• 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
  URL: https://www.fs.fed.us/research/people/profile.php?alias=sherrijohnson
• 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
  URL: http://ceoas.oregonstate.edu/profile/jones/
  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
  URL: http://www.fsl.orst.edu/flel/index.htm
• 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
  URL: http://www.michaelpnelson.com
  ORCID: http://orcid.org/0000-0001-6917-4752
• David Bell - Principal Investigator
  Email: david.bell@usda.gov, david.bell@oregonstate.edu
  URL: https://lemma.forestry.oregonstate.edu/about/david-bell

• 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.

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

• 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.

• At each sample site a transect was established parallel to and greater than 40 meters distant from the closest road. Five sample locations were made at 5 meter intervals along that transect. Soil respiration measurements were made at each of these sites. In addition, three 4.7 x 10 cm soil cores were taken in the center three locations and composited for subsequent analysis. The samples were transported to the laboratory in an ice chest and subsequently stored at 15 degrees C until the initiation of analyses, usually within 16 h of their receipt. The following measurements were made in the field: litter depth, mineral soil respiration, soil temperature and ectomycorrhizal mat characteristics. Field (forest floor) respiration rates were measured with a nondispersive, infrared CO2 analyzer (Li-Cor, LI-6200). Measurements were made over a period of 1 min after the chamber gas reached ambient CO2 concentration. The instrument was calibrated on site against a known standard at each location. A Q10 adjustment was made for ambient soil temperature. Soil temperature was measured by electronic thermometers calibrated at 0 degrees C with ice water. The temperature probes were inserted into the mineral soil to a depth of 10 cm. Light was measured with the Li-Cor photometer.
• The distribution of ectomycorrhizal mats was determined visually in the field by inspecting the relative abundance of mats in 4.7 x 10 cm cores. Two distinct mat types were scored: (1) mats similar to those of the genus Hysterangium and (2) mats similar to those of the genus Gautieria. This approach has been used successfully in the past to document ectomycorrhizal mat distribution patterns in coniferous forests of the Pacific Northwest (Griffiths et al. 1996).
• Soil depth was measured by driving a steel rod into the ground until it stopped. This was done in 10 locations along the above mentioned transect. The coefficient of variability was determined by dividing the standard deviation by the mean value multiplied by 100.

• 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 degrees C for at least 8 h. The percent soil moisture was calculated by dividing the difference between wet and dry samples and dividing that number by the dry wt., which was then multiplied by 100. Soil organic matter was measured by loss-on-ignition at 550 degrees C for 6 h after oven drying at 100 degrees C.
• Soil pH was measured in 1:10 (soil:distilled water) slurries of oven-dried (100 degrees C) soil. These slurries were shaken for 1 h prior to reading pH values with a Sigma model E4753 electrode. Soil organic matter was measured by loss-on-ignition at 550 degrees C for 6 h after oven drying at 100 degrees C. Bulk density was measured by oven-drying cores of a known volume.
• Denitrification potential was measured using a method by Groffman and Tiedje (1989) as modified by us (Griffiths et al., 1998). Each reaction vessel (25-mL Erlenmeyer flask) contained 5 g of less than 2 mm, field-moist soil. Flasks were sealed with rubber serum bottle stoppers and purged with Ar to displace O2 in the headspace gas. After purging with Ar, 2 mL of a 1 mM solution of glucose and NO3- was added to each flask. Flasks were subsequently incubated at 25 degrees C for 1 h. This preincubation period was used because previous time-series experiments showed a lag in N2O production during this period. The same experiments have shown linear N2O production rates during the following 2-4 h (unpublished data). After the preincubation period, 0.5 mL of headspace gas was removed from the reaction vessel and injected into a gas chromatograph (GC) fitted with an electron capture 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. A second headspace N2O analysis was made after an additional 2-h incubation at 25 degrees C. The net N2O released over this 2-h period was used to estimate N2O production rates.
• Laboratory respiration measurements were made on field-moist, sieved soils (4 g dry weight). Soils were brought to 75% moisture content by the addition of enough sterile deionized water to equal 3 g water per 25-mL Erlenmeyer flask. Once sealed with serum bottle stoppers, the flasks were incubated at 24 degrees C for 14 days before the headspace CO2 measurement was made using gas chromatography. This was a measure of labile soil carbon. The same GC and integrator as were used for this assay as that used to measure N2O, but in this case a flame ionization detector and a methanizer in series were used. Substrate induced respiration (SIR) was also measured in these soils. The reaction vessels were prepared as before except 0.1 mL of 1 M glucose solution was added to the reaction vessel and the assay for CO2 evolution rates were the same as for laboratory respiration.
• Extractable ammonium was determined by shaking 10 g of field-moist soil with 50 mL 2 M KCl for 1 h (Keeney and Nelson 1982), adding 0.3 mL 10 M NaOH to the slurry, and measuring ammonium concentration with an Orion model 95-12 ammonium electrode (Orion Research Inc., Boston, MA). Mineralizable N was measured by the waterlogged technique of Keeney and Bremner (1966). For each analysis, 10 g of field-moist soil were added to 53 mL of distilled water in a 20 x 125 mm screw-cap test tube, and incubated at 40 degrees C for 7 d. Then 53 mL of 4 M KCl were added to the slurry, and ammonium concentration was determined with the ammonium electrode. Mineralizable N was calculated as the difference between initial and final ammonium concentrations.
• Beta-glucosidase activity was determined by the spectrophotometric assay of Tabatabai and Bremmer (1969), as modified by Zou et al. (1992). One mL of 10 mM p-nitrophenyl b-D glucopyranoside substrate was added to duplicate 1-mL subsamples containing a soil slurry (1 gdw in 1 mL deionized H2O). The tubes were shaken and then placed with duplicate controls without substrate in a 30 degrees C water bath for 2 h. After incubating, 1 mL of 10 mM p-nitrophenyl b-D glucopyranoside was added to the controls, and all reactions were immediately stopped by the addition of 2 mL of 0.1 M tris[hydroxymethyl]aminomethane at pH 12.0. The mixtures were centrifuged for 5 min at 500 x g. From the supernatant, 0.2 mL was diluted with 2.0 mL deionized water. The optical density was measured at 410 nm, and a standard curve was prepared from 0.02 to 1.0 micro-mol/mL p-nitrophenol (pNP).

• Sampling frequency: One set of measurements at each site

• The objective of this survey was to obtain the most geographically extensive dataset on soil characteristics as possible on the HJA. To this end, sites were located at 0.5 km intervals along all passable roads on the HJA. Site sites were located by distance, therefore, the type of vegetation that happened to be on the site was randomized. The only exception were 4 sites were adjacent vegetation types were sampled to gain direct vegetation effects data at a given location. All measurements were made either directly or from soils collected at 5 m intervals along a transect located approximately 40 meters from the nearest road and parallel to it. This interval was chosen since other studies have shown that for all of the variables studied, the samples taken at the is spacing were not autocorrelated. The sample grid consisted of enough points that strong geostatistical analyses could be made on the data. The variables chosen for measurement are those that give good indications of nitrogen and carbon cycling in forest soils. In addition, we chose to measure ectomycorrizhal mats since these apparently play a key role in nutrient cycling in these forests.

• Andrews Experimental Forest (HJA)
  W -122.26172200, E -122.10084700, N 44.28196400, S 44.19770400
  Altitude: 1631 to 1631 meter
• Cascade Head Experimental Forest
  W -123.99172777, E -123.89730000, N 45.06476948, S 45.03130000
• 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

Object name: SP02001.csv

Records: 181

Attributes: 22

Temporal coverage: 1998-06-15 to 1998-07-07

File size: 19200 byte

Checksum (MD5): 84a2ad3dca5318646484fe2f2aa9f10a

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

Object name: SP02002.csv

Records: 183

Attributes: 13

Temporal coverage: 1998-06-15 to 1998-07-07

File size: 35508 byte

Checksum (MD5): 0f01995ed39958c28abab64227a98bd5

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