03
Soil water content at CENMET, probe no. 03 at depth 50 cm
SWCCEN04
Soil water content at CENMET, probe no. 04 at depth 100 cm
SWCUPL01
Soil water content at UPLMET, probe no. 01 at depth 10 cm
SWCUPL02
Soil water content at UPLMET, probe no. 02 at depth 20 cm
SWCUPL03
Soil water content at UPLMET, probe no. 03 at depth 50 cm
SWCUPL04
Soil water content at UPLMET, probe no. 04 at depth 100 cm
SWCVAN01
Soil water content at VANMET, probe no. 01 at depth 10 cm
SWCVAN02
Soil water content at VANMET, probe no. 02 at depth 20 cm
SWCVAN03
Soil water content at VANMET, probe no. 03 at depth 50 cm
SWCVAN04
Soil water content at VANMET, probe no. 04 at depth 100 cm
SMPCEN01
Soil moisture potential at CENMET, probe no. 01 at depth 10 cm; discontinued 13 Nov 2002
SMPCEN02
Soil moisture potential at CENMET, probe no. 02 at depth 20 cm; discontinued 13 Nov 2002
SMPCEN03
Soil moisture potential at CENMET, probe no. 03 at depth 50 cm; discontinued 13 Nov 2002
SMPCEN04
Soil moisture potential at CENMET, probe no. 04 at depth 100 cm; discontinued 13 Nov 2002
SMPPRI01
Soil moisture potential at PRIMET, probe no. 01 at depth 10 cm; discontinued 23 May 2000
SMPPRI02
Soil moisture potential at PRIMET, probe no. 02 at depth 20 cm; discontinued 23 May 2000
SMPPRI03
Soil moisture potential at PRIMET, probe no. 03 at depth 50 cm; discontinued 23 May 2000
SMPPRI04
Soil moisture potential at PRIMET, probe no. 04 at depth 100 cm; discontinued 23 May 2000
SMPUPL01
Soil moisture potential at UPLMET, probe no. 01 at depth 10 cm; discontinued 18 Oct 2001
SMPUPL02
Soil moisture potential at UPLMET, probe no. 02 at depth 20 cm; discontinued 18 Oct 2001
SMPUPL03
Soil moisture potential at UPLMET, probe no. 03 at depth 50 cm; discontinued 18 Oct 2001
SMPUPL04
Soil moisture potential at UPLMET, probe no. 04 at depth 100 cm; discontinued 18 Oct 2001
SMPVAN01
Soil moisture potential at VANMET, probe no. 01 at depth 10 cm; discontinued 9 Sep 2001
SMPVAN02
Soil moisture potential at VANMET, probe no. 02 at depth 20 cm; discontinued 9 Sep 2001
SMPVAN03
Soil moisture potential at VANMET, probe no. 03 at depth 50 cm; discontinued 9 Sep 2001
SMPVAN04
Soil moisture potential at VANMET, probe no. 04 at depth 100 cm; discontinued 9 Sep 2001
SMPVAN05
Soil moisture potential at VANMET, probe no. 05 at depth 30 cm; discontinued 9 Sep 2001
SNOCEN01
Snow water equivalence and depth at CENMET, probe no. 01, snow pillow with snow depth sensor
SNOCEN02
Snow water equivalence and depth at CENMET, probe no. 02, snow depth and calculated snow water around snow pillow
SNOCEN03
Snow water equivalence and depth at CENMET, probe no. 03, average snow course measurement along transect near the station
SNOPRI01
Snow water equivalence and depth at PRIMET, probe no. 01, snow pillow with snow depth sensor
SNOUPL01
Snow water equivalence and depth at UPLMET, probe no. 01, snow pillow with snow depth sensor
SNOUPL02
Snow water equivalence and depth at UPLMET, probe no. 02, snow depth and calculated snow water around snow pillow
SNOUPL03
Snow water equivalence and depth at UPLMET, probe no. 03, average snow course measurement along transect near the station
SNOVAN01
Snow water equivalence and depth at VANMET, probe no. 01, snow pillow with snow depth sensor
SNOVAN02
Snow water equivalence and depth at VANMET, probe no. 02, snow depth and calculated snow water around snow pillow in clearcut
SNOVAN03
Snow moisture and depth at VANMET, probe no. 03, average snow course measurement along transect near the station in the clearcut
SOICEN01
Soil temperature at CENMET, probe no. 01 at depth10 cm
SOICEN02
Soil temperature at CENMET, probe no. 02 at depth 20 cm
SOICEN03
Soil temperature at CENMET, probe no. 03 at depth 50 cm
SOICEN04
Soil temperature at CENMET, probe no. 04 at depth 100 cm
SOIPRI01
Soil temperature at PRIMET, probe no. 01 at depth 10 cm
SOIPRI02
Soil temperature at PRIMET, probe no. 02 at depth 20 cm
SOIPRI03
Soil temperature at PRIMET, probe no. 03 at depth 50 cm
SOIPRI04
Soil temperature at PRIMET, probe no. 04 at depth 100 cm
SOIUPL01
Soil temperature at UPLMET, probe no. 01 at depth 10 cm
SOIUPL02
Soil temperature at UPLMET, probe no. 02 at depth 20 cm
SOIUPL03
Soil temperature at UPLMET, probe no. 03 at depth 50 cm
SOIUPL04
Soil temperature at UPLMET, probe no. 04 at depth 100 cm
SOIVAN01
Soil temperature at VANMET, probe no. 01 at depth 10 cm; discontinued 29 July 2007
SOIVAN02
Soil temperature at VANMET, probe no. 02 at depth 20 cm; discontinued 29 July 2007
SOIVAN03
Soil temperature at VANMET, probe no. 03 at depth 50 cm; discontinued 29 July 2007
SOIVAN04
Soil temperature at VANMET, probe no. 04 at depth 100 cm; discontinued 29 July 2007
SOIVAN05
Soil temperature at VANMET, probe no. 05 at depth 30 cm; discontinued 13 July 1994
SWICEN01
Shortwave incoming solar radiation at CENMET, probe no. 01 at height 625 cm
SWIPRI01
Shortwave incoming solar radiation at PRIMET, probe no. 01 at height 100 cm
SWIUPL01
Shortwave incoming solar radiation at UPLMET, probe no. 01 at height 615 cm
SWIVAN01
Shortwave incoming solar radiation at VANMET, probe no. 01 at height 850 cm
WNDCEN01
Wind speed and direction at CENMET, probe no. 01 at height 1000 cm
WNDH1501
Wind speed and direction at H15MET, probe no. 01 at height 500 cm
WNDPRI01
Wind speed and direction at PRIMET, probe no. 01 at height 1000 cm
WNDUPL01
Wind speed and direction at UPLMET, probe no. 01 at height 1000 cm
WNDVAN01
Wind speed and direction at VANMET, probe no. 01 at height 1000 cm
AIRPRI06
Air temperature at PRIMET, probe no. 06 at height 150 cm on tower with aspirated shield
SNOVAR04
Snow moisture and depth at VARMET, probe no. 04, average snow course measurement along transect in the meadow
AIRPRI07
Air temperature at PRIMET, probe no. 07 at height 250 cm on tower with aspirated shield
AIRPRI08
Air temperature at PRIMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRPRI09
Air temperature at PRIMET, probe no. 09 at height 450 cm on tower with aspirated shield
AIRUPL08
Air temperature at UPLMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRVAN08
Air temperature at VANMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRVAR10
Air temperature at VARMET, probe no. 10 at height 450 cm on stand-alone rain gauge in meadow
ATMPRI01
Atmospheric pressure at PRIMET, probe no. 01 at elevation 430 m corrected to sea level
ATMUPL01
Atmospheric pressure at UPLMET, probe no. 01 at elevation 1294 m corrected to sea level
SWIPRI02
Shortwave incoming solar radiation at PRIMET, probe no. 02 at height 600 cm
SWIVAN02
Shortwave incoming solar radiation at VANMET, probe no. 02 at height 600 cm
WNDPRI02
Wind speed and direction using sonic anemometer at PRIMET, probe no. 02 at height 1000 cm
WNDVAN02
Wind speed and direction using sonic anemometer at VANMET, probe no. 02 at height 1000 cm
PPTCS202
Precipitation at CS2MET, probe no. 02; Noah IV rain gauge
SNOVAR05
Snow moisture and depth at VARMET, probe no. 05 in meadow, snow pillow with snow depth sensor
SOIVAN06
Soil temperature at VANMET, probe no. 06 at depth 10 cm; established 15 Sep 2004
SOIVAN07
Soil temperature at VANMET, probe no. 07 at depth 20 cm; established 15 Sep 2004
SOIVAN08
Soil temperature at VANMET, probe no. 08 at depth 50 cm; established 15 Sep 2004
SOIVAN09
Soil temperature at VANMET, probe no. 09 at depth 100 cm; established 15 Sep 2004
AIRCEN08
Air temperature at CENMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRCS203
Air temperature at CS2MET, probe no. 03 at height 150 cm
RELCS203
Relative humidity at CS2MET, probe no. 03 at height 150 cm
DEWCS203
Dew point temperature at CS2MET, probe no. 03 at height 150 cm on tower, calculated; begins 9 Apr 2015
VPDCS203
Water vapor pressure deficit at CS2MET, probe no. 03 at height 150 cm on tower, calculated; begins 09 Apr 2015; replaces VPDCS202
WNDWS702
Wind speed and direction using sonic anemometer at WS7MET, probe no. 02 at height 1000 cm
WNDCEN02
Wind speed and direction using sonic anemometer at CENMET, probe no. 02 at height 1000 cm
SWIWS701
Shortwave incoming solar radiation at WS7MET, probe no. 01 at height 450 cm
SOIWS701
Soil temperature at WS7MET, probe no. 01 at depth 10 cm; established 6 Dec 2006
SOIWS702
Soil temperature at WS7MET, probe no. 02 at depth 20 cm; established 6 Dec 2006
SOIWS703
Soil temperature at WS7MET, probe no. 03 at depth 50 cm; established 6 Dec 2006
SOIWS704
Soil temperature at WS7MET, probe no. 04 at depth 100 cm; established 6 Dec 2006
ATMWS701
Atmospheric pressure at WS7MET, probe no. 01 at elevation 998 m corrected to sea level
WNDWS701
Wind speed and direction at WS7MET, probe no. 01 at height 1000 cm
WNDWS703
Wind speed and direction at WS7MET, probe no. 03 at height 450 cm (discontinued 16 Sep 2012)
WNDWS704
Wind speed and direction at WS7MET, probe no. 04 at height 150 cm (discontinued 27 Jan 2008)
AIRWS701
Air temperature at WS7MET, probe no. 01 at height 450 cm on tower
AIRWS702
Air temperature at WS7MET, probe no. 02 at height 350 cm on tower
AIRWS703
Air temperature at WS7MET, probe no. 03 at height 250 cm on tower
AIRWS704
Air temperature at WS7MET, probe no. 04 at height 150 cm on tower
AIRWS708
Air temperature at WS7MET, probe no. 08 at height 350 cm on tower with aspirated shield
RELWS701
Relative humidity at WS7MET, probe no. 01 at height 450 cm
RELWS704
Relative humidity at WS7MET, probe no. 01 at height 150 cm
DEWWS701
Dew point temperature at WS7MET, probe no. 01 at height 450 cm on tower, calculated
DEWWS704
Dew point temperature at WS7MET, probe no. 04 at height 150 cm on tower, calculated
VPDWS701
Water vapor pressure deficit at WS7MET, probe no. 01 at height 450 cm on tower, calculated
VPDWS704
Water vapor pressure deficit at WS7MET, probe no. 04 at height 150 cm on tower, calculated
SNOWS701
Snow depth at WS7MET, probe no. 01, snow depth sensor at south site
SNOWS702
Snow depth at WS7MET, probe no. 02, snow depth sensor at west site (discontinued 14 May 2007)
WNDUPL02
Wind speed and direction using sonic anemometer at UPLMET, probe no. 02 at height 1000 cm
AIRCS205
Air temperature at CS2MET, probe no. 05 at height 150 cm

DATE_TIME - datetime (dateTime)

ID: MS00118.DATE_TIME

Date and time in Pacific Standard Time (PST) of sensor reading

Type system: Microsoft SQL Server 2019

Date format: YYYY-MM-DD hh:mm:ss

VPD_MEAN - numeric(5,1) (ratio)

ID: MS00118.VPD_MEAN

Mean vapor pressure deficit over the last interval (e.g., 60 minutes)

Type system: Microsoft SQL Server 2019

Unit: millibars

Precision: 0.100000

Numeric domain: type=real, min=0.0000 (exclusive=false), max=85.0000 (exclusive=false)

VPD_MEAN_FLAG - char(1) (nominal)

ID: MS00118.VPD_MEAN_FLAG

Mean vapor pressure deficit flag

Type system: Microsoft SQL Server 2019

Code definitions (6)

E
Estimated value
M
Missing
Q
Questionable
A
Accepted value has passed all QC tests applied as represented by the quality level
B
Sensor buried in snow
P
Fire effects are visible in the data

VAP_MEAN - numeric(5,1) (ratio)

ID: MS00118.VAP_MEAN

Mean vapor pressure over the last interval (e.g., 60 minutes)

Type system: Microsoft SQL Server 2019

Unit: millibars

Precision: 0.100000

Numeric domain: type=real, min=0.4000 (exclusive=false), max=41.0000 (exclusive=false)

VAP_MEAN_FLAG - char(1) (nominal)

ID: MS00118.VAP_MEAN_FLAG

Mean vapor pressure flag

Type system: Microsoft SQL Server 2019

Code definitions (6)

A
Accepted value has passed all QC tests applied as represented by the quality level
M
Missing
E
Estimated value
Q
Questionable
B
Sensor buried in snow
P
Fire effects are visible in the data

SATVP_MEAN - numeric(5,1) (ratio)

ID: MS00118.SATVP_MEAN

Mean saturated vapor pressure over the last interval (e.g., 60 minutes)

Type system: Microsoft SQL Server 2019

Unit: millibars

Precision: 0.100000

Numeric domain: type=real, min=0.9000 (exclusive=false), max=84.6000 (exclusive=false)

SATVP_MEAN_FLAG - char(1) (nominal)

ID: MS00118.SATVP_MEAN_FLAG

Mean saturated vapor pressure flag

Type system: Microsoft SQL Server 2019

Code definitions (6)

A
Accepted value has passed all QC tests applied as represented by the quality level
E
Estimated value
M
Missing
Q
Questionable
B
Sensor buried in snow
P
Fire effects are visible in the data

EVENT_CODE - char(6) (nominal)

ID: MS00118.EVENT_CODE

Any event, disruption in protocol, or unusual conditions that occur at the given date or time and may have an effect on the data values; contact information manager for access to specific details from the field 'Notes' database

Type system: Microsoft SQL Server 2019

Code definitions (11)

INSREM
Sensor is installed or removed
LOGGER
Change in data logger, data logger program, or wiring
METHOD
Change in data collection method
NA
No event is reported (not applicable)
QUALTY
Event may directly affect data quality (individual activities tracked in field notes database)
MAINTE
A maintenance event has occurred
INTPRO
Internal processing may produce an anomalous reading
WEATHR
A weather event has occurred that may affect reading
CALIBR
Associated with the inspection or replacement of sensors for calibration
CLEARD
Site clearing of trees and brush around the meteorological station is being conducted
BURNED
Burning, including cleared trees and brush or wildfire, around the meteorological station or within the watershed (code begins at event initiation)

MS00136 - Atmospheric pressure (fine temporal resolution)

Object name: MS00136_v4.txt

Records: 2537884

Attributes: 11

Temporal coverage: 2009-10-09 to 2024-10-01

File size: 204040709 byte

Checksum (MD5): 1bcdf54af73ed436a15c404d01daf052

Format: headers=1, recordDelimiter=\r\n, fieldDelimiter=,, quoteCharacter=", orientation=column

Constraints (2)

primaryKey: PRIMARY
MS00136.DATE_TIME, MS00136.PROBE_CODE, MS00136.SITECODE
notNullConstraint: NOTNULL
MS00136.DATE_TIME, MS00136.ENTITY, MS00136.PROBE_CODE, MS00136.DBCODE, MS00136.SITECODE, MS00136.EVENT_CODE, MS00136.QC_LEVEL, MS00136.ATMPRESS_METHOD, MS00136.ATMPRESS_INST_FLAG, MS00136.ELEVATION

Attributes (11)

DBCODE - char(5) (nominal)

ID: MS00136.DBCODE

FSDB database code

Type system: Microsoft SQL Server 2019

Code definitions (1)

MS001
FSDB Database Code

ENTITY - numeric(2,0) (interval)

ID: MS00136.ENTITY

Entity number

Type system: Microsoft SQL Server 2019

Unit: number

Precision: 1.000000

Numeric domain: type=natural, min=36.0000 (exclusive=false), max=36.0000 (exclusive=false)

SITECODE - char(6) (nominal)

ID: MS00136.SITECODE

Site code for the meteorological measurement station

Type system: Microsoft SQL Server 2019

Code definitions (8)

CENMET
Central Meteorological Station
PRIMET
Primary Meteorological Station
UPLMET
Upper Lookout Meteorological Station
VANMET
Vanilla Leaf Meteorological Station
CS2MET
Climatic Station at Watershed 2
H15MET
High 15 Meteorological Station
VARMET
Vanilla Leaf Meadow Meteorological Station
WS7MET
Watershed 7 Meteorological Station

ATMPRESS_METHOD - char(6) (nominal)

ID: MS00136.ATMPRESS_METHOD

An indication of the the general methodology and instrumentation used to collect this atmospheric pressure data

Type system: Microsoft SQL Server 2019

Code definitions (5)

ATM001
Atmospheric pressure is sampled by a Campbell Scientific 106 barometric pressure sensor and pressure is corrected to sea level; instantaneous pressure is output every 15 minutes
ATM002
Atmospheric pressure is sampled by a Campbell Scientific 106 barometric pressure sensor and pressure is corrected to sea level; instantaneous pressure is output every 5 minutes
ATM003
Atmospheric pressure is sampled by a Campbell Scientific 106 barometric pressure sensor and pressure is corrected to sea level; instantaneous pressure is output every 10 minutes
ATM101
Mean daily atm pressure is post-calculated from all 15 minute instantaneous values for the day. Max-min values are based on instantaneous 15 second readings. CS Model 106; pressure is corrected to sea level (See ATM001)
ATM102
Mean daily atm pressure is post-calculated from all 5 minute instantaneous values for the day. Max-min values are based on instantaneous 5 second readings. CS Model 106; pressure is corrected to sea level (See ATM002)

ELEVATION - numeric(4,0) (ratio)

ID: MS00136.ELEVATION

Elevation used to correct atmospheric pressure to mean sea level

Type system: Microsoft SQL Server 2019

Unit: meters

Precision: 1

Numeric domain: type=whole, min=430.0000 (exclusive=false), max=1294.0000 (exclusive=false)

QC_LEVEL - char(2) (nominal)

ID: MS00136.QC_LEVEL

Quality control flag indicates level of quality checking performed including an indication of "provisional" data.

Type system: Microsoft SQL Server 2019

Code definitions (5)

1P
Data is provisional and subject to revision - preliminary quality checks have been performed
1A
Data is published and unlikely to change - automated range checking and manual review has been conducted. Quality is indicated in data value qualifier flags.
2A
Data is published and unlikely to change - Level 1A data has been modified such that data gaps may be filled or problem data may be removed
2D
Data is published and unlikely to change - data is derived or aggregated from published data of level 2A
1D
Data is published and unlikely to change - data is derived or aggregated from published data of level 1A

PROBE_CODE - char(8) (nominal)

ID: MS00136.PROBE_CODE

Probe number code indicates the measurement type, site, and sensor number (e.g., AIRPRI01)

Type system: Microsoft SQL Server 2019

Code definitions (194)

AIRCEN01
Air temperature at CENMET, probe no. 01 at height 450 cm on tower
AIRCEN02
Air temperature at CENMET, probe no. 02 at height 350 cm on tower (450 cm from 4 Nov 2002 to 24 Sep 2007)
AIRCEN03
Air temperature at CENMET, probe no. 03 at height 250 cm on tower (150 cm from 31 Oct 2002 to 24 Sep 2007)
AIRCEN04
Air temperature at CENMET, probe no. 04 at height 150 cm on tower
AIRCS201
Air temperature at CS2MET, probe no. 01 at height 130 cm in cotton shelter; daily min-max hygrothermograph charts; discontinued 1999
AIRCS202
Air temperature at CS2MET, probe no. 02 at height 150 cm
AIRH1501
Air temperature at H15MET, probe no. 01 at height 450 cm
AIRH1502
Air temperature at H15MET, probe no. 02 at height 150 cm
AIRPRI01
Air temperature at PRIMET, probe no. 01 at height 450 cm on tower
AIRPRI02
Air temperature at PRIMET, probe no. 02 at height 350 cm on tower (450 cm from 24 Sep 2002 to 30 Apr 2007)
AIRPRI03
Air temperature at PRIMET, probe no. 03 at height 250 cm on tower (150 cm from 24 Sep 2002 to 6 Jul 2003; 24 Jun 2004 to 30 Apr 2007)
AIRPRI04
Air temperature at PRIMET, probe no. 04 at height 150 cm on tower
AIRPRI05
Air temperature at PRIMET, probe no. 05 at height 150 cm in cotton region shelter; discontinued 14 June 2004
AIRUPL01
Air temperature at UPLMET, probe no. 01 at height 450 cm on tower
AIRUPL02
Air temperature at UPLMET, probe no. 02 at height 350 cm on tower (450 cm from 28 Jun 2004 to 16 Jul 2007)
AIRUPL03
Air temperature at UPLMET, probe no. 03 at height 250 cm on tower (350 cm 21 Oct 2002 - 22 Jul 2004; 150 cm 22 Jul 2004 - 16 Jul 2007)
AIRUPL04
Air temperature at UPLMET, probe no. 04 at height 150 cm on tower (450 cm from 24 Oct 2002 to 18 Jun 2004)
AIRVAN01
Air temperature at VANMET, probe no. 01 at height 450 cm on tower
AIRVAN02
Air temperature at VANMET, probe no. 02 at height 350 cm on tower (450 cm from 16 Jun 2004 to 25 Jul 2007)
AIRVAN03
Air temperature at VANMET, probe no. 03 at height 150 cm on tower (350 cm 17 Oct 2002 - 16 Jun 2004; 150 cm 16 Jun 2004 - 25 Jul 2007)
AIRVAN04
Air temperature at VANMET, probe no. 04 at height 150 cm on tower (450 cm from 17 Oct 2002 to 16 Jun 2004)
AIRVAN05
Air temperature at VANMET, probe no. 05 at height 50 cm; discontinued 5 Oct 1995
DEWCEN01
Dew point temperature at CENMET, probe no. 01 at height 450 cm on tower, calculated
DEWCEN04
Dew point temperature at CENMET, probe no. 04 at height 150 cm on tower, calculated
DEWCS202
Dew point temperature at CS2MET, probe no. 02 at height 150 cm on tower, calculated; begins 14 Apr 1998
DEWH1501
Dew point temperature at H15MET, probe no. 01 at height 450 cm on tower, calculated
DEWH1502
Dew point temperature at H15MET, probe no. 02 at height 150 cm on tower, calculated
DEWPRI01
Dew point temperature at PRIMET, probe no. 01 at height 450 cm on tower, calculated
DEWPRI04
Dew point temperature at PRIMET, probe no. 04 at height 150 cm on tower, calculated
DEWPRI05
Dew point temperature at PRIMET, probe no. 05 at height 150 cm in shelter, calculated; direct measurement before Jul 1988; discontinued 2000
DEWUPL01
Dew point temperature at UPLMET, probe no. 01 at height 450 cm on tower, calculated
DEWUPL04
Dew point temperature at UPLMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 24 Oct 2002 to 18 Jun 2004)
DEWVAN01
Dew point temperature at VANMET, probe no. 01 at height 450 cm on tower, calculated
DEWVAN04
Dew point temperature at VANMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 17 Oct 2002 to 16 Jun 2004)
VPDCEN01
Water vapor pressure deficit at CENMET, probe no. 01 at height 450 cm on tower, calculated
VPDCEN04
Water vapor pressure deficit at CENMET, probe no. 04 at height 150 cm on tower, calculated
VPDCS202
Water vapor pressure deficit at CS2MET, probe no. 02 at height 150 cm on tower, calculated; begins 14 Apr 1998
VPDH1501
Water vapor pressure deficit at H15MET, probe no. 01 at height 450 cm on tower, calculated
VPDH1502
Water vapor pressure deficit at H15MET, probe no. 02 at height 150 cm on tower, calculated
VPDPRI01
Water vapor pressure deficit at PRIMET, probe no. 01 at height 450 cm on tower, calculated
VPDPRI04
Water vapor pressure deficit at PRIMET, probe no. 04 at height 150 cm on tower, calculated
VPDPRI05
Water vapor pressure deficit at PRIMET, probe no. 05 at height 150 cm in cotton region shelter, calculated; discontinued May 2000
VPDUPL01
Water vapor pressure deficit at UPLMET, probe no. 01 at height 450 cm on tower, calculated
VPDUPL04
Water vapor pressure deficit at UPLMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 24 Oct 2002 to 18 Jun 2004)
VPDVAN01
Water vapor pressure deficit at VANMET, probe no. 01 at height 450 cm on tower, calculated
VPDVAN04
Water vapor pressure deficit at VANMET, probe no. 04 at height 150 cm on tower, calculated (450 cm from 17 Oct 2002 to 16 Jun 2004)
LYSCEN01
Snow lysimeter at CENMET, probe no. 01
LYSH1501
Snow lysimeter at H15MET, probe no. 01
LYSUPL01
Snow lysimeter at UPLMET, probe no. 01
PARCEN01
Photosynthetically active radiation (PAR) at CENMET, probe no. 1 at height 627 cm
PPTCEN01
Precipitation at CENMET, probe no. 01, stand-alone model
PPTCEN02
Precipitation at CENMET, probe no. 02, shelter-top model
PPTCS201
Precipitation at CS2MET, probe no. 01; Universal rain gauge chart; backup record not digitized beyond 2012
PPTH1501
Precipitation at H15MET, probe no. 01 at height 410 cm prorated to adjacent standard raingage, discontinued 1992
PPTH1502
Precipitation at H15MET, probe no. 02 at height 410 cm
PPTPRI01
Precipitation at PRIMET, probe no. 01 at height 100 cm
PPTPRI02
Precipitation at PRIMET, probe no. 02, stand-alone model; inconsistencies prevent sharing this data; discontinued 2010
PPTUPL01
Precipitation at UPLMET, probe no. 01 at height 457 cm, stand-alone model
PPTUPL02
Precipitation at UPLMET, probe no. 02 at height 627 cm, shelter-top model
PPTVAN01
Precipitation at VANMET, probe no. 01 at height 305 cm, shelter-top model; record ends Feb 1996; discontinued Sep 2001
PPTVAR02
Precipitation at VARMET, probe no. 02, stand-alone model in meadow
RELCEN01
Relative humidity at CENMET, probe no. 01 at height 450 cm
RELCEN04
Relative humidity at CENMET, probe no. 04 at height 150 cm
RELCS201
Relative humidity at CS2MET, probe no. 01 at height 130 cm in cotton shelter; daily min-max hygrothermograph charts; discontinued 1999
RELCS202
Relative humidity at CS2MET, probe no. 02 at height 150 cm
RELH1501
Relative humidity at H15MET, probe no. 01 at height 450 cm
RELH1502
Relative humidity at H15MET, probe no. 02 at height 150 cm
RELPRI01
Relative humidity at PRIMET, probe no. 01 at height 450 cm
RELPRI04
Relative humidity at PRIMET, probe no. 04 at height 150 cm
RELPRI05
Relative humidity at PRIMET, probe no. 05 at height 150 cm in cotton region shelter; discontinued 30 May 2000
RELUPL01
Relative humidity at UPLMET, probe no. 01 at height 450 cm
RELUPL04
Relative humidity at UPLMET, probe no. 04 at height 150 cm (450 cm from 24 Oct 2002 to 18 Jun 2004)
RELVAN01
Relative humidity at VANMET, probe no. 01 at height 450 cm; originally probe was repositioned at 150 cm in summer
RELVAN04
Relative humidity at VANMET, probe no. 04 at height 150 cm (450 cm from 17 Oct 2002 to 16 Jun 2004)
SWCPRI01
Soil water content at PRIMET, probe no. 01 at depth 10 cm
SWCPRI02
Soil water content at PRIMET, probe no. 02 at depth 20 cm
SWCPRI03
Soil water content at PRIMET, probe no. 03 at depth 50 cm
SWCPRI04
Soil water content at PRIMET, probe no. 04 at depth 100 cm
SWCCEN01
Soil water content at CENMET, probe no. 01 at depth 10 cm
SWCCEN02
Soil water content at CENMET, probe no. 02 at depth 20 cm
SWCCEN03
Soil water content at CENMET, probe no. 03 at depth 50 cm
SWCCEN04
Soil water content at CENMET, probe no. 04 at depth 100 cm
SWCUPL01
Soil water content at UPLMET, probe no. 01 at depth 10 cm
SWCUPL02
Soil water content at UPLMET, probe no. 02 at depth 20 cm
SWCUPL03
Soil water content at UPLMET, probe no. 03 at depth 50 cm
SWCUPL04
Soil water content at UPLMET, probe no. 04 at depth 100 cm
SWCVAN01
Soil water content at VANMET, probe no. 01 at depth 10 cm
SWCVAN02
Soil water content at VANMET, probe no. 02 at depth 20 cm
SWCVAN03
Soil water content at VANMET, probe no. 03 at depth 50 cm
SWCVAN04
Soil water content at VANMET, probe no. 04 at depth 100 cm
SMPCEN01
Soil moisture potential at CENMET, probe no. 01 at depth 10 cm; discontinued 13 Nov 2002
SMPCEN02
Soil moisture potential at CENMET, probe no. 02 at depth 20 cm; discontinued 13 Nov 2002
SMPCEN03
Soil moisture potential at CENMET, probe no. 03 at depth 50 cm; discontinued 13 Nov 2002
SMPCEN04
Soil moisture potential at CENMET, probe no. 04 at depth 100 cm; discontinued 13 Nov 2002
SMPPRI01
Soil moisture potential at PRIMET, probe no. 01 at depth 10 cm; discontinued 23 May 2000
SMPPRI02
Soil moisture potential at PRIMET, probe no. 02 at depth 20 cm; discontinued 23 May 2000
SMPPRI03
Soil moisture potential at PRIMET, probe no. 03 at depth 50 cm; discontinued 23 May 2000
SMPPRI04
Soil moisture potential at PRIMET, probe no. 04 at depth 100 cm; discontinued 23 May 2000
SMPUPL01
Soil moisture potential at UPLMET, probe no. 01 at depth 10 cm; discontinued 18 Oct 2001
SMPUPL02
Soil moisture potential at UPLMET, probe no. 02 at depth 20 cm; discontinued 18 Oct 2001
SMPUPL03
Soil moisture potential at UPLMET, probe no. 03 at depth 50 cm; discontinued 18 Oct 2001
SMPUPL04
Soil moisture potential at UPLMET, probe no. 04 at depth 100 cm; discontinued 18 Oct 2001
SMPVAN01
Soil moisture potential at VANMET, probe no. 01 at depth 10 cm; discontinued 9 Sep 2001
SMPVAN02
Soil moisture potential at VANMET, probe no. 02 at depth 20 cm; discontinued 9 Sep 2001
SMPVAN03
Soil moisture potential at VANMET, probe no. 03 at depth 50 cm; discontinued 9 Sep 2001
SMPVAN04
Soil moisture potential at VANMET, probe no. 04 at depth 100 cm; discontinued 9 Sep 2001
SMPVAN05
Soil moisture potential at VANMET, probe no. 05 at depth 30 cm; discontinued 9 Sep 2001
SNOCEN01
Snow water equivalence and depth at CENMET, probe no. 01, snow pillow with snow depth sensor
SNOCEN02
Snow water equivalence and depth at CENMET, probe no. 02, snow depth and calculated snow water around snow pillow
SNOCEN03
Snow water equivalence and depth at CENMET, probe no. 03, average snow course measurement along transect near the station
SNOPRI01
Snow water equivalence and depth at PRIMET, probe no. 01, snow pillow with snow depth sensor
SNOUPL01
Snow water equivalence and depth at UPLMET, probe no. 01, snow pillow with snow depth sensor
SNOUPL02
Snow water equivalence and depth at UPLMET, probe no. 02, snow depth and calculated snow water around snow pillow
SNOUPL03
Snow water equivalence and depth at UPLMET, probe no. 03, average snow course measurement along transect near the station
SNOVAN01
Snow water equivalence and depth at VANMET, probe no. 01, snow pillow with snow depth sensor
SNOVAN02
Snow water equivalence and depth at VANMET, probe no. 02, snow depth and calculated snow water around snow pillow in clearcut
SNOVAN03
Snow moisture and depth at VANMET, probe no. 03, average snow course measurement along transect near the station in the clearcut
SOICEN01
Soil temperature at CENMET, probe no. 01 at depth10 cm
SOICEN02
Soil temperature at CENMET, probe no. 02 at depth 20 cm
SOICEN03
Soil temperature at CENMET, probe no. 03 at depth 50 cm
SOICEN04
Soil temperature at CENMET, probe no. 04 at depth 100 cm
SOIPRI01
Soil temperature at PRIMET, probe no. 01 at depth 10 cm
SOIPRI02
Soil temperature at PRIMET, probe no. 02 at depth 20 cm
SOIPRI03
Soil temperature at PRIMET, probe no. 03 at depth 50 cm
SOIPRI04
Soil temperature at PRIMET, probe no. 04 at depth 100 cm
SOIUPL01
Soil temperature at UPLMET, probe no. 01 at depth 10 cm
SOIUPL02
Soil temperature at UPLMET, probe no. 02 at depth 20 cm
SOIUPL03
Soil temperature at UPLMET, probe no. 03 at depth 50 cm
SOIUPL04
Soil temperature at UPLMET, probe no. 04 at depth 100 cm
SOIVAN01
Soil temperature at VANMET, probe no. 01 at depth 10 cm; discontinued 29 July 2007
SOIVAN02
Soil temperature at VANMET, probe no. 02 at depth 20 cm; discontinued 29 July 2007
SOIVAN03
Soil temperature at VANMET, probe no. 03 at depth 50 cm; discontinued 29 July 2007
SOIVAN04
Soil temperature at VANMET, probe no. 04 at depth 100 cm; discontinued 29 July 2007
SOIVAN05
Soil temperature at VANMET, probe no. 05 at depth 30 cm; discontinued 13 July 1994
SWICEN01
Shortwave incoming solar radiation at CENMET, probe no. 01 at height 625 cm
SWIPRI01
Shortwave incoming solar radiation at PRIMET, probe no. 01 at height 100 cm
SWIUPL01
Shortwave incoming solar radiation at UPLMET, probe no. 01 at height 615 cm
SWIVAN01
Shortwave incoming solar radiation at VANMET, probe no. 01 at height 850 cm
WNDCEN01
Wind speed and direction at CENMET, probe no. 01 at height 1000 cm
WNDH1501
Wind speed and direction at H15MET, probe no. 01 at height 500 cm
WNDPRI01
Wind speed and direction at PRIMET, probe no. 01 at height 1000 cm
WNDUPL01
Wind speed and direction at UPLMET, probe no. 01 at height 1000 cm
WNDVAN01
Wind speed and direction at VANMET, probe no. 01 at height 1000 cm
AIRPRI06
Air temperature at PRIMET, probe no. 06 at height 150 cm on tower with aspirated shield
SNOVAR04
Snow moisture and depth at VARMET, probe no. 04, average snow course measurement along transect in the meadow
AIRPRI07
Air temperature at PRIMET, probe no. 07 at height 250 cm on tower with aspirated shield
AIRPRI08
Air temperature at PRIMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRPRI09
Air temperature at PRIMET, probe no. 09 at height 450 cm on tower with aspirated shield
AIRUPL08
Air temperature at UPLMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRVAN08
Air temperature at VANMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRVAR10
Air temperature at VARMET, probe no. 10 at height 450 cm on stand-alone rain gauge in meadow
ATMPRI01
Atmospheric pressure at PRIMET, probe no. 01 at elevation 430 m corrected to sea level
ATMUPL01
Atmospheric pressure at UPLMET, probe no. 01 at elevation 1294 m corrected to sea level
SWIPRI02
Shortwave incoming solar radiation at PRIMET, probe no. 02 at height 600 cm
SWIVAN02
Shortwave incoming solar radiation at VANMET, probe no. 02 at height 600 cm
WNDPRI02
Wind speed and direction using sonic anemometer at PRIMET, probe no. 02 at height 1000 cm
WNDVAN02
Wind speed and direction using sonic anemometer at VANMET, probe no. 02 at height 1000 cm
PPTCS202
Precipitation at CS2MET, probe no. 02; Noah IV rain gauge
SNOVAR05
Snow moisture and depth at VARMET, probe no. 05 in meadow, snow pillow with snow depth sensor
SOIVAN06
Soil temperature at VANMET, probe no. 06 at depth 10 cm; established 15 Sep 2004
SOIVAN07
Soil temperature at VANMET, probe no. 07 at depth 20 cm; established 15 Sep 2004
SOIVAN08
Soil temperature at VANMET, probe no. 08 at depth 50 cm; established 15 Sep 2004
SOIVAN09
Soil temperature at VANMET, probe no. 09 at depth 100 cm; established 15 Sep 2004
AIRCEN08
Air temperature at CENMET, probe no. 08 at height 350 cm on tower with aspirated shield
AIRCS203
Air temperature at CS2MET, probe no. 03 at height 150 cm
RELCS203
Relative humidity at CS2MET, probe no. 03 at height 150 cm
DEWCS203
Dew point temperature at CS2MET, probe no. 03 at height 150 cm on tower, calculated; begins 9 Apr 2015
VPDCS203
Water vapor pressure deficit at CS2MET, probe no. 03 at height 150 cm on tower, calculated; begins 09 Apr 2015; replaces VPDCS202
WNDWS702
Wind speed and direction using sonic anemometer at WS7MET, probe no. 02 at height 1000 cm
WNDCEN02
Wind speed and direction using sonic anemometer at CENMET, probe no. 02 at height 1000 cm
SWIWS701
Shortwave incoming solar radiation at WS7MET, probe no. 01 at height 450 cm
SOIWS701
Soil temperature at WS7MET, probe no. 01 at depth 10 cm; established 6 Dec 2006
SOIWS702
Soil temperature at WS7MET, probe no. 02 at depth 20 cm; established 6 Dec 2006
SOIWS703
Soil temperature at WS7MET, probe no. 03 at depth 50 cm; established 6 Dec 2006
SOIWS704
Soil temperature at WS7MET, probe no. 04 at depth 100 cm; established 6 Dec 2006
ATMWS701
Atmospheric pressure at WS7MET, probe no. 01 at elevation 998 m corrected to sea level
WNDWS701
Wind speed and direction at WS7MET, probe no. 01 at height 1000 cm
WNDWS703
Wind speed and direction at WS7MET, probe no. 03 at height 450 cm (discontinued 16 Sep 2012)
WNDWS704
Wind speed and direction at WS7MET, probe no. 04 at height 150 cm (discontinued 27 Jan 2008)
AIRWS701
Air temperature at WS7MET, probe no. 01 at height 450 cm on tower
AIRWS702
Air temperature at WS7MET, probe no. 02 at height 350 cm on tower
AIRWS703
Air temperature at WS7MET, probe no. 03 at height 250 cm on tower
AIRWS704
Air temperature at WS7MET, probe no. 04 at height 150 cm on tower
AIRWS708
Air temperature at WS7MET, probe no. 08 at height 350 cm on tower with aspirated shield
RELWS701
Relative humidity at WS7MET, probe no. 01 at height 450 cm
RELWS704
Relative humidity at WS7MET, probe no. 01 at height 150 cm
DEWWS701
Dew point temperature at WS7MET, probe no. 01 at height 450 cm on tower, calculated
DEWWS704
Dew point temperature at WS7MET, probe no. 04 at height 150 cm on tower, calculated
VPDWS701
Water vapor pressure deficit at WS7MET, probe no. 01 at height 450 cm on tower, calculated
VPDWS704
Water vapor pressure deficit at WS7MET, probe no. 04 at height 150 cm on tower, calculated
SNOWS701
Snow depth at WS7MET, probe no. 01, snow depth sensor at south site
SNOWS702
Snow depth at WS7MET, probe no. 02, snow depth sensor at west site (discontinued 14 May 2007)
WNDUPL02
Wind speed and direction using sonic anemometer at UPLMET, probe no. 02 at height 1000 cm
AIRCS205
Air temperature at CS2MET, probe no. 05 at height 150 cm

DATE_TIME - datetime (dateTime)

ID: MS00136.DATE_TIME

Date and time in Pacific Standard Time (PST) of sensor reading

Type system: Microsoft SQL Server 2019

Date format: YYYY-MM-DD hh:mm:ss

ATMPRESS_INST - numeric(6,1) (ratio)

ID: MS00136.ATMPRESS_INST

Instantaneous atmospheric pressure corrected for elevation to mean sea level

Type system: Microsoft SQL Server 2019

Unit: millibars

Precision: 1

Numeric domain: type=real, min=980.0000 (exclusive=false), max=1038.2000 (exclusive=false)

ATMPRESS_INST_FLAG - char(1) (nominal)

ID: MS00136.ATMPRESS_INST_FLAG

Instantaneous atmospheric pressure flag

Type system: Microsoft SQL Server 2019

Code definitions (5)

A
Accepted value has passed all QC tests applied as represented by the quality level
E
Estimated value
Q
Questionable
M
Missing
P
Fire effects are visible in the data

EVENT_CODE - char(6) (nominal)

ID: MS00136.EVENT_CODE

Any event, disruption in protocol, or unusual conditions that occur at the given date or time and may have an effect on the data values; contact information manager for access to specific details from the field 'Notes' database

Type system: Microsoft SQL Server 2019

Code definitions (11)

INSREM
Sensor is installed or removed
LOGGER
Change in data logger, data logger program, or wiring
METHOD
Change in data collection method
NA
No event is reported (not applicable)
QUALTY
Event may directly affect data quality (individual activities tracked in field notes database)
MAINTE
A maintenance event has occurred
INTPRO
Internal processing may produce an anomalous reading
WEATHR
A weather event has occurred that may affect reading
CALIBR
Associated with the inspection or replacement of sensors for calibration
CLEARD
Site clearing of trees and brush around the meteorological station is being conducted
BURNED
Burning, including cleared trees and brush or wildfire, around the meteorological station or within the watershed (code begins at event initiation)

Units


time in military hours and minutes	HHMM	datetime	hhmm	YYYY-MM-DDThh:mm:ss	N/A	Hours and minutes with hh as military hours and mm as minutes
percent	%	dimensionless	number	dimensionless	100	percent; a number
degrees Celsius	deg c	temperature	celsiusDegree	kelvin	1	Degrees Celsius; a common unit of temperature; constantToSI=273.18
centimeters	cm	length	centimeter	meter	0.01	centimeters; .01 meters
number	number	dimensionless	number	dimensionless	1	dimensionless number, i.e., ratio, count
millibars	mbar	pressure	millibar	pascal	100	The standard unit of measurement for atmospheric pressure used by the National Weather Service. One millibar is equivalent to 100 newtons per square meter.
meters	m	length	meter	meter	1	meter; SI unit of length

Related Datasets

No related dataset codes found in the EML text fields.

Related Publications

Waring, R. H.; Holbo, H. R.; Bueb, R. P.; Fredriksen, R. L. 1978. Documentation of meteorological data from the Coniferous Forest Biome primary station in Oregon. Gen. Tech. Rep. PNW-73. Portland, OR: U.S. Department of Agriculture, Forest Service, Pacific Northwest Forest and Range Experiment Station. 23 p.
Bierlmaier, Frederick A.; McKee, Arthur. 1989. Climatic summaries and documentation for the primary meteorological station, H.J. Andrews Experimental Forest, 1972 to 1984. Gen. Tech. Rep. PNW-242. Portland, OR: U.S. Department of Agriculture, Forest Service, Pacific Northwest Research Station. 56 p.
Rosentrater, Lynn D. 1997. The thermal climate of the H.J. Andrews Experimental Forest, Oregon . Eugene, OR: University of Oregon. 133 p. M.S. thesis.
Henshaw, Donald L.; Bierlmaier, Frederick A.; Hammond, Hazel E. 1998. The H.J. Andrews climatological field measurement program. In: Michener, William K.; Porter, John H.; Stafford, Susan G., eds. Data and information management in the ecological sciences: a resource guide; 1997 August 8-9; Albuquerque, NM. Albuquerque, NM: LTER Network Office, University of New Mexico: 117-122.
Henshaw, Don; McKee, Arthur; Sikka, Alok. 1995. The Program for Hydroclimatological Measurement at the H.J. Andrews Experimental Forest. Andrews Experimental Forest Long-Term Ecological Research [Unpublished Internal Progress Report], Corvallis, OR. 25 p.
Johnson, Sherri L.; Henshaw, Don; Downing, Greg; Wondzell, Steve; Schulze, Mark; Kennedy, Adam; Cohn, Greg; Schmidt, Stephanie A.; Jones, Julia A. 2021. Long-Term Hydrology and Aquatic Biogeochemistry Data from H. J. Andrews Experimental Forest, Cascade Mountains, Oregon. Hydrological Processes. 35(5): e14187. doi: 10.1002/hyp.14187

Related Files

Air Temperature Data Comments by J. W. Smith (March 2001)
Jonathan Smith notes on usefulness and quality of Andrews air temperature data from Benchmark, Reference Stand and Stream Thermograph stations

URL: https://andrewsforest.oregonstate.edu/data/studies/ms01/JSmith_notes_temp_data.pdf
Climate station field report (September 2007)
An assessment of site characteristics for the benchmark climate stations at the Andrews Experimental Forest (PDF)

URL: https://andrewsforest.oregonstate.edu/data/studies/ms01/climate_stn_rpt_2007.pdf
Provisional Real-Time Data Graphs and Other Data Products
Access real-time climate and hydrology stations data graphs (for the past few weeks) and other data products on the Andrews Experimental Forest

URL: https://andrewsforest.oregonstate.edu/data/streaming
HJA Provisional Data Portal
Access provisional data from climate and hydrology stations on the Andrews Experimental Forest

URL: https://andrewsforest.oregonstate.edu/sites/default/files/lter/data/weather/portal/index.html
H.J. Andrews Climate Station Methods History
View climate data collection methods that have been used over time at select stations. Results can be filtered by parameter, climate station, and date range. A general text search is also available.

URL: https://hjandrews.shinyapps.io/im_methods_history/
Method history description by probe code
The follow link describes data collection methods (by date range and resolution) that have been used by each unique probe across the HJ Andrews Experimental Forest. Results are filtered by database code, sitecode, parameter, and probe.

URL: https://andlter.forestry.oregonstate.edu/MethodCode/View_History.aspx

Intellectual Rights

Data Use Agreement:

The re-use of scientific data has the potential to greatly increase communication, collaboration and synthesis within and among disciplines, and thus is fostered, supported and encouraged. This Data Set is released under the Creative Commons license CC BY "Attribution" (see: https://creativecommons.org/licenses/by/4.0/). Creative Commons license CC BY - Attribution is a license that allows others to distribute, remix, tweak, and build upon your work (even commercially), as long as you are credited for the original creation. This license accommodates maximum dissemination and use of licensed materials.

It is considered professional conduct and an ethical obligation to acknowledge the work of other scientists. The Data User is asked to provide attribution of the original work if this data package is shared in whole or by individual parts or used in the derivation of other products. A recommended citation is provided for each Data Set in the Andrews LTER data catalog (see: http://andlter.forestry.oregonstate.edu/data/catalog/datacatalog.aspx). A generic citation is also provided for this Data Set on the website https://portal.edirepository.org in the summary metadata page. Data Users are thus strongly encouraged to consider consultation, collaboration and/or co-authorship with the Data Set Creator.

While substantial efforts are made to ensure the accuracy of data and associated documentation, complete accuracy of data sets cannot be guaranteed and all data are made available "as is." The Data User should be aware, however, that data are updated periodically and it is the responsibility of the Data User to check for new versions of the data. The data authors and the repository where these data were obtained shall not be liable for damages resulting from any use or misinterpretation of the data.

General acknowledgement: Data were provided by the HJ Andrews Experimental Forest research program, funded by the National Science Foundation's Long-Term Ecological Research Program (DEB 2025755), US Forest Service Pacific Northwest Research Station, and Oregon State University.

NOTE: This database is under construction and will be partitioned into separated databases for solar, wind, precipitation, snow, soil data. Fine resolution data for air temperature, relative humidity, dew point temperature, vapor pressure deficit, and atmospheric pressure (entities 11, 12, 17, 18, 36) have been updated to 10/1/2021. Current, provisional data for all entities is posted on the provisional data portal.

Licensed

License: Creative Commons Attribution 4.0 International Public License

Identifier: CC-BY-4.0

URL: https://creativecommons.org/licenses/by/4.0/

Maintenance

Maintenance update frequency: annually

Description

An update history is logged and maintained with each new version of every dataset.

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MS001: Meteorological data from benchmark stations at the HJ Andrews Experimental Forest, 1957 to present

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