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SP010: Respiration in soils collected from the REU synoptic sample grid in the Andrews Experimental Forest, 1994-1995

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Status: asNeeded
Period: 1994-09-15 to 1995-12-07
Version: 9
Published: 2019-08-07
EDI Package ID: knb-lter-and.3137.9
Source XML: SP010_9.xml

Notice

"As Is" Basis: All content, including maps and forecasts, is provided without warranties. Users are advised to independently verify critical information.

Citation

Griffiths, R. 2019. Respiration in soils collected from the REU synoptic sample grid in the Andrews Experimental Forest, 1994-1995 Long-Term Ecological Research Andrews Forest LTER Site. [Database]. Available: https://andrewsforest-stage.forestry.oregonstate.edu/data/fsdb-data-catalog/SP010 Accessed 2026-05-10.

Abstract

The 1993 (SP005) sampling grid was expanded to 183 sites providing a more comprehensive sampling grid. Because of potential edge effects problems, all sample locations were moved at least 20 meters from the closest road or clearing. Changes from the original location are given in entity 2. CO is measured over a period of 41 weeks in soils collected from all of the REU synoptic sample sites in the summer of 1994. Soils were weighted at the same time that respiration was assayed and moisture content was maintained at the same level throughout the series. The time period represented by this data is 15 September 1994 to 12 July 1995. In the initial stages, CO concentrations were assayed every week, after 15 weeks, the incubation period was extended to 2 weeks. After the incubation vessels were assayed, the headspace was flushed with lab air and the moisture was adjusted with sterile deionized water. Results show that there was a very high correlation between respiration rates during the 1st and 3rd weeks (r = 0.96) suggesting that the two week incubation period we us as an indicator of initial concentrations of labile carbon is valid. There was also a high correlation between rates observed within the first week and rates observed after 41 weeks (r = 0.85) suggesting that the initial rates provide a good relative guide to rates observed after 10 months. In addition, respiration rates after 41 weeks were 80% of those observed during the first week.

Coverage

Temporal coverage: 1994-09-15 to 1995-12-07

Geographic coverage: All locations were on the H.J. Andrews Experimental Forest

Spatial coverage:

Bounds: W -122.25860000, E -122.10390000, N 44.27670000, S 44.20330000

Purpose
  • To determine how climate change and forest disturbance influences soil nitrogen and carbon cycling. Because of the broad geographical representation of these sites, all climate zones as influenced by slope, aspect and elevation, are represented as well as differing vegetation types, and disturbance histories. At the present time, we represent different climate zones primarily by elevation. As the climate models are perfected, soils data can be evaluated in terms of annual mean temperatures and precipitation. This is an extension of the 1994 REU study of the synoptic Andrews sampling grid study reported as SP006. As a part of that study, we conducted respiration rate studies on sieved soils using a 2-week incubation period. We have used this as an indicator of labile carbon in these soils. We wanted to determine how representative this procedure is in determining labile carbon over longer time periods (e.g. will the patterns of relative respiration remain the same) and to determine how long it would take for rates to diminish with time.
Project

Title: Long-Term Ecological Research

Personnel
  • Sherri L. Johnson - Principal Investigator
    US Forest Service ;Pacific NW Research Station ;3200 SW Jefferson Way, Corvallis, OR, 97331, USA
    Phone: 541-758-7771
    Email: sherri.johnson2@usda.gov, sherri.johnson@oregonstate.edu
  • Julia A. Jones - Principal Investigator
    Oregon State University;Department of Geosciences; Wilkinson Hall 104, Corvallis, OR, 97331-5506, USA
    Phone: (541) 737-1224
    Email: Julia.Jones@oregonstate.edu, geojulia@comcast.net
    ORCID: http://orcid.org/0000-0001-9429-8925
  • 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
  • Michael P. Nelson - Principal Investigator
    Department of Forest Ecosystems and Society; 201K Richarson Hall; College of Forestry; Oregon State University, Corvallis, OR, 97331
    Phone: 541-737-9221
    Email: mpnelson@oregonstate.edu
    ORCID: http://orcid.org/0000-0001-6917-4752
  • David Bell - Principal Investigator
    Email: david.bell@usda.gov, david.bell@oregonstate.edu
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: DEB1440409

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
  • Robert P. Griffiths
    Role: Principal Investigator
    Oregon State University;Dept. of Forest Science;321 Richardson Hall, Corvallis, OR, 97331-5752, USA
    Phone: (541) 737-6559
    Email: bbgriff@peak.org, griff@for.orst.edu
  • Robert P. Griffiths
    Role: Abstractor
    Oregon State University;Dept. of Forest Science;321 Richardson Hall, Corvallis, OR, 97331-5752, USA
    Phone: (541) 737-6559
    Email: bbgriff@peak.org, griff@for.orst.edu
  • Robert P. Griffiths
    Role: Creator
    Oregon State University;Dept. of Forest Science;321 Richardson Hall, Corvallis, OR, 97331-5752, USA
    Phone: (541) 737-6559
    Email: bbgriff@peak.org, griff@for.orst.edu
Contact
  • Information Manager
    Andrews Forest LTER Program, US Forest Service Pacific Northwest Research Station, 3200 SW Jefferson Way, Corvallis, OR, 97331
    Email: hjaweb@fsl.orst.edu
  • Robert P. Griffiths
    Oregon State University;Dept. of Forest Science;321 Richardson Hall, Corvallis, OR, 97331-5752, USA
    Phone: (541) 737-6559
    Email: bbgriff@peak.org, griff@for.orst.edu
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@fsl.orst.edu
Study Description

The 1993 (SP005) sampling grid was expanded to 183 sites providing a more comprehensive sampling grid. Because of potential edge effects problems, all sample locations were moved at least 20 meters from the closest road or clearing. Changes from the original location are given in entity 2. CO is measured over a period of 41 weeks in soils collected from all of the REU synoptic sample sites in the summer of 1994. Soils were weighted at the same time that respiration was assayed and moisture content was maintained at the same level throughout the series. The time period represented by this data is 15 September 1994 to 12 July 1995. In the initial stages, CO concentrations were assayed every week, after 15 weeks, the incubation period was extended to 2 weeks. After the incubation vessels were assayed, the headspace was flushed with lab air and the moisture was adjusted with sterile deionized water. Results show that there was a very high correlation between respiration rates during the 1st and 3rd weeks (r = 0.96) suggesting that the two week incubation period we us as an indicator of initial concentrations of labile carbon is valid. There was also a high correlation between rates observed within the first week and rates observed after 41 weeks (r = 0.85) suggesting that the initial rates provide a good relative guide to rates observed after 10 months. In addition, respiration rates after 41 weeks were 80% of those observed during the first week. To determine how climate change and forest disturbance influences soil nitrogen and carbon cycling. Because of the broad geographical representation of these sites, all climate zones as influenced by slope, aspect and elevation, are represented as well as differing vegetation types, and disturbance histories. At the present time, we represent different climate zones primarily by elevation. As the climate models are perfected, soils data can be evaluated in terms of annual mean temperatures and precipitation. This is an extension of the 1994 REU study of the synoptic Andrews sampling grid study reported as SP006. As a part of that study, we conducted respiration rate studies on sieved soils using a 2-week incubation period. We have used this as an indicator of labile carbon in these soils. We wanted to determine how representative this procedure is in determining labile carbon over longer time periods (e.g. will the patterns of relative respiration remain the same) and to determine how long it would take for rates to diminish with time. Field Methods - SP010

Purpose: To determine how climate change and forest disturbance influences soil nitrogen and carbon cycling. Because of the broad geographical representation of these sites, all climate zones as influenced by slope, aspect and elevation, are represented as well as differing vegetation types, and disturbance histories. At the present time, we represent different climate zones primarily by elevation. As the climate models are perfected, soils data can be evaluated in terms of annual mean temperatures and precipitation. This is an extension of the 1994 REU study of the synoptic Andrews sampling grid study reported as SP006. As a part of that study, we conducted respiration rate studies on sieved soils using a 2-week incubation period. We have used this as an indicator of labile carbon in these soils. We wanted to determine how representative this procedure is in determining labile carbon over longer time periods (e.g. will the patterns of relative respiration remain the same) and to determine how long it would take for rates to diminish with time.

Methods

Method Steps

Field Methods - SP010
  • Soil samples were collected to a depth of 10 cm during the 1994 REU synoptic grid study (see SP006 and SP028). While conducting autocorrelation analyses, we found that for the variables studied, samples collected at 5 m intervals were not autocorrelated and could thus be considered independent for statistical analysis. For this reason, replicate samples were taken in plots separated by 5 meters along a transect parallel to the road.
Laboratory Methods - SP010
  • In preparation for laboratory analyses, all soils were sieved through a 2-mm sieve. Soil moisture was determined by drying duplicate 10 g field-moist sieved soils at 100°C for at least 8 h. Dividing the difference between wet and dry samples and dividing that number by the dry wt., which was then multiplied by 100, calculated the percent soil moisture.
  • Laboratory respiration measurements were made on field-moist, sieved soils (4 g dry weight). Soils were brought to 43% moisture content by the addition of enough sterile deionized water to equal 1.71 g water per 50-mL serum bottle. Once sealed with serum bottle stoppers, the serum bottles were incubated at 15°C. Weekly, the CO in the headspace was measurement using a gas chromatograph fitted with thermal conductivity detector (Hewlett Packard model 5890 GC, connected to a Hewlett Packard model 3396 integrator). The integrator was calibrated by the external calibration method with known gas standards. After the headspace was analyzed, the headspace was purged with lab air and the bottles weighed. Water loss was replenished as needed with sterile deionized water. Weekly measurements were made during the first 15 weeks. The headspace analysis was conducted every other week after the 15 week.

Sampling

Study Extent
  • Sampling frequency: weekly
Sampling Description
  • This synoptic sampling grid was established to conduct basin-scale surveys of forest soil properties. In the first survey conducted in July 1993, forest floor respiration rates were measured at 130 sites covering a large portion of the HJA. The measurements made in this (SP005) were in situ field respiration. In addition to field respiration rates measured by the soda-lime method, soil and air temperatures were recorded along with maximum and minimum soil temperatures for the 24 hr CO2 collection period. Only one measurement was made per site. These data and associated metadata can be found in database SP005.
  • In 1994, a much more comprehensive study was conducted. The number of sites studied was expended to 183 sites located at 0.5 km intervals along all passable roads on the HJA. With the exception of the max-min soil temperature data, all variables measured in 1993 were repeated in 1994. In addition, the following variables were measured: pH, soil moisture, bulk density, soil organic matter, laboratory respiration (both long and short-term; with and without amendments), denitrification potential, extractable ammonium, and mineralizable nitrogen. In addition, we scored for the presence of moss on the surface and mycorrhizal mats found in 4.7 x 10 cm cores. These data and associated metadata are located in database SP006.
  • For this study, we measured CO evolution in the same soil samples over a period of 41 months to determine the rate at which respiration reduced over this time period. We also wanted to determine if respiration rates remained the same relative to each other over time.
Spatial Sampling Units
  • Andrews Experimental Forest (HJA)
    W -122.26172200, E -122.10084700, N 44.28196400, S 44.19770400
    Altitude: 1631 to 1631 meter
  • Soil Synoptic Sampling Grid Site 1A
    W -122.25350000, E -122.25350000, N 44.21680000, S 44.21680000
    Altitude: 503 to 503 meter
  • Soil Synoptic Sampling Grid Site 2
    W -122.24840000, E -122.24840000, N 44.21930000, S 44.21930000
    Altitude: 637 to 637 meter
  • Soil Synoptic Sampling Grid Site 3
    W -122.25390000, E -122.25390000, N 44.22140000, S 44.22140000
    Altitude: 682 to 682 meter
  • Soil Synoptic Sampling Grid Site 4
    W -122.25630000, E -122.25630000, N 44.21840000, S 44.21840000
    Altitude: 677 to 677 meter
  • Soil Synoptic Sampling Grid Site 5
    W -122.23860000, E -122.23860000, N 44.22960000, S 44.22960000
    Altitude: 737 to 737 meter
  • Soil Synoptic Sampling Grid Site 6
    W -122.23430000, E -122.23430000, N 44.23450000, S 44.23450000
    Altitude: 758 to 758 meter
  • Soil Synoptic Sampling Grid Site 7
    W -122.22850000, E -122.22850000, N 44.23760000, S 44.23760000
    Altitude: 818 to 818 meter
  • Soil Synoptic Sampling Grid Site 8
    W -122.22160000, E -122.22160000, N 44.24120000, S 44.24120000
    Altitude: 831 to 831 meter
  • Soil Synoptic Sampling Grid Site 9
    W -122.22200000, E -122.22200000, N 44.24170000, S 44.24170000
    Altitude: 836 to 836 meter
  • Soil Synoptic Sampling Grid Site 10
    W -122.22490000, E -122.22490000, N 44.24740000, S 44.24740000
    Altitude: 776 to 776 meter
  • Soil Synoptic Sampling Grid Site 11
    W -122.23700000, E -122.23700000, N 44.23070000, S 44.23070000
    Altitude: 772 to 772 meter
  • Soil Synoptic Sampling Grid Site 12
    W -122.25860000, E -122.25860000, N 44.20770000, S 44.20770000
    Altitude: 443 to 443 meter
  • Soil Synoptic Sampling Grid Site 13
    W -122.25170000, E -122.25170000, N 44.21390000, S 44.21390000
    Altitude: 451 to 451 meter
  • Soil Synoptic Sampling Grid Site 14
    W -122.24670000, E -122.24670000, N 44.21610000, S 44.21610000
    Altitude: 460 to 460 meter
  • Soil Synoptic Sampling Grid Site 15
    W -122.24640000, E -122.24640000, N 44.21370000, S 44.21370000
    Altitude: 545 to 545 meter
  • Soil Synoptic Sampling Grid Site 16
    W -122.24380000, E -122.24380000, N 44.21920000, S 44.21920000
    Altitude: 482 to 482 meter
  • Soil Synoptic Sampling Grid Site 17
    W -122.24090000, E -122.24090000, N 44.22220000, S 44.22220000
    Altitude: 484 to 484 meter
  • Soil Synoptic Sampling Grid Site 18
    W -122.23820000, E -122.23820000, N 44.22120000, S 44.22120000
    Altitude: 507 to 507 meter
  • Soil Synoptic Sampling Grid Site 19
    W -122.23920000, E -122.23920000, N 44.22090000, S 44.22090000
    Altitude: 513 to 513 meter
  • Soil Synoptic Sampling Grid Site 20
    W -122.23930000, E -122.23930000, N 44.21890000, S 44.21890000
    Altitude: 576 to 576 meter
  • Soil Synoptic Sampling Grid Site 21
    W -122.23110000, E -122.23110000, N 44.22430000, S 44.22430000
    Altitude: 554 to 554 meter
  • Soil Synoptic Sampling Grid Site 22
    W -122.22960000, E -122.22960000, N 44.22700000, S 44.22700000
    Altitude: 551 to 551 meter
  • Soil Synoptic Sampling Grid Site 23
    W -122.22710000, E -122.22710000, N 44.22090000, S 44.22090000
    Altitude: 655 to 655 meter
  • Soil Synoptic Sampling Grid Site 24
    W -122.23340000, E -122.23340000, N 44.21710000, S 44.21710000
    Altitude: 768 to 768 meter
  • Soil Synoptic Sampling Grid Site 25
    W -122.23120000, E -122.23120000, N 44.21400000, S 44.21400000
    Altitude: 754 to 754 meter
  • Soil Synoptic Sampling Grid Site 26
    W -122.22340000, E -122.22340000, N 44.21970000, S 44.21970000
    Altitude: 693 to 693 meter
  • Soil Synoptic Sampling Grid Site 27
    W -122.22040000, E -122.22040000, N 44.22030000, S 44.22030000
    Altitude: 735 to 735 meter
  • Soil Synoptic Sampling Grid Site 28
    W -122.21870000, E -122.21870000, N 44.22100000, S 44.22100000
    Altitude: 778 to 778 meter
  • Soil Synoptic Sampling Grid Site 29
    W -122.22330000, E -122.22330000, N 44.21600000, S 44.21600000
    Altitude: 820 to 820 meter
  • Soil Synoptic Sampling Grid Site 30
    W -122.22590000, E -122.22590000, N 44.21670000, S 44.21670000
    Altitude: 839 to 839 meter
  • Soil Synoptic Sampling Grid Site 31
    W -122.22810000, E -122.22810000, N 44.21380000, S 44.21380000
    Altitude: 835 to 835 meter
  • Soil Synoptic Sampling Grid Site 32
    W -122.23240000, E -122.23240000, N 44.21110000, S 44.21110000
    Altitude: 828 to 828 meter
  • Soil Synoptic Sampling Grid Site 33
    W -122.23530000, E -122.23530000, N 44.21050000, S 44.21050000
    Altitude: 852 to 852 meter
  • Soil Synoptic Sampling Grid Site 34
    W -122.22550000, E -122.22550000, N 44.21380000, S 44.21380000
    Altitude: 892 to 892 meter
  • Soil Synoptic Sampling Grid Site 35
    W -122.21860000, E -122.21860000, N 44.21730000, S 44.21730000
    Altitude: 818 to 818 meter
  • Soil Synoptic Sampling Grid Site 36
    W -122.21310000, E -122.21310000, N 44.21900000, S 44.21900000
    Altitude: 877 to 877 meter
  • Soil Synoptic Sampling Grid Site 37
    W -122.20850000, E -122.20850000, N 44.21960000, S 44.21960000
    Altitude: 952 to 952 meter
  • Soil Synoptic Sampling Grid Site 38
    W -122.20360000, E -122.20360000, N 44.21970000, S 44.21970000
    Altitude: 910 to 910 meter
  • Soil Synoptic Sampling Grid Site 39
    W -122.20550000, E -122.20550000, N 44.21910000, S 44.21910000
    Altitude: 940 to 940 meter
  • Soil Synoptic Sampling Grid Site 40
    W -122.19730000, E -122.19730000, N 44.21960000, S 44.21960000
    Altitude: 972 to 972 meter
  • Soil Synoptic Sampling Grid Site 41
    W -122.20220000, E -122.20220000, N 44.21830000, S 44.21830000
    Altitude: 976 to 976 meter
  • Soil Synoptic Sampling Grid Site 42
    W -122.20680000, E -122.20680000, N 44.21650000, S 44.21650000
    Altitude: 1022 to 1022 meter
  • Soil Synoptic Sampling Grid Site 43
    W -122.20720000, E -122.20720000, N 44.21470000, S 44.21470000
    Altitude: 1089 to 1089 meter
  • Soil Synoptic Sampling Grid Site 44
    W -122.20250000, E -122.20250000, N 44.21480000, S 44.21480000
    Altitude: 1122 to 1122 meter
  • Soil Synoptic Sampling Grid Site 45
    W -122.19690000, E -122.19690000, N 44.21650000, S 44.21650000
    Altitude: 1157 to 1157 meter
  • Soil Synoptic Sampling Grid Site 46
    W -122.19470000, E -122.19470000, N 44.21490000, S 44.21490000
    Altitude: 1164 to 1164 meter
  • Soil Synoptic Sampling Grid Site 47
    W -122.19100000, E -122.19100000, N 44.21750000, S 44.21750000
    Altitude: 1174 to 1174 meter
  • Soil Synoptic Sampling Grid Site 48
    W -122.18380000, E -122.18380000, N 44.21600000, S 44.21600000
    Altitude: 1179 to 1179 meter
  • Soil Synoptic Sampling Grid Site 49
    W -122.18190000, E -122.18190000, N 44.21400000, S 44.21400000
    Altitude: 1184 to 1184 meter
  • Soil Synoptic Sampling Grid Site 50
    W -122.17740000, E -122.17740000, N 44.21060000, S 44.21060000
    Altitude: 1225 to 1225 meter
  • Soil Synoptic Sampling Grid Site 50A
    W -122.15770000, E -122.15770000, N 44.20530000, S 44.20530000
    Altitude: 1260 to 1260 meter
  • Soil Synoptic Sampling Grid Site 51
    W -122.15450000, E -122.15450000, N 44.20460000, S 44.20460000
    Altitude: 1302 to 1302 meter
  • Soil Synoptic Sampling Grid Site 52
    W -122.14910000, E -122.14910000, N 44.20350000, S 44.20350000
    Altitude: 1187 to 1187 meter
  • Soil Synoptic Sampling Grid Site 53
    W -122.14560000, E -122.14560000, N 44.20560000, S 44.20560000
    Altitude: 1333 to 1333 meter
  • Soil Synoptic Sampling Grid Site 54
    W -122.14000000, E -122.14000000, N 44.20330000, S 44.20330000
    Altitude: 1319 to 1319 meter
  • Soil Synoptic Sampling Grid Site 55
    W -122.22180000, E -122.22180000, N 44.21070000, S 44.21070000
    Altitude: 576 to 576 meter
  • Soil Synoptic Sampling Grid Site 56
    W -122.21610000, E -122.21610000, N 44.21210000, S 44.21210000
    Altitude: 566 to 566 meter
  • Soil Synoptic Sampling Grid Site 57
    W -122.21140000, E -122.21140000, N 44.23130000, S 44.23130000
    Altitude: 550 to 550 meter
  • Soil Synoptic Sampling Grid Site 58
    W -122.20680000, E -122.20680000, N 44.23100000, S 44.23100000
    Altitude: 577 to 577 meter
  • Soil Synoptic Sampling Grid Site 59
    W -122.20970000, E -122.20970000, N 44.22860000, S 44.22860000
    Altitude: 645 to 645 meter
  • Soil Synoptic Sampling Grid Site 60
    W -122.20970000, E -122.20970000, N 44.22860000, S 44.22860000
    Altitude: 651 to 651 meter
  • Soil Synoptic Sampling Grid Site 61
    W -122.20710000, E -122.20710000, N 44.22780000, S 44.22780000
    Altitude: 681 to 681 meter
  • Soil Synoptic Sampling Grid Site 62
    W -122.20850000, E -122.20850000, N 44.22500000, S 44.22500000
    Altitude: 734 to 734 meter
  • Soil Synoptic Sampling Grid Site 63
    W -122.20850000, E -122.20850000, N 44.22370000, S 44.22370000
    Altitude: 764 to 764 meter
  • Soil Synoptic Sampling Grid Site 64
    W -122.19900000, E -122.19900000, N 44.23320000, S 44.23320000
    Altitude: 618 to 618 meter
  • Soil Synoptic Sampling Grid Site 65
    W -122.19230000, E -122.19230000, N 44.23110000, S 44.23110000
    Altitude: 640 to 640 meter
  • Soil Synoptic Sampling Grid Site 66
    W -122.18580000, E -122.18580000, N 44.23050000, S 44.23050000
    Altitude: 653 to 653 meter
  • Soil Synoptic Sampling Grid Site 67
    W -122.18750000, E -122.18750000, N 44.22860000, S 44.22860000
    Altitude: 715 to 715 meter
  • Soil Synoptic Sampling Grid Site 68
    W -122.19640000, E -122.19640000, N 44.22580000, S 44.22580000
    Altitude: 787 to 787 meter
  • Soil Synoptic Sampling Grid Site 69
    W -122.18050000, E -122.18050000, N 44.22860000, S 44.22860000
    Altitude: 719 to 719 meter
  • Soil Synoptic Sampling Grid Site 70
    W -122.17510000, E -122.17510000, N 44.22240000, S 44.22240000
    Altitude: 843 to 843 meter
  • Soil Synoptic Sampling Grid Site 71
    W -122.17530000, E -122.17530000, N 44.22310000, S 44.22310000
    Altitude: 848 to 848 meter
  • Soil Synoptic Sampling Grid Site 72
    W -122.16990000, E -122.16990000, N 44.22230000, S 44.22230000
    Altitude: 756 to 756 meter
  • Soil Synoptic Sampling Grid Site 73
    W -122.16740000, E -122.16740000, N 44.21910000, S 44.21910000
    Altitude: 803 to 803 meter
  • Soil Synoptic Sampling Grid Site 74
    W -122.16400000, E -122.16400000, N 44.22350000, S 44.22350000
    Altitude: 804 to 804 meter
  • Soil Synoptic Sampling Grid Site 75
    W -122.15920000, E -122.15920000, N 44.22820000, S 44.22820000
    Altitude: 796 to 796 meter
  • Soil Synoptic Sampling Grid Site 76
    W -122.15930000, E -122.15930000, N 44.22800000, S 44.22800000
    Altitude: 795 to 795 meter
  • Soil Synoptic Sampling Grid Site 78
    W -122.21220000, E -122.21220000, N 44.23330000, S 44.23330000
    Altitude: 573 to 573 meter
  • Soil Synoptic Sampling Grid Site 79
    W -122.20690000, E -122.20690000, N 44.23370000, S 44.23370000
    Altitude: 591 to 591 meter
  • Soil Synoptic Sampling Grid Site 80
    W -122.20070000, E -122.20070000, N 44.23410000, S 44.23410000
    Altitude: 580 to 580 meter
  • Soil Synoptic Sampling Grid Site 81
    W -122.19010000, E -122.19010000, N 44.23380000, S 44.23380000
    Altitude: 609 to 609 meter
  • Soil Synoptic Sampling Grid Site 82
    W -122.19060000, E -122.19060000, N 44.23610000, S 44.23610000
    Altitude: 682 to 682 meter
  • Soil Synoptic Sampling Grid Site 83
    W -122.19220000, E -122.19220000, N 44.23790000, S 44.23790000
    Altitude: 717 to 717 meter
  • Soil Synoptic Sampling Grid Site 84
    W -122.19300000, E -122.19300000, N 44.23790000, S 44.23790000
    Altitude: 735 to 735 meter
  • Soil Synoptic Sampling Grid Site 85
    W -122.19650000, E -122.19650000, N 44.23750000, S 44.23750000
    Altitude: 718 to 718 meter
  • Soil Synoptic Sampling Grid Site 86
    W -122.17870000, E -122.17870000, N 44.23110000, S 44.23110000
    Altitude: 652 to 652 meter
  • Soil Synoptic Sampling Grid Site 87
    W -122.17420000, E -122.17420000, N 44.23110000, S 44.23110000
    Altitude: 695 to 695 meter
  • Soil Synoptic Sampling Grid Site 88
    W -122.17270000, E -122.17270000, N 44.23000000, S 44.23000000
    Altitude: 527 to 527 meter
  • Soil Synoptic Sampling Grid Site 89
    W -122.17440000, E -122.17440000, N 44.23010000, S 44.23010000
    Altitude: 661 to 661 meter
  • Soil Synoptic Sampling Grid Site 90
    W -122.21660000, E -122.21660000, N 44.23050000, S 44.23050000
    Altitude: 548 to 548 meter
  • Soil Synoptic Sampling Grid Site 91
    W -122.21760000, E -122.21760000, N 44.23350000, S 44.23350000
    Altitude: 626 to 626 meter
  • Soil Synoptic Sampling Grid Site 92
    W -122.21830000, E -122.21830000, N 44.23790000, S 44.23790000
    Altitude: 705 to 705 meter
  • Soil Synoptic Sampling Grid Site 93
    W -122.21610000, E -122.21610000, N 44.23940000, S 44.23940000
    Altitude: 734 to 734 meter
  • Soil Synoptic Sampling Grid Site 94
    W -122.21340000, E -122.21340000, N 44.24150000, S 44.24150000
    Altitude: 752 to 752 meter
  • Soil Synoptic Sampling Grid Site 95
    W -122.21250000, E -122.21250000, N 44.24120000, S 44.24120000
    Altitude: 744 to 744 meter
  • Soil Synoptic Sampling Grid Site 96
    W -122.21090000, E -122.21090000, N 44.23800000, S 44.23800000
    Altitude: 759 to 759 meter
  • Soil Synoptic Sampling Grid Site 97
    W -122.21090000, E -122.21090000, N 44.23800000, S 44.23800000
    Altitude: 792 to 792 meter
  • Soil Synoptic Sampling Grid Site 98
    W -122.20760000, E -122.20760000, N 44.24300000, S 44.24300000
    Altitude: 743 to 743 meter
  • Soil Synoptic Sampling Grid Site 99
    W -122.20310000, E -122.20310000, N 44.24540000, S 44.24540000
    Altitude: 792 to 792 meter
  • Soil Synoptic Sampling Grid Site 100
    W -122.19770000, E -122.19770000, N 44.24840000, S 44.24840000
    Altitude: 799 to 799 meter
  • Soil Synoptic Sampling Grid Site 101
    W -122.19770000, E -122.19770000, N 44.24840000, S 44.24840000
    Altitude: 785 to 785 meter
  • Soil Synoptic Sampling Grid Site 102
    W -122.19890000, E -122.19890000, N 44.25210000, S 44.25210000
    Altitude: 830 to 830 meter
  • Soil Synoptic Sampling Grid Site 103
    W -122.19940000, E -122.19940000, N 44.24890000, S 44.24890000
    Altitude: 832 to 832 meter
  • Soil Synoptic Sampling Grid Site 104
    W -122.19900000, E -122.19900000, N 44.25600000, S 44.25600000
    Altitude: 850 to 850 meter
  • Soil Synoptic Sampling Grid Site 105
    W -122.19900000, E -122.19900000, N 44.25600000, S 44.25600000
    Altitude: 850 to 850 meter
  • Soil Synoptic Sampling Grid Site 111
    W -122.20450000, E -122.20450000, N 44.23740000, S 44.23740000
    Altitude: 577 to 577 meter
  • Soil Synoptic Sampling Grid Site 112
    W -122.20080000, E -122.20080000, N 44.24060000, S 44.24060000
    Altitude: 600 to 600 meter
  • Soil Synoptic Sampling Grid Site 113
    W -122.20240000, E -122.20240000, N 44.24080000, S 44.24080000
    Altitude: 667 to 667 meter
  • Soil Synoptic Sampling Grid Site 114
    W -122.19890000, E -122.19890000, N 44.24410000, S 44.24410000
    Altitude: 678 to 678 meter
  • Soil Synoptic Sampling Grid Site 115
    W -122.19500000, E -122.19500000, N 44.24670000, S 44.24670000
    Altitude: 692 to 692 meter
  • Soil Synoptic Sampling Grid Site 116
    W -122.19060000, E -122.19060000, N 44.24940000, S 44.24940000
    Altitude: 722 to 722 meter
  • Soil Synoptic Sampling Grid Site 117
    W -122.18790000, E -122.18790000, N 44.25210000, S 44.25210000
    Altitude: 742 to 742 meter
  • Soil Synoptic Sampling Grid Site 118
    W -122.18320000, E -122.18320000, N 44.25200000, S 44.25200000
    Altitude: 805 to 805 meter
  • Soil Synoptic Sampling Grid Site 119
    W -122.18080000, E -122.18080000, N 44.25810000, S 44.25810000
    Altitude: 833 to 833 meter
  • Soil Synoptic Sampling Grid Site 120
    W -122.17890000, E -122.17890000, N 44.25840000, S 44.25840000
    Altitude: 795 to 795 meter
  • Soil Synoptic Sampling Grid Site 121
    W -122.17560000, E -122.17560000, N 44.25600000, S 44.25600000
    Altitude: 843 to 843 meter
  • Soil Synoptic Sampling Grid Site 122
    W -122.17120000, E -122.17120000, N 44.25840000, S 44.25840000
    Altitude: 870 to 870 meter
  • Soil Synoptic Sampling Grid Site 123
    W -122.17480000, E -122.17480000, N 44.25890000, S 44.25890000
    Altitude: 888 to 888 meter
  • Soil Synoptic Sampling Grid Site 124
    W -122.17330000, E -122.17330000, N 44.26210000, S 44.26210000
    Altitude: 910 to 910 meter
  • Soil Synoptic Sampling Grid Site 125
    W -122.17440000, E -122.17440000, N 44.26410000, S 44.26410000
    Altitude: 908 to 908 meter
  • Soil Synoptic Sampling Grid Site 126
    W -122.17960000, E -122.17960000, N 44.26240000, S 44.26240000
    Altitude: 930 to 930 meter
  • Soil Synoptic Sampling Grid Site 127
    W -122.18450000, E -122.18450000, N 44.26390000, S 44.26390000
    Altitude: 971 to 971 meter
  • Soil Synoptic Sampling Grid Site 176
    W -122.10390000, E -122.10390000, N 44.21830000, S 44.21830000
    Altitude: 1505 to 1505 meter
  • Soil Synoptic Sampling Grid Site 128
    W -122.17950000, E -122.17950000, N 44.26550000, S 44.26550000
    Altitude: 1012 to 1012 meter
  • Soil Synoptic Sampling Grid Site 129
    W -122.18740000, E -122.18740000, N 44.26220000, S 44.26220000
    Altitude: 964 to 964 meter
  • Soil Synoptic Sampling Grid Site 130
    W -122.17100000, E -122.17100000, N 44.26610000, S 44.26610000
    Altitude: 967 to 967 meter
  • Soil Synoptic Sampling Grid Site 131
    W -122.17090000, E -122.17090000, N 44.25470000, S 44.25470000
    Altitude: 843 to 843 meter
  • Soil Synoptic Sampling Grid Site 132
    W -122.16890000, E -122.16890000, N 44.25420000, S 44.25420000
    Altitude: 847 to 847 meter
  • Soil Synoptic Sampling Grid Site 133
    W -122.16530000, E -122.16530000, N 44.25770000, S 44.25770000
    Altitude: 893 to 893 meter
  • Soil Synoptic Sampling Grid Site 134
    W -122.16190000, E -122.16190000, N 44.26090000, S 44.26090000
    Altitude: 927 to 927 meter
  • Soil Synoptic Sampling Grid Site 135
    W -122.16600000, E -122.16600000, N 44.23120000, S 44.23120000
    Altitude: 759 to 759 meter
  • Soil Synoptic Sampling Grid Site 136
    W -122.16510000, E -122.16510000, N 44.23470000, S 44.23470000
    Altitude: 782 to 782 meter
  • Soil Synoptic Sampling Grid Site 137
    W -122.16130000, E -122.16130000, N 44.23660000, S 44.23660000
    Altitude: 816 to 816 meter
  • Soil Synoptic Sampling Grid Site 138
    W -122.15930000, E -122.15930000, N 44.23700000, S 44.23700000
    Altitude: 843 to 843 meter
  • Soil Synoptic Sampling Grid Site 139
    W -122.15430000, E -122.15430000, N 44.23700000, S 44.23700000
    Altitude: 849 to 849 meter
  • Soil Synoptic Sampling Grid Site 140
    W -122.15190000, E -122.15190000, N 44.23740000, S 44.23740000
    Altitude: 884 to 884 meter
  • Soil Synoptic Sampling Grid Site 141
    W -122.15250000, E -122.15250000, N 44.24140000, S 44.24140000
    Altitude: 946 to 946 meter
  • Soil Synoptic Sampling Grid Site 142
    W -122.14890000, E -122.14890000, N 44.24250000, S 44.24250000
    Altitude: 976 to 976 meter
  • Soil Synoptic Sampling Grid Site 143
    W -122.14460000, E -122.14460000, N 44.24550000, S 44.24550000
    Altitude: 1020 to 1020 meter
  • Soil Synoptic Sampling Grid Site 144
    W -122.14830000, E -122.14830000, N 44.24640000, S 44.24640000
    Altitude: 1052 to 1052 meter
  • Soil Synoptic Sampling Grid Site 145
    W -122.15280000, E -122.15280000, N 44.24810000, S 44.24810000
    Altitude: 1078 to 1078 meter
  • Soil Synoptic Sampling Grid Site 146
    W -122.15300000, E -122.15300000, N 44.25020000, S 44.25020000
    Altitude: 1133 to 1133 meter
  • Soil Synoptic Sampling Grid Site 147
    W -122.15360000, E -122.15360000, N 44.25270000, S 44.25270000
    Altitude: 1192 to 1192 meter
  • Soil Synoptic Sampling Grid Site 148
    W -122.14880000, E -122.14880000, N 44.25750000, S 44.25750000
    Altitude: 1238 to 1238 meter
  • Soil Synoptic Sampling Grid Site 149
    W -122.14690000, E -122.14690000, N 44.26110000, S 44.26110000
    Altitude: 1244 to 1244 meter
  • Soil Synoptic Sampling Grid Site 150
    W -122.14330000, E -122.14330000, N 44.26380000, S 44.26380000
    Altitude: 1273 to 1273 meter
  • Soil Synoptic Sampling Grid Site 151
    W -122.13940000, E -122.13940000, N 44.26750000, S 44.26750000
    Altitude: 1300 to 1300 meter
  • Soil Synoptic Sampling Grid Site 152
    W -122.13620000, E -122.13620000, N 44.27340000, S 44.27340000
    Altitude: 1344 to 1344 meter
  • Soil Synoptic Sampling Grid Site 153
    W -122.13850000, E -122.13850000, N 44.27670000, S 44.27670000
    Altitude: 1401 to 1401 meter
  • Soil Synoptic Sampling Grid Site 154
    W -122.13850000, E -122.13850000, N 44.27670000, S 44.27670000
    Altitude: 1373 to 1373 meter
  • Soil Synoptic Sampling Grid Site 155
    W -122.15890000, E -122.15890000, N 44.27210000, S 44.27210000
    Altitude: 1271 to 1271 meter
  • Soil Synoptic Sampling Grid Site 156
    W -122.15370000, E -122.15370000, N 44.27060000, S 44.27060000
    Altitude: 1245 to 1245 meter
  • Soil Synoptic Sampling Grid Site 157
    W -122.16350000, E -122.16350000, N 44.27490000, S 44.27490000
    Altitude: 1275 to 1275 meter
  • Soil Synoptic Sampling Grid Site 158
    W -122.11950000, E -122.11950000, N 44.20930000, S 44.20930000
    Altitude: 1299 to 1299 meter
  • Soil Synoptic Sampling Grid Site 159
    W -122.11380000, E -122.11380000, N 44.20870000, S 44.20870000
    Altitude: 1200 to 1200 meter
  • Soil Synoptic Sampling Grid Site 160
    W -122.11340000, E -122.11340000, N 44.21410000, S 44.21410000
    Altitude: 1159 to 1159 meter
  • Soil Synoptic Sampling Grid Site 161
    W -122.11360000, E -122.11360000, N 44.21740000, S 44.21740000
    Altitude: 1103 to 1103 meter
  • Soil Synoptic Sampling Grid Site 162
    W -122.11530000, E -122.11530000, N 44.22170000, S 44.22170000
    Altitude: 1071 to 1071 meter
  • Soil Synoptic Sampling Grid Site 163
    W -122.11920000, E -122.11920000, N 44.22620000, S 44.22620000
    Altitude: 1042 to 1042 meter
  • Soil Synoptic Sampling Grid Site 164
    W -122.12400000, E -122.12400000, N 44.22930000, S 44.22930000
    Altitude: 983 to 983 meter
  • Soil Synoptic Sampling Grid Site 165
    W -122.12930000, E -122.12930000, N 44.23130000, S 44.23130000
    Altitude: 967 to 967 meter
  • Soil Synoptic Sampling Grid Site 166
    W -122.13540000, E -122.13540000, N 44.23240000, S 44.23240000
    Altitude: 916 to 916 meter
  • Soil Synoptic Sampling Grid Site 167
    W -122.14230000, E -122.14230000, N 44.23230000, S 44.23230000
    Altitude: 848 to 848 meter
  • Soil Synoptic Sampling Grid Site 168
    W -122.14700000, E -122.14700000, N 44.23350000, S 44.23350000
    Altitude: 814 to 814 meter
  • Soil Synoptic Sampling Grid Site 169
    W -122.15400000, E -122.15400000, N 44.23510000, S 44.23510000
    Altitude: 818 to 818 meter
  • Soil Synoptic Sampling Grid Site 170
    W -122.15940000, E -122.15940000, N 44.23340000, S 44.23340000
    Altitude: 784 to 784 meter
  • Soil Synoptic Sampling Grid Site 171
    W -122.11710000, E -122.11710000, N 44.20630000, S 44.20630000
    Altitude: 1307 to 1307 meter
  • Soil Synoptic Sampling Grid Site 172
    W -122.11310000, E -122.11310000, N 44.20400000, S 44.20400000
    Altitude: 1325 to 1325 meter
  • Soil Synoptic Sampling Grid Site 173
    W -122.10810000, E -122.10810000, N 44.20610000, S 44.20610000
    Altitude: 1352 to 1352 meter
  • Soil Synoptic Sampling Grid Site 174
    W -122.10570000, E -122.10570000, N 44.20890000, S 44.20890000
    Altitude: 1386 to 1386 meter
  • Soil Synoptic Sampling Grid Site 175
    W -122.10540000, E -122.10540000, N 44.21360000, S 44.21360000
    Altitude: 1447 to 1447 meter
  • Soil Synoptic Sampling Grid Site 177
    W -122.10610000, E -122.10610000, N 44.22270000, S 44.22270000
    Altitude: 1508 to 1508 meter
  • Soil Synoptic Sampling Grid Site 178
    W -122.10570000, E -122.10570000, N 44.22610000, S 44.22610000
    Altitude: 1528 to 1528 meter
  • Soil Synoptic Sampling Grid Site 179
    W -122.10460000, E -122.10460000, N 44.22920000, S 44.22920000
    Altitude: 1500 to 1500 meter
  • Soil Synoptic Sampling Grid Site 180
    W -122.10780000, E -122.10780000, N 44.23360000, S 44.23360000
    Altitude: 1468 to 1468 meter
  • Soil Synoptic Sampling Grid Site 181
    W -122.10780000, E -122.10780000, N 44.23360000, S 44.23360000
    Altitude: 1445 to 1445 meter
  • Soil Synoptic Sampling Grid Site 182
    W -122.11290000, E -122.11290000, N 44.23600000, S 44.23600000
    Altitude: 1449 to 1449 meter
  • Soil Synoptic Sampling Grid Site 183
    W -122.11510000, E -122.11510000, N 44.24010000, S 44.24010000
    Altitude: 1398 to 1398 meter
  • Soil Synoptic Sampling Grid Site 184
    W -122.11570000, E -122.11570000, N 44.24110000, S 44.24110000
    Altitude: 1388 to 1388 meter
  • Soil Synoptic Sampling Grid Site 185
    W -122.11980000, E -122.11980000, N 44.24420000, S 44.24420000
    Altitude: 1408 to 1408 meter
  • Soil Synoptic Sampling Grid Site 186
    W -122.12610000, E -122.12610000, N 44.24330000, S 44.24330000
    Altitude: 1451 to 1451 meter
  • Soil Synoptic Sampling Grid Site 187
    W -122.12760000, E -122.12760000, N 44.24690000, S 44.24690000
    Altitude: 1447 to 1447 meter
  • Soil Synoptic Sampling Grid Site 201
    W -122.18570000, E -122.18570000, N 44.23290000, S 44.23290000
    Altitude: 635 to 635 meter
Software

No software entries listed in this EML file.

Keywords
  • LTER controlled vocabulary: soil respiration (theme), respiration (theme), inorganic nutrients (theme), soil (theme), forests (theme)
  • Andrews Experimental Forest site thesaurus: Long-Term Ecological Research (LTER) (theme)
  • LTER core research areas: inorganic nutrients (theme)
Taxonomic Hierarchy
  • All Organisms: All Organisms
  • Highest common category (ca. kingdom): Plantae
  • Division or Phylum: Polypodiophyta
  • Class: Filicopsida
  • Order: Polypodiales
  • Family: Dennstaedtiaceae
  • Genus: Pteridium
  • Species: Pteridium aquilinum
  • Division or Phylum: Coniferophyta
  • Class: Pinopsida
  • Order: Taxales
  • Family: Taxaceae
  • Genus: Taxus
  • Species: Taxus brevifolia
  • Order: Pinales
  • Family: Pinaceae
  • Genus: Tsuga
  • Species: Tsuga heterophylla
  • Species: Tsuga mertensiana
  • Genus: Abies
  • Species: Abies concolor
  • Species: Abies amabilis
  • Genus: Pinus
  • Species: Pinus albicaulis
  • Genus: Pseudotsuga
  • Species: Pseudotsuga menziesii
  • Family: Cupressaceae
  • Genus: Thuja
  • Species: Thuja plicata
  • Division or Phylum: Magnoliophyta
  • Class: Magnoliopsida
  • Subclass: Rosidae
  • Order: Myrtales
  • Family: Onagraceae
  • Genus: Epilobium
  • Species: Epilobium angustifolium
  • Order: Rosales
  • Family: Rosaceae
  • Genus: Rubus
  • Species: Rubus ursinus
  • Order: Geraniales
  • Family: Oxalidaceae
  • Genus: Oxalis
  • Species: Oxalis oregana
  • Order: Fabales
  • Family: Fabaceae
  • Genus: Lupinus
  • Order: Rhamnales
  • Family: Rhamnaceae
  • Genus: Ceanothus
  • Species: Ceanothus velutinus
  • Order: Sapindales
  • Family: Aceraceae
  • Genus: Acer
  • Species: Acer macrophyllum
  • Species: Acer circinatum
  • Order: Apiales
  • Family: Araliaceae
  • Genus: Oplopanax
  • Species: Oplopanax horridus
  • Subclass: Hamamelididae
  • Order: Fagales
  • Family: Betulaceae
  • Genus: Alnus
  • Species: Alnus sinuata
  • Species: Alnus rubra
  • Family: Fagaceae
  • Genus: Chrysolepis
  • Species: Castanopsis chrysophylla
  • Subclass: Magnoliidae
  • Order: Ranunculales
  • Family: Berberidaceae
  • Genus: Berberis
  • Species: Berberis nervosa
  • Subclass: Dilleniidae
  • Order: Salicales
  • Family: Salicaceae
  • Genus: Populus
  • Species: Populus trichocarpa
  • Order: Ericales
  • Family: Ericaceae
  • Genus: Vaccinium
  • Species: Vaccinium uliginosum
  • Genus: Gaultheria
  • Species: Gaultheria shallon
  • Genus: Rhododendron
  • Species: Rhododendron macrophyllum
  • Class: Liliopsida
  • Subclass: Commelinidae
  • Order: Cyperales
  • Family: Cyperaceae
  • Genus: Scirpus
  • Species: Scirpus setaceus
Data Entities
# Entity Metadata Data
1 SP01001
SP01001
Long-term respiration in soils collected from the REU synoptic Andrews sample grid:
 METADATA DATA
2 SP01002
SP01002
Soil synoptic grid site characteristics, locations and descriptions:
 METADATA DATA
3 SP01003
SP01003
Vegetation on soil synoptic sample grid:
 METADATA DATA
Metadata
SP01001 - SP01001

Object name: SP01001.csv

Records: 4104

Attributes: 7

Temporal coverage: 1994-09-15 to 1995-07-12

File size: 173280 byte

Checksum (MD5): f54f247e2117dd1adeeed99356955c5b

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

Constraints (2)
  • primaryKey: PRIMARY
    SP01001.WEEK_NO, SP01001.SSSG_SITE
  • notNullConstraint: NOTNULL
    SP01001.SITE_NO, SP01001.DBCODE, SP01001.ENTITY, SP01001.WEEK_NO, SP01001.SSSG_SITE
Attributes (7)
DBCODE - char(5) (nominal)

ID: SP01001.DBCODE

FSDB Database Code

Type system: Microsoft SQL Server 2008

Code definitions (1)
  • SP010
    FSDB Database Code SP010
ENTITY - numeric(2,0) (interval)

ID: SP01001.ENTITY

Entity number

Type system: Microsoft SQL Server 2008

Unit: number

Precision: 1

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

SSSG_SITE - char(10) (nominal)

ID: SP01001.SSSG_SITE

Soil synoptic sample grid sitecode

Type system: Microsoft SQL Server 2008

Code definitions (183)
  • SSSG_0001A
    Soil Synoptic Sampling Grid Site 1A
  • SSSG_0002
    Soil Synoptic Sampling Grid Site 2
  • SSSG_0003
    Soil Synoptic Sampling Grid Site 3
  • SSSG_0004
    Soil Synoptic Sampling Grid Site 4
  • SSSG_0005
    Soil Synoptic Sampling Grid Site 5
  • SSSG_0006
    Soil Synoptic Sampling Grid Site 6
  • SSSG_0007
    Soil Synoptic Sampling Grid Site 7
  • SSSG_0008
    Soil Synoptic Sampling Grid Site 8
  • SSSG_0009
    Soil Synoptic Sampling Grid Site 9
  • SSSG_0010
    Soil Synoptic Sampling Grid Site 10
  • SSSG_0011
    Soil Synoptic Sampling Grid Site 11
  • SSSG_0012
    Soil Synoptic Sampling Grid Site 12
  • SSSG_0013
    Soil Synoptic Sampling Grid Site 13
  • SSSG_0014
    Soil Synoptic Sampling Grid Site 14
  • SSSG_0015
    Soil Synoptic Sampling Grid Site 15
  • SSSG_0016
    Soil Synoptic Sampling Grid Site 16
  • SSSG_0017
    Soil Synoptic Sampling Grid Site 17
  • SSSG_0018
    Soil Synoptic Sampling Grid Site 18
  • SSSG_0019
    Soil Synoptic Sampling Grid Site 19
  • SSSG_0020
    Soil Synoptic Sampling Grid Site 20
  • SSSG_0021
    Soil Synoptic Sampling Grid Site 21
  • SSSG_0022
    Soil Synoptic Sampling Grid Site 22
  • SSSG_0023
    Soil Synoptic Sampling Grid Site 23
  • SSSG_0024
    Soil Synoptic Sampling Grid Site 24
  • SSSG_0025
    Soil Synoptic Sampling Grid Site 25
  • SSSG_0026
    Soil Synoptic Sampling Grid Site 26
  • SSSG_0027
    Soil Synoptic Sampling Grid Site 27
  • SSSG_0028
    Soil Synoptic Sampling Grid Site 28
  • SSSG_0029
    Soil Synoptic Sampling Grid Site 29
  • SSSG_0030
    Soil Synoptic Sampling Grid Site 30
  • SSSG_0031
    Soil Synoptic Sampling Grid Site 31
  • SSSG_0032
    Soil Synoptic Sampling Grid Site 32
  • SSSG_0033
    Soil Synoptic Sampling Grid Site 33
  • SSSG_0034
    Soil Synoptic Sampling Grid Site 34
  • SSSG_0035
    Soil Synoptic Sampling Grid Site 35
  • SSSG_0036
    Soil Synoptic Sampling Grid Site 36
  • SSSG_0037
    Soil Synoptic Sampling Grid Site 37
  • SSSG_0038
    Soil Synoptic Sampling Grid Site 38
  • SSSG_0039
    Soil Synoptic Sampling Grid Site 39
  • SSSG_0040
    Soil Synoptic Sampling Grid Site 40
  • SSSG_0041
    Soil Synoptic Sampling Grid Site 41
  • SSSG_0042
    Soil Synoptic Sampling Grid Site 42
  • SSSG_0043
    Soil Synoptic Sampling Grid Site 43
  • SSSG_0044
    Soil Synoptic Sampling Grid Site 44
  • SSSG_0045
    Soil Synoptic Sampling Grid Site 45
  • SSSG_0046
    Soil Synoptic Sampling Grid Site 46
  • SSSG_0047
    Soil Synoptic Sampling Grid Site 47
  • SSSG_0048
    Soil Synoptic Sampling Grid Site 48
  • SSSG_0049
    Soil Synoptic Sampling Grid Site 49
  • SSSG_0050
    Soil Synoptic Sampling Grid Site 50
  • SSSG_0050A
    Soil Synoptic Sampling Grid Site 50A
  • SSSG_0051
    Soil Synoptic Sampling Grid Site 51
  • SSSG_0052
    Soil Synoptic Sampling Grid Site 52
  • SSSG_0053
    Soil Synoptic Sampling Grid Site 53
  • SSSG_0054
    Soil Synoptic Sampling Grid Site 54
  • SSSG_0055
    Soil Synoptic Sampling Grid Site 55
  • SSSG_0056
    Soil Synoptic Sampling Grid Site 56
  • SSSG_0057
    Soil Synoptic Sampling Grid Site 57
  • SSSG_0058
    Soil Synoptic Sampling Grid Site 58
  • SSSG_0059
    Soil Synoptic Sampling Grid Site 59
  • SSSG_0060
    Soil Synoptic Sampling Grid Site 60
  • SSSG_0061
    Soil Synoptic Sampling Grid Site 61
  • SSSG_0062
    Soil Synoptic Sampling Grid Site 62
  • SSSG_0063
    Soil Synoptic Sampling Grid Site 63
  • SSSG_0064
    Soil Synoptic Sampling Grid Site 64
  • SSSG_0065
    Soil Synoptic Sampling Grid Site 65
  • SSSG_0066
    Soil Synoptic Sampling Grid Site 66
  • SSSG_0067
    Soil Synoptic Sampling Grid Site 67
  • SSSG_0068
    Soil Synoptic Sampling Grid Site 68
  • SSSG_0069
    Soil Synoptic Sampling Grid Site 69
  • SSSG_0070
    Soil Synoptic Sampling Grid Site 70
  • SSSG_0071
    Soil Synoptic Sampling Grid Site 71
  • SSSG_0072
    Soil Synoptic Sampling Grid Site 72
  • SSSG_0073
    Soil Synoptic Sampling Grid Site 73
  • SSSG_0074
    Soil Synoptic Sampling Grid Site 74
  • SSSG_0075
    Soil Synoptic Sampling Grid Site 75
  • SSSG_0076
    Soil Synoptic Sampling Grid Site 76
  • SSSG_0078
    Soil Synoptic Sampling Grid Site 78
  • SSSG_0079
    Soil Synoptic Sampling Grid Site 79
  • SSSG_0080
    Soil Synoptic Sampling Grid Site 80
  • SSSG_0081
    Soil Synoptic Sampling Grid Site 81
  • SSSG_0082
    Soil Synoptic Sampling Grid Site 82
  • SSSG_0083
    Soil Synoptic Sampling Grid Site 83
  • SSSG_0084
    Soil Synoptic Sampling Grid Site 84
  • SSSG_0085
    Soil Synoptic Sampling Grid Site 85
  • SSSG_0086
    Soil Synoptic Sampling Grid Site 86
  • SSSG_0087
    Soil Synoptic Sampling Grid Site 87
  • SSSG_0088
    Soil Synoptic Sampling Grid Site 88
  • SSSG_0089
    Soil Synoptic Sampling Grid Site 89
  • SSSG_0090
    Soil Synoptic Sampling Grid Site 90
  • SSSG_0091
    Soil Synoptic Sampling Grid Site 91
  • SSSG_0092
    Soil Synoptic Sampling Grid Site 92
  • SSSG_0093
    Soil Synoptic Sampling Grid Site 93
  • SSSG_0094
    Soil Synoptic Sampling Grid Site 94
  • SSSG_0095
    Soil Synoptic Sampling Grid Site 95
  • SSSG_0096
    Soil Synoptic Sampling Grid Site 96
  • SSSG_0097
    Soil Synoptic Sampling Grid Site 97
  • SSSG_0098
    Soil Synoptic Sampling Grid Site 98
  • SSSG_0099
    Soil Synoptic Sampling Grid Site 99
  • SSSG_0100
    Soil Synoptic Sampling Grid Site 100
  • SSSG_0101
    Soil Synoptic Sampling Grid Site 101
  • SSSG_0102
    Soil Synoptic Sampling Grid Site 102
  • SSSG_0103
    Soil Synoptic Sampling Grid Site 103
  • SSSG_0104
    Soil Synoptic Sampling Grid Site 104
  • SSSG_0105
    Soil Synoptic Sampling Grid Site 105
  • SSSG_0111
    Soil Synoptic Sampling Grid Site 111
  • SSSG_0112
    Soil Synoptic Sampling Grid Site 112
  • SSSG_0113
    Soil Synoptic Sampling Grid Site 113
  • SSSG_0114
    Soil Synoptic Sampling Grid Site 114
  • SSSG_0115
    Soil Synoptic Sampling Grid Site 115
  • SSSG_0116
    Soil Synoptic Sampling Grid Site 116
  • SSSG_0117
    Soil Synoptic Sampling Grid Site 117
  • SSSG_0118
    Soil Synoptic Sampling Grid Site 118
  • SSSG_0119
    Soil Synoptic Sampling Grid Site 119
  • SSSG_0120
    Soil Synoptic Sampling Grid Site 120
  • SSSG_0121
    Soil Synoptic Sampling Grid Site 121
  • SSSG_0122
    Soil Synoptic Sampling Grid Site 122
  • SSSG_0123
    Soil Synoptic Sampling Grid Site 123
  • SSSG_0124
    Soil Synoptic Sampling Grid Site 124
  • SSSG_0125
    Soil Synoptic Sampling Grid Site 125
  • SSSG_0126
    Soil Synoptic Sampling Grid Site 126
  • SSSG_0127
    Soil Synoptic Sampling Grid Site 127
  • SSSG_0176
    Soil Synoptic Sampling Grid Site 176
  • SSSG_0128
    Soil Synoptic Sampling Grid Site 128
  • SSSG_0129
    Soil Synoptic Sampling Grid Site 129
  • SSSG_0130
    Soil Synoptic Sampling Grid Site 130
  • SSSG_0131
    Soil Synoptic Sampling Grid Site 131
  • SSSG_0132
    Soil Synoptic Sampling Grid Site 132
  • SSSG_0133
    Soil Synoptic Sampling Grid Site 133
  • SSSG_0134
    Soil Synoptic Sampling Grid Site 134
  • SSSG_0135
    Soil Synoptic Sampling Grid Site 135
  • SSSG_0136
    Soil Synoptic Sampling Grid Site 136
  • SSSG_0137
    Soil Synoptic Sampling Grid Site 137
  • SSSG_0138
    Soil Synoptic Sampling Grid Site 138
  • SSSG_0139
    Soil Synoptic Sampling Grid Site 139
  • SSSG_0140
    Soil Synoptic Sampling Grid Site 140
  • SSSG_0141
    Soil Synoptic Sampling Grid Site 141
  • SSSG_0142
    Soil Synoptic Sampling Grid Site 142
  • SSSG_0143
    Soil Synoptic Sampling Grid Site 143
  • SSSG_0144
    Soil Synoptic Sampling Grid Site 144
  • SSSG_0145
    Soil Synoptic Sampling Grid Site 145
  • SSSG_0146
    Soil Synoptic Sampling Grid Site 146
  • SSSG_0147
    Soil Synoptic Sampling Grid Site 147
  • SSSG_0148
    Soil Synoptic Sampling Grid Site 148
  • SSSG_0149
    Soil Synoptic Sampling Grid Site 149
  • SSSG_0150
    Soil Synoptic Sampling Grid Site 150
  • SSSG_0151
    Soil Synoptic Sampling Grid Site 151
  • SSSG_0152
    Soil Synoptic Sampling Grid Site 152
  • SSSG_0153
    Soil Synoptic Sampling Grid Site 153
  • SSSG_0154
    Soil Synoptic Sampling Grid Site 154
  • SSSG_0155
    Soil Synoptic Sampling Grid Site 155
  • SSSG_0156
    Soil Synoptic Sampling Grid Site 156
  • SSSG_0157
    Soil Synoptic Sampling Grid Site 157
  • SSSG_0158
    Soil Synoptic Sampling Grid Site 158
  • SSSG_0159
    Soil Synoptic Sampling Grid Site 159
  • SSSG_0160
    Soil Synoptic Sampling Grid Site 160
  • SSSG_0161
    Soil Synoptic Sampling Grid Site 161
  • SSSG_0162
    Soil Synoptic Sampling Grid Site 162
  • SSSG_0163
    Soil Synoptic Sampling Grid Site 163
  • SSSG_0164
    Soil Synoptic Sampling Grid Site 164
  • SSSG_0165
    Soil Synoptic Sampling Grid Site 165
  • SSSG_0166
    Soil Synoptic Sampling Grid Site 166
  • SSSG_0167
    Soil Synoptic Sampling Grid Site 167
  • SSSG_0168
    Soil Synoptic Sampling Grid Site 168
  • SSSG_0169
    Soil Synoptic Sampling Grid Site 169
  • SSSG_0170
    Soil Synoptic Sampling Grid Site 170
  • SSSG_0171
    Soil Synoptic Sampling Grid Site 171
  • SSSG_0172
    Soil Synoptic Sampling Grid Site 172
  • SSSG_0173
    Soil Synoptic Sampling Grid Site 173
  • SSSG_0174
    Soil Synoptic Sampling Grid Site 174
  • SSSG_0175
    Soil Synoptic Sampling Grid Site 175
  • SSSG_0177
    Soil Synoptic Sampling Grid Site 177
  • SSSG_0178
    Soil Synoptic Sampling Grid Site 178
  • SSSG_0179
    Soil Synoptic Sampling Grid Site 179
  • SSSG_0180
    Soil Synoptic Sampling Grid Site 180
  • SSSG_0181
    Soil Synoptic Sampling Grid Site 181
  • SSSG_0182
    Soil Synoptic Sampling Grid Site 182
  • SSSG_0183
    Soil Synoptic Sampling Grid Site 183
  • SSSG_0184
    Soil Synoptic Sampling Grid Site 184
  • SSSG_0185
    Soil Synoptic Sampling Grid Site 185
  • SSSG_0186
    Soil Synoptic Sampling Grid Site 186
  • SSSG_0187
    Soil Synoptic Sampling Grid Site 187
  • SSSG_0201
    Soil Synoptic Sampling Grid Site 201
SITE_NO - numeric(3,0) (interval)

ID: SP01001.SITE_NO

Site number for reu synoptic sample grid

Type system: Microsoft SQL Server 2008

Unit: number

Precision: 1.000000

Numeric domain: type=natural, min=1.0000 (exclusive=false), max=210.0000 (exclusive=false)

WEEK_NO - numeric(2,0) (interval)

ID: SP01001.WEEK_NO

Measurement week (duration is from current week to previously measured week)

Type system: Microsoft SQL Server 2008

Unit: number

Precision: 1

Numeric domain: type=whole, min=1.0000 (exclusive=false), max=41.0000 (exclusive=false)

RESP - numeric(4,1) (ratio)

ID: SP01001.RESP

CO2 respired during measurement week (duration from current week to previously measured week)

Type system: Microsoft SQL Server 2008

Unit: micrograms per gram per week

Precision: 1

Numeric domain: type=real, min=0.0000 (exclusive=false), max=40.0000 (exclusive=false)

SAMPLEDATE - datetime (dateTime)

ID: SP01001.SAMPLEDATE

Approximate sample date based on start of study and week number (actual dates were not provided)

Type system: Microsoft SQL Server 2008

Date format: YYYY-MM-DD

SP01002 - SP01002

Object name: SP01002.csv

Records: 183

Attributes: 13

Temporal coverage: 1994-09-15 to 1995-07-12

File size: 35358 byte

Checksum (MD5): a11c1a0c488a7ae8d11e377c227ccc20

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

Constraints (2)
  • primaryKey: PRIMARY
    SP01002.SSSG_SITE
  • notNullConstraint: NOTNULL
    SP01002.DBCODE, SP01002.ENTITY, SP01002.SSSG_SITE, SP01002.ASPECT, SP01002.DIRECTION, SP01002.STANDAGE, SP01002.LATITUDE, SP01002.LONGITUDE, SP01002.ELEVATION
Attributes (13)
DBCODE - char(5) (nominal)

ID: SP01002.DBCODE

FSDB Database Code

Type system: Microsoft SQL Server 2008

Code definitions (1)
  • SP010
    FSDB Database Code SP010
ENTITY - numeric(2,0) (interval)

ID: SP01002.ENTITY

Entity number

Type system: Microsoft SQL Server 2008

Unit: number

Precision: 1

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

SSSG_SITE - char(10) (nominal)

ID: SP01002.SSSG_SITE

Soil synoptic sample grid sitecode

Type system: Microsoft SQL Server 2008

Code definitions (183)
  • SSSG_0001A
    Soil Synoptic Sampling Grid Site 1A
  • SSSG_0002
    Soil Synoptic Sampling Grid Site 2
  • SSSG_0003
    Soil Synoptic Sampling Grid Site 3
  • SSSG_0004
    Soil Synoptic Sampling Grid Site 4
  • SSSG_0005
    Soil Synoptic Sampling Grid Site 5
  • SSSG_0006
    Soil Synoptic Sampling Grid Site 6
  • SSSG_0007
    Soil Synoptic Sampling Grid Site 7
  • SSSG_0008
    Soil Synoptic Sampling Grid Site 8
  • SSSG_0009
    Soil Synoptic Sampling Grid Site 9
  • SSSG_0010
    Soil Synoptic Sampling Grid Site 10
  • SSSG_0011
    Soil Synoptic Sampling Grid Site 11
  • SSSG_0012
    Soil Synoptic Sampling Grid Site 12
  • SSSG_0013
    Soil Synoptic Sampling Grid Site 13
  • SSSG_0014
    Soil Synoptic Sampling Grid Site 14
  • SSSG_0015
    Soil Synoptic Sampling Grid Site 15
  • SSSG_0016
    Soil Synoptic Sampling Grid Site 16
  • SSSG_0017
    Soil Synoptic Sampling Grid Site 17
  • SSSG_0018
    Soil Synoptic Sampling Grid Site 18
  • SSSG_0019
    Soil Synoptic Sampling Grid Site 19
  • SSSG_0020
    Soil Synoptic Sampling Grid Site 20
  • SSSG_0021
    Soil Synoptic Sampling Grid Site 21
  • SSSG_0022
    Soil Synoptic Sampling Grid Site 22
  • SSSG_0023
    Soil Synoptic Sampling Grid Site 23
  • SSSG_0024
    Soil Synoptic Sampling Grid Site 24
  • SSSG_0025
    Soil Synoptic Sampling Grid Site 25
  • SSSG_0026
    Soil Synoptic Sampling Grid Site 26
  • SSSG_0027
    Soil Synoptic Sampling Grid Site 27
  • SSSG_0028
    Soil Synoptic Sampling Grid Site 28
  • SSSG_0029
    Soil Synoptic Sampling Grid Site 29
  • SSSG_0030
    Soil Synoptic Sampling Grid Site 30
  • SSSG_0031
    Soil Synoptic Sampling Grid Site 31
  • SSSG_0032
    Soil Synoptic Sampling Grid Site 32
  • SSSG_0033
    Soil Synoptic Sampling Grid Site 33
  • SSSG_0034
    Soil Synoptic Sampling Grid Site 34
  • SSSG_0035
    Soil Synoptic Sampling Grid Site 35
  • SSSG_0036
    Soil Synoptic Sampling Grid Site 36
  • SSSG_0037
    Soil Synoptic Sampling Grid Site 37
  • SSSG_0038
    Soil Synoptic Sampling Grid Site 38
  • SSSG_0039
    Soil Synoptic Sampling Grid Site 39
  • SSSG_0040
    Soil Synoptic Sampling Grid Site 40
  • SSSG_0041
    Soil Synoptic Sampling Grid Site 41
  • SSSG_0042
    Soil Synoptic Sampling Grid Site 42
  • SSSG_0043
    Soil Synoptic Sampling Grid Site 43
  • SSSG_0044
    Soil Synoptic Sampling Grid Site 44
  • SSSG_0045
    Soil Synoptic Sampling Grid Site 45
  • SSSG_0046
    Soil Synoptic Sampling Grid Site 46
  • SSSG_0047
    Soil Synoptic Sampling Grid Site 47
  • SSSG_0048
    Soil Synoptic Sampling Grid Site 48
  • SSSG_0049
    Soil Synoptic Sampling Grid Site 49
  • SSSG_0050
    Soil Synoptic Sampling Grid Site 50
  • SSSG_0050A
    Soil Synoptic Sampling Grid Site 50A
  • SSSG_0051
    Soil Synoptic Sampling Grid Site 51
  • SSSG_0052
    Soil Synoptic Sampling Grid Site 52
  • SSSG_0053
    Soil Synoptic Sampling Grid Site 53
  • SSSG_0054
    Soil Synoptic Sampling Grid Site 54
  • SSSG_0055
    Soil Synoptic Sampling Grid Site 55
  • SSSG_0056
    Soil Synoptic Sampling Grid Site 56
  • SSSG_0057
    Soil Synoptic Sampling Grid Site 57
  • SSSG_0058
    Soil Synoptic Sampling Grid Site 58
  • SSSG_0059
    Soil Synoptic Sampling Grid Site 59
  • SSSG_0060
    Soil Synoptic Sampling Grid Site 60
  • SSSG_0061
    Soil Synoptic Sampling Grid Site 61
  • SSSG_0062
    Soil Synoptic Sampling Grid Site 62
  • SSSG_0063
    Soil Synoptic Sampling Grid Site 63
  • SSSG_0064
    Soil Synoptic Sampling Grid Site 64
  • SSSG_0065
    Soil Synoptic Sampling Grid Site 65
  • SSSG_0066
    Soil Synoptic Sampling Grid Site 66
  • SSSG_0067
    Soil Synoptic Sampling Grid Site 67
  • SSSG_0068
    Soil Synoptic Sampling Grid Site 68
  • SSSG_0069
    Soil Synoptic Sampling Grid Site 69
  • SSSG_0070
    Soil Synoptic Sampling Grid Site 70
  • SSSG_0071
    Soil Synoptic Sampling Grid Site 71
  • SSSG_0072
    Soil Synoptic Sampling Grid Site 72
  • SSSG_0073
    Soil Synoptic Sampling Grid Site 73
  • SSSG_0074
    Soil Synoptic Sampling Grid Site 74
  • SSSG_0075
    Soil Synoptic Sampling Grid Site 75
  • SSSG_0076
    Soil Synoptic Sampling Grid Site 76
  • SSSG_0078
    Soil Synoptic Sampling Grid Site 78
  • SSSG_0079
    Soil Synoptic Sampling Grid Site 79
  • SSSG_0080
    Soil Synoptic Sampling Grid Site 80
  • SSSG_0081
    Soil Synoptic Sampling Grid Site 81
  • SSSG_0082
    Soil Synoptic Sampling Grid Site 82
  • SSSG_0083
    Soil Synoptic Sampling Grid Site 83
  • SSSG_0084
    Soil Synoptic Sampling Grid Site 84
  • SSSG_0085
    Soil Synoptic Sampling Grid Site 85
  • SSSG_0086
    Soil Synoptic Sampling Grid Site 86
  • SSSG_0087
    Soil Synoptic Sampling Grid Site 87
  • SSSG_0088
    Soil Synoptic Sampling Grid Site 88
  • SSSG_0089
    Soil Synoptic Sampling Grid Site 89
  • SSSG_0090
    Soil Synoptic Sampling Grid Site 90
  • SSSG_0091
    Soil Synoptic Sampling Grid Site 91
  • SSSG_0092
    Soil Synoptic Sampling Grid Site 92
  • SSSG_0093
    Soil Synoptic Sampling Grid Site 93
  • SSSG_0094
    Soil Synoptic Sampling Grid Site 94
  • SSSG_0095
    Soil Synoptic Sampling Grid Site 95
  • SSSG_0096
    Soil Synoptic Sampling Grid Site 96
  • SSSG_0097
    Soil Synoptic Sampling Grid Site 97
  • SSSG_0098
    Soil Synoptic Sampling Grid Site 98
  • SSSG_0099
    Soil Synoptic Sampling Grid Site 99
  • SSSG_0100
    Soil Synoptic Sampling Grid Site 100
  • SSSG_0101
    Soil Synoptic Sampling Grid Site 101
  • SSSG_0102
    Soil Synoptic Sampling Grid Site 102
  • SSSG_0103
    Soil Synoptic Sampling Grid Site 103
  • SSSG_0104
    Soil Synoptic Sampling Grid Site 104
  • SSSG_0105
    Soil Synoptic Sampling Grid Site 105
  • SSSG_0111
    Soil Synoptic Sampling Grid Site 111
  • SSSG_0112
    Soil Synoptic Sampling Grid Site 112
  • SSSG_0113
    Soil Synoptic Sampling Grid Site 113
  • SSSG_0114
    Soil Synoptic Sampling Grid Site 114
  • SSSG_0115
    Soil Synoptic Sampling Grid Site 115
  • SSSG_0116
    Soil Synoptic Sampling Grid Site 116
  • SSSG_0117
    Soil Synoptic Sampling Grid Site 117
  • SSSG_0118
    Soil Synoptic Sampling Grid Site 118
  • SSSG_0119
    Soil Synoptic Sampling Grid Site 119
  • SSSG_0120
    Soil Synoptic Sampling Grid Site 120
  • SSSG_0121
    Soil Synoptic Sampling Grid Site 121
  • SSSG_0122
    Soil Synoptic Sampling Grid Site 122
  • SSSG_0123
    Soil Synoptic Sampling Grid Site 123
  • SSSG_0124
    Soil Synoptic Sampling Grid Site 124
  • SSSG_0125
    Soil Synoptic Sampling Grid Site 125
  • SSSG_0126
    Soil Synoptic Sampling Grid Site 126
  • SSSG_0127
    Soil Synoptic Sampling Grid Site 127
  • SSSG_0176
    Soil Synoptic Sampling Grid Site 176
  • SSSG_0128
    Soil Synoptic Sampling Grid Site 128
  • SSSG_0129
    Soil Synoptic Sampling Grid Site 129
  • SSSG_0130
    Soil Synoptic Sampling Grid Site 130
  • SSSG_0131
    Soil Synoptic Sampling Grid Site 131
  • SSSG_0132
    Soil Synoptic Sampling Grid Site 132
  • SSSG_0133
    Soil Synoptic Sampling Grid Site 133
  • SSSG_0134
    Soil Synoptic Sampling Grid Site 134
  • SSSG_0135
    Soil Synoptic Sampling Grid Site 135
  • SSSG_0136
    Soil Synoptic Sampling Grid Site 136
  • SSSG_0137
    Soil Synoptic Sampling Grid Site 137
  • SSSG_0138
    Soil Synoptic Sampling Grid Site 138
  • SSSG_0139
    Soil Synoptic Sampling Grid Site 139
  • SSSG_0140
    Soil Synoptic Sampling Grid Site 140
  • SSSG_0141
    Soil Synoptic Sampling Grid Site 141
  • SSSG_0142
    Soil Synoptic Sampling Grid Site 142
  • SSSG_0143
    Soil Synoptic Sampling Grid Site 143
  • SSSG_0144
    Soil Synoptic Sampling Grid Site 144
  • SSSG_0145
    Soil Synoptic Sampling Grid Site 145
  • SSSG_0146
    Soil Synoptic Sampling Grid Site 146
  • SSSG_0147
    Soil Synoptic Sampling Grid Site 147
  • SSSG_0148
    Soil Synoptic Sampling Grid Site 148
  • SSSG_0149
    Soil Synoptic Sampling Grid Site 149
  • SSSG_0150
    Soil Synoptic Sampling Grid Site 150
  • SSSG_0151
    Soil Synoptic Sampling Grid Site 151
  • SSSG_0152
    Soil Synoptic Sampling Grid Site 152
  • SSSG_0153
    Soil Synoptic Sampling Grid Site 153
  • SSSG_0154
    Soil Synoptic Sampling Grid Site 154
  • SSSG_0155
    Soil Synoptic Sampling Grid Site 155
  • SSSG_0156
    Soil Synoptic Sampling Grid Site 156
  • SSSG_0157
    Soil Synoptic Sampling Grid Site 157
  • SSSG_0158
    Soil Synoptic Sampling Grid Site 158
  • SSSG_0159
    Soil Synoptic Sampling Grid Site 159
  • SSSG_0160
    Soil Synoptic Sampling Grid Site 160
  • SSSG_0161
    Soil Synoptic Sampling Grid Site 161
  • SSSG_0162
    Soil Synoptic Sampling Grid Site 162
  • SSSG_0163
    Soil Synoptic Sampling Grid Site 163
  • SSSG_0164
    Soil Synoptic Sampling Grid Site 164
  • SSSG_0165
    Soil Synoptic Sampling Grid Site 165
  • SSSG_0166
    Soil Synoptic Sampling Grid Site 166
  • SSSG_0167
    Soil Synoptic Sampling Grid Site 167
  • SSSG_0168
    Soil Synoptic Sampling Grid Site 168
  • SSSG_0169
    Soil Synoptic Sampling Grid Site 169
  • SSSG_0170
    Soil Synoptic Sampling Grid Site 170
  • SSSG_0171
    Soil Synoptic Sampling Grid Site 171
  • SSSG_0172
    Soil Synoptic Sampling Grid Site 172
  • SSSG_0173
    Soil Synoptic Sampling Grid Site 173
  • SSSG_0174
    Soil Synoptic Sampling Grid Site 174
  • SSSG_0175
    Soil Synoptic Sampling Grid Site 175
  • SSSG_0177
    Soil Synoptic Sampling Grid Site 177
  • SSSG_0178
    Soil Synoptic Sampling Grid Site 178
  • SSSG_0179
    Soil Synoptic Sampling Grid Site 179
  • SSSG_0180
    Soil Synoptic Sampling Grid Site 180
  • SSSG_0181
    Soil Synoptic Sampling Grid Site 181
  • SSSG_0182
    Soil Synoptic Sampling Grid Site 182
  • SSSG_0183
    Soil Synoptic Sampling Grid Site 183
  • SSSG_0184
    Soil Synoptic Sampling Grid Site 184
  • SSSG_0185
    Soil Synoptic Sampling Grid Site 185
  • SSSG_0186
    Soil Synoptic Sampling Grid Site 186
  • SSSG_0187
    Soil Synoptic Sampling Grid Site 187
  • SSSG_0201
    Soil Synoptic Sampling Grid Site 201
LATITUDE - numeric(10,4) (ratio)

ID: SP01002.LATITUDE

Latitude of site

Type system: Microsoft SQL Server 2008

Unit: decimal degrees latitude or longitude

Precision: 1

Numeric domain: type=real, min=44.2033 (exclusive=false), max=44.2767 (exclusive=false)

LONGITUDE - numeric(10,4) (interval)

ID: SP01002.LONGITUDE

Longitude of site

Type system: Microsoft SQL Server 2008

Unit: decimal degrees latitude or longitude

Precision: 1

Numeric domain: type=whole, min=-122.2586 (exclusive=false), max=-122.1039 (exclusive=false)

ELEVATION - numeric(4,0) (ratio)

ID: SP01002.ELEVATION

Elevation of site

Type system: Microsoft SQL Server 2008

Unit: meters

Precision: 1

Numeric domain: type=real, min=443.0000 (exclusive=false), max=1528.0000 (exclusive=false)

ASPECT - char(10) (nominal)

ID: SP01002.ASPECT

Site aspect

Type system: Microsoft SQL Server 2008

Code definitions (11)
  • East
    East
  • Flat
    Flat
  • North
    North
  • Northeast
    Northeast
  • Northwest
    Northwest
  • Ridge top
    Ridge top
  • South
    South
  • Southeast
    Southeast
  • Southwest
    Southwest
  • West
    West
  • Unknown
    Unknown
DIRECTION - char(15) (nominal)

ID: SP01002.DIRECTION

Site direction from road

Type system: Microsoft SQL Server 2008

Code definitions (9)
  • East
    East
  • North
    North
  • Northeast
    Northeast
  • Northwest
    Northwest
  • South
    South
  • Southeast
    Southeast
  • Southwest
    Southwest
  • West
    West
  • Unknown
    Unknown
POSITION - char(80) (nominal)

ID: SP01002.POSITION

Position relative to road

Type system: Microsoft SQL Server 2008

LOCATION - char(80) (nominal)

ID: SP01002.LOCATION

Site location

Type system: Microsoft SQL Server 2008

CHANGES - char(100) (nominal)

ID: SP01002.CHANGES

Changes from original location done in 1998

Type system: Microsoft SQL Server 2008

STANDAGE - char(15) (nominal)

ID: SP01002.STANDAGE

Stand age

Type system: Microsoft SQL Server 2008

Code definitions (6)
  • Clear cut
    Clear cut
  • Green tree ret.
    Green tree ret.
  • Mature
    Mature
  • Old growth
    Old growth
  • Young stand
    Young stand
  • Unknown
    Unknown
VEGETATION - char(40) (nominal)

ID: SP01002.VEGETATION

Codes of vegetation present at site

Type system: Microsoft SQL Server 2008

SP01003 - SP01003

Object name: SP01003.csv

Records: 26

Attributes: 5

Temporal coverage: 1994-09-15 to 1995-07-12

File size: 1338 byte

Checksum (MD5): 13119ff0bd8c04419fdae9439febc1fb

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

Constraints (2)
  • primaryKey: PRIMARY
    SP01003.LATIN_NAME
  • notNullConstraint: NOTNULL
    SP01003.DBCODE, SP01003.ENTITY, SP01003.VEG_CODE, SP01003.LATIN_NAME, SP01003.COMMON_NAME
Attributes (5)
DBCODE - char(5) (nominal)

ID: SP01003.DBCODE

FSDB Database Code

Type system: Microsoft SQL Server 2008

Code definitions (1)
  • SP010
    FSDB Database Code SP010
ENTITY - numeric(2,0) (interval)

ID: SP01003.ENTITY

Entity number

Type system: Microsoft SQL Server 2008

Unit: number

Precision: 1

Numeric domain: type=whole, min=3.0000 (exclusive=false), max=3.0000 (exclusive=false)

VEG_CODE - char(6) (nominal)

ID: SP01003.VEG_CODE

Species code

Type system: Microsoft SQL Server 2008

LATIN_NAME - char(30) (nominal)

ID: SP01003.LATIN_NAME

Scientific Name

Type system: Microsoft SQL Server 2008

Code definitions (26)
  • Abies amabilis
    Abies amabilis
  • Abies concolor
    Abies concolor
  • Acer circinatum
    Acer circinatum
  • Acer macrophyllum
    Acer macrophyllum
  • Alnus rubra
    Alnus rubra
  • Alnus sinuata
    Alnus sinuata
  • Berberis nervosa
    Berberis nervosa
  • Ceanothus velutinus
    Ceanothus velutinus
  • Galutheria shallon
    Gaultheria shallon
  • Lupinus
    Lupinus
  • Oplopanax horridus
    Oplopanax horridus
  • Oxalis oregana
    Oxalis oregana
  • Pinus albicaulis
    Pinus albicaulis
  • Populus trichocarpa
    Populus trichocarpa
  • Pseudotsuga menziesii
    Pseudotsuga menziesii
  • Pteridium aquilinum
    Pteridium aquilinum
  • Rhododendron macrophyllum
    Rhododendron macrophyllum
  • Rubus ursupinus
    Rubus ursinus
  • Scirpus setaceus
    Scirpus setaceus
  • Taxus brevifolia
    Taxus brevifolia
  • Thuja plicata
    Thuja plicata
  • Tsuga heterophylla
    Tsuga heterophylla
  • Tsuga mertensiana
    Tsuga mertensiana
  • Vaccinium uliginosum
    Vaccinium uliginosum
  • Castanopsis chrysophylla
    Castanopsis chrysophylla
  • Epilobium angustifoilum
    Epilobium angustifolium
COMMON_NAME - char(30) (nominal)

ID: SP01003.COMMON_NAME

Common name

Type system: Microsoft SQL Server 2008

Units
micrograms per gram per week ug/g*week massPerMassRate microgramPerGramPerWeek kilogramPerKilogramPerSecond 0.6048 micrograms per gram per week
decimal degrees latitude or longitude deg dec lat-lon latitudeLongitude decimalDegree unknown N/A decimal degrees; latitude (parallel) or longitude (meridian)
meters m length meter meter 1 meter; SI unit of length
number number dimensionless number dimensionless 1 dimensionless number, i.e., ratio, count
Related Datasets
Related Publications

No publication citations found in this EML file.

Related Files

No related files listed in this EML file.

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. If data used in publication, the PI will be listed as a coauthor. Whenever these data are presented in whatever form, the PI will be acknowledged.

Licensed

License: N/A

Maintenance

Maintenance update frequency: asNeeded

Description

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

Change History

  • Version1 (2001-04-30)
    Original metadata creation.
  • Version2 (2002-02-27)
    Metadata restructured and moved into SQLServer metadata database LTERMETA. Data moved into SQLServer database FSDBDATA.
  • Version7 (2014-01-15)
    Transposed database; recreated CSV files for upload to PASTA; associated spatial and other related databases.
  • Version8 (2019-08-05)
    Added site information as entity 2 and created a spatial connection. Also created temporal coverage based on week number. Added a taxon entity.
  • Version9 (2019-08-07)
    Data is entity 2 was incorrect. It is a combination of 3 tables that had missing, offset and extra rows. Corrected to best of abilities, but there may still be issues.