uid=AND,o=lter,dc=ecoinformatics,dc=org
all
public
read
HT004
Stream and air temperature data from stream gages and stream confluences in the Andrews Experimental Forest, 1950 to present
Stanley
V.
Gregory
Oregon State University;Dept. of Fisheries and Wildlife;Nash Hall 104
Corvallis
OR
97331
USA
(541) 737-1951
stanley.gregory@oregonstate.edu
http://oregonstate.edu/dept/pnw-erc/personnel/gregory.htm
Sherri
L.
Johnson
US Forest Service ;Pacific NW Research Station ;3200 SW Jefferson Way
Corvallis
OR
97331
USA
541-758-7771
sherri.johnson2@usda.gov
sherri.johnson@oregonstate.edu
https://www.fs.fed.us/research/people/profile.php?alias=sherrijohnson
http://orcid.org/0000-0002-4223-3465
Craig
Creel
USDA Forest Service;Pacific NW Research Station;3200 SW Jefferson Way
Corvallis
OR
97331
USA
(541) 750-7326
(541) 822-6301
cdcreel@comcast.net
Former Investigator
Christopher
Daly
PRISM Group;Northwest Alliance for Computational Science and Engineering, 2000 Kelley Engineering Center;Oregon State University
Corvallis
OR
97331
USA
(541) 737-2531
daly@nacse.org
http://prism.oregonstate.edu
http://orcid.org/0000-0002-6566-3556
Other Researcher
Greg
Downing
Forestry Sciences Lab;3200 SW Jefferson Way
Corvallis
OR
97333
USA
(541) 750-7283
(541) 822-6301
greg.downing@usda.gov
greg.downing@oregonstate.edu
Method Contact
Stanley
V.
Gregory
Oregon State University;Dept. of Fisheries and Wildlife;Nash Hall 104
Corvallis
OR
97331
USA
(541) 737-1951
stanley.gregory@oregonstate.edu
http://oregonstate.edu/dept/pnw-erc/personnel/gregory.htm
Former Investigator
Stanley
V.
Gregory
Oregon State University;Dept. of Fisheries and Wildlife;Nash Hall 104
Corvallis
OR
97331
USA
(541) 737-1951
stanley.gregory@oregonstate.edu
http://oregonstate.edu/dept/pnw-erc/personnel/gregory.htm
Creator
Donald
L.
Henshaw
Pacific Northwest Research Station; Corvallis Forestry Sciences Lab; 3200 SW Jefferson Way
Corvallis
Oregon
97331
hja_admin@lists.oregonstate.edu
http://orcid.org/0000-0001-5952-4528
Abstractor
Sherri
L.
Johnson
US Forest Service ;Pacific NW Research Station ;3200 SW Jefferson Way
Corvallis
OR
97331
USA
541-758-7771
sherri.johnson2@usda.gov
sherri.johnson@oregonstate.edu
https://www.fs.fed.us/research/people/profile.php?alias=sherrijohnson
http://orcid.org/0000-0002-4223-3465
Principal Investigator
Sherri
L.
Johnson
US Forest Service ;Pacific NW Research Station ;3200 SW Jefferson Way
Corvallis
OR
97331
USA
541-758-7771
sherri.johnson2@usda.gov
sherri.johnson@oregonstate.edu
https://www.fs.fed.us/research/people/profile.php?alias=sherrijohnson
http://orcid.org/0000-0002-4223-3465
Abstractor
Sherri
L.
Johnson
US Forest Service ;Pacific NW Research Station ;3200 SW Jefferson Way
Corvallis
OR
97331
USA
541-758-7771
sherri.johnson2@usda.gov
sherri.johnson@oregonstate.edu
https://www.fs.fed.us/research/people/profile.php?alias=sherrijohnson
http://orcid.org/0000-0002-4223-3465
Creator
John
Moreau
Blue River
OR
97413
USA
john.moreau@oregonstate.edu
Former Investigator
Randall
C.
Wildman
Oregon State University;Dept. of Fish and Wildlife
Corvallis
OR
97331
USA
(541) 737-1967
(541) 822-3425
randy.wildman@oregonstate.edu
Former Investigator
Adam
M
Kennedy
Corvallis
OR
97331
US
adam.kennedy@oregonstate.edu
http://orcid.org/0000-0002-0491-8412
Other Researcher
Greg
M
Cohn
USFS Rd 15-130-132
Blue River
OR
97413
541-822-6305
cohng@oregonstate.edu
Method Contact
Stephanie
A
Schmidt
USDA Forest Service; 3200 SW Jefferson Way
Corvallis
Oregon
97331
stephanie.schmidt@oregonstate.edu
stephanie.schmidt2@usda.gov
http://orcid.org/0000-0002-6404-530X
Other Researcher
2019-12-23
Stream and air temperature are measured in tandem at stream gauging stations and other selected locations and stream confluences within the Andrews Forest. Air temperature is generally measured over the stream or alongside. Currently, mean, max and min water and air temperature data are collected every 5 minutes at the gauging stations and instantaneous temperatures every 15 minutes at all other sites. Most measurements were collected hourly commencing in the later 1990s, but a few sites have daily data beginning in the late 1970s. Historic data collected 1949 to 1981 at Lookout Creek stream gauge are included with the daily summary data.
Other Andrews Forest related databases: Long term air temperature data from the reference and benchmark climate stations are also available in MS001. Previous high resolution stream temperature data at some of the small watershed stream gages are available in HT001 and stream temperature data throughout the Andrews Forest stream networks during several years are available in HT002.
climatology
microclimate
stream order
air temperature
water temperature
disturbance
monitoring
ecosystems
LTER controlled vocabulary
disturbance
LTER core research areas
Key references of this database include:
Johnson, Sherri L. and Jones, Julia A. Stream temperature responses to forest harvest and debris flows in western Cascades, Oregon. Canadian Journal of Fisheries and Aquatic Sciences. 2000; 57(Suppl. 2):30-39. Related PublicationsJohnson, Sherri L.; Jones, Julia A. 2000. Stream temperature responses to forest harvest and debris flows in western Cascades, Oregon. Canadian Journal of Fisheries and Aquatic Sciences. 57(Suppl. 2): 30-39.Related FilesTitle: Provisional Andrews Experimental Forest Climate and Hydrology DataDescription: Access provisional real-time data from climate and hydrology stations on the Andrews Experimental ForestURL: https://andrewsforest.oregonstate.edu/sites/default/files/lter/data/weather/portal/index.htmlTitle: HJA Data PortalDescription: Provisional real-time data from climate and hydrology stations on the Andrews Experimental ForestURL: https://andrewsforest.oregonstate.edu/sites/default/files/lter/data/weather/portal/index.htmlTitle: H.J. Andrews Climate Station Methods HistoryDescription: View climate data collection methods that have been used over time at select stations. Results can be filtered by parameter, climate station, and date range. A general text search is also available.URL: https://hjandrews.shinyapps.io/im_methods_history/
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.
https://andlter.forestry.oregonstate.edu/data/abstract.aspx?dbcode=HT004
Oregon: western Cascades - HJ Andrews Experimental Forest Gauging Stations at WS1, 2, 3, 6, 7, 8, 10, Mack Creek, and Lookout Creek. Stream thermograph sites on upper Lookout, upper McRae, Mack/Lookout confluence, and legacy sites Mack old-growth, McRae/Lookout confluence, Quartz Creek (Blue River tributary), and Grasshopper Creek (S. Fork McKenzie).
-122.30199700
-122.12162890
44.26629426
44.19831900
428
995
meter
1976-08-11
2019-10-01
Stream temperature is a critical parameter in stream ecosystems and controls rates of multiple processes, such as metabolism, growth, decomposition, and solubility of gases, as well as biotic interactions. Measuring stream temperature at stream gages allows examination of long term responses to forest dynamics and forest harvest. These stream and air temperature data also are relevant to research on nutrient dynamics, stream flow, invertebrate and vertebrate responses to microclimate conditions.
An update history is logged and maintained with each new
version of every dataset.
continually
In October 1991, all thermograph data were run through a data checking program. Many pre-1987 24-hr mean values were recalculated using weighted daytime and nighttime means (values are flagged as 'S').
Version1
1991-10-31
As of October 1994, all data were run through another set of checking routines. These included 1) missing flag check to ensure that all missing data really has the appropriate flag; 2) date/time check to verify that a record exists for each date (and hour if applicable) and that records fall in the correct order; 3) relative mean/max/min check for each record to make sure that min <= mean <= max; 4) similar sites were paired and the values compared to catch any gross outliers. As a result of #4, some thermograph charts had to be redigitized.
Version2
1994-10-31
Original metadata creation.
Version3
1994-11-16
The data is actively managed as an extension of MS001 (and not HT004). Daily formats are identical to MS001 entity 01. Hourly data for the Stream thermograph sites begin in the years 1995 to 1998 and are originally accommodated by MS001 entity 11.
Version4
1998-06-01
Appended all data to master files. Separated stream temperature from air temperature and placed in separate entities. Reformatted all thermograph sites to use MS001 01,11 formats (daily air temp, hourly air temp) and created similar entities 24, 34 (daily stream temp, hourly stream temp). Also reformatted all data for discontinued sites. Uploaded to the web.
Version5
2003-02-02
Data is prepared for move into SQLServer as study dataset HT004. A new data abstract is prepared. Stream temperature site data is updated for current sites. All day/night data has been removed and stored in P:\FSDB\HT04\day_night, and this data will only be available by request and not available on the web.
Version6
2004-11-05
Updated data for all stream gauging sites for WY 2003 & 2004 (all entities).
Version8
2005-10-03
Updated data for all stream gauging sites for WY 2005 through January 2007 and reference stream sites from January 2004 through March 2007 (all entities).
Version9
2007-04-19
Updated data for Mack and Watersheds (1,2,3,6,7,8,10) for WY07 (Jan 06-Oct 07) 02/05/2009
Version10
2009-02-05
Updated data for Mack and Watersheds (1,2,3,6,7,8,10) for WY08 and WY09 (Oct 07-Jan 10) 02/08/2010
Version11
2010-02-08
Updated data for GSLOOK and confluence streams (TSLOMA, TSLOOK, TSMCRA) for 3/2007-3/2010 04/06/2010
Version12
2010-04-06
Updated data for Mack and Watersheds (1,2,3,6,7,8,10) for WY10 (Jan 10-Mar 11)
Version13
2011-09-08
Updated data for GSLOOK and confluence streams (TSLOMA, TSLOOk,TSMCRA) for 3/2/2010-12/31/2011.
Also ran QA/QC on entire dataset and fixed a few problems (mainly some missing hours). Uploaded this new dataset (entirely) to SQL.
Version16
2012-03-15
Updated watershed data (mack, 1,2,3,6,7,8,10) from 20110301 to 20120110.
Version17
2012-07-12
Updated attribute description for attributes with a fine resolution datetime measurement scale to include 'PST' (pacific standard time).
Version18
2012-08-30
Updated air and water temperature data for GSLOOK and confluence streams (TSLOMA, TSLOOk,TSMCRA) for 01/01/2012 to 07/31/2013 and watershed data (mack, 1,2,3,6,7,8,10) from 20120110 to 12/31/2012. Also ran QA/QC on entire dataset. Uploaded new dataset (entirely) to SQL and to master.
Version19
2013-08-16
Updated watershed data for Mack and Watersheds 1, 2, 3, 6, 7, 8, and 10 with new data from 1 Jan 2013 to 15 Jan 2014.
Version20
2014-07-18
Updated all daily and hourly stream and air temperature at current stream temperature station sites through calendar year 2014, which includes watersheds (Mack, 1,2,3,6,7,8,10) from 01/14/2014 to 01/06/2015 and streams (GSLOOK, TSLOOK, TSLOMA, TSMCRA) from 08/01/2013 to 12/31/2014.
Version21
2015-06-04
Restructured HT004 to be consistent with entity structures and naming conventions used in MS001 and MS005 study databases. Method code and event codes are added to each entity and a QC level indicator. All data is updated for calendar year 2015.
Version22
2016-04-29
Water and air temperature are updated at the gauging stations (WS1,2,3,6,7,8,10, Mack and Lookout) through water year 2019 (10/1/2019). The upper Lookout and Lookout-Mack confluence sites are updated into spring 2017 when the older sensors were removed. New Hobo V2 sensors are now employed at these sites and at new sites (Mack, McRae Bridge and Cold Creek), but no data from these are added yet. New locations for air temperature at sites TSLOOK and TSLOMA are initiated. McRae Creek (TSMCRA) site is discontinued but now has NEON measurements.
Version23
2019-12-23
Information Manager
Andrews Forest LTER Program
US Forest Service Pacific Northwest Research Station
3200 SW Jefferson Way
Corvallis
OR
97331
hjaweb@fsl.orst.edu
http://andrewsforest.oregonstate.edu/
Stephanie
A
Schmidt
USDA Forest Service; 3200 SW Jefferson Way
Corvallis
Oregon
97331
stephanie.schmidt@oregonstate.edu
stephanie.schmidt2@usda.gov
http://orcid.org/0000-0002-6404-530X
Andrews Forest LTER Site
Forest Ecosystems and Society Department in Forestry
Oregon State University
201K Richardson Hall
Corvallis
OR
97331-5752
(541) 737-8480
lterweb@fsl.orst.edu
http://andrewsforest.oregonstate.edu/
Field Methods - HT004: General
Originally, thermographs (later replaced with data loggers and thermistors) were installed at each stream site to continuously monitor stream temperature with an adjacent air temperature site near the stream. Stream temperature probes are generally anchored near the stream bottom. Air temperature was generally measured at 1 meter above the forest floor and insulated originally with an A-frame shield (later replaced with pvc-constructed shields). Many of the probes were repositioned in the early 1990's at 1 meter above average winter snow level. Generally, sites are visited and charts / CR10 records collected on a monthly basis. In 1987, Campbell Scientific CR-10 data loggers replaced 8 circular chart installations at the original sites. Early Lookout Creek stream temperature data 1950-1981 was collected by the USGS.
The original thermograph instrument was the Dual Recording Thermometer Model RFHTT. This instrument records temperatures from two separate locations (air and soil) simultaneously on a single chart. Each of the two thermometer mechanisms operate with a mercury-filled sensing bulb which expands or contracts in response to temperature changes and in turn moves the recording pen along the calibrated chart. To prevent interference between the two pens, the right-hand pen records 1/12 revolution behind the left-hand pen. The recorder uses 10 inch 30- and 31-day Partlow circular charts that have ranges from -30°F - 170°F or 20°F - 120°F.
These original thermograph charts were replaced with Campbell Scientific data loggers ( typically CR10, CR21X, CR500, or CR23X) beginning in 1987. The temperature probes used with the data loggers were type T thermocouple soldered from thermocouple wire. These thermocouple wires have gradually been replaced through the late 1990-s with Campbell Scientific model 107 temperature probes (CS107B or CS107B-L) which include the Fenwal Electronics UUT51J1 thermistor.
The original thermograph instrument was the Dual Recording Thermometer Model RFHTT, which recorded on Partlow circular charts. Campbell Scientific data loggers with type T thermocouple soldered from thermocouple wire to measure temperature were used beginning 1987. Beginning in the late 990s Campbell Scientific model 107 temperature probes (CS107B or CS107B-L) which include the Fenwal Electronics UUT51J1 thermistor were gradually installed.
Field Methods - HT004: Stream and air temperature
A description of sites and measurement history is here:
http://andrewsforest.oregonstate.edu/data/studies/ht04/datalist.htm
Laboratory Methods - HT004
Digitizing chart records was the primary method of capturing data until 1987 when data loggers begin to be installed. Digitizing continued for some sites until 1995. Charts were digitized and the record summarized by daytime, nighttime, and 24-hr period. The 24-hr mean values before 1987 are sunrise to sunrise; after January 1987 the 24-hr values are midnight to midnight. All daytime/nighttime calculation ended in 1998, and this data is only available by request.
Digitizer is the Summagraphics/Houston Instruments model MM 1812. (Comparable product is now http://www.calcomp.com/productsummagrid6.htm)
Quality Assurance - HT004
Quality assurance procedures included 1) missing flag check to ensure that all missing data really has the appropriate flag; 2) date/time check to verify that a record exists for each date (and hour if applicable) and that records fall in the correct order; 3) relative mean/max/min check for each record to make sure that min less than or equal to mean and mean less than or equal to max; 4) similar sites were paired and the values compared to catch any gross outliers.
Air and water temperatures are measured at gauged watersheds within the Andrews Forest and at other stream sites including Mack and McRae Creek confluences with Lookout Creek. Stream sites nearby the Andrews were collected briefly but were discontinued. Data collection began in 1976 but several sites were discontinued by the mid-1990s. Most of the gauged watershed collections were started between 1995 and 1998. Sampling frequency: Continually
Stream and air temperature sites were originally selected in the upper elevations of the three major stream segments, upper Lookout, upper Mack and upper McRae Creek, that combine to form Lookout Creek, as well as off-Andrews sites in Grasshopper and Quartz Creeks. These stream temperature sites were initiated in the late 1970's as an extension to the air and soil temperature network. The upper Mack Creek, Quartz and Grasshopper Creek sites have been discontinued. Additional sites were added in 1995 to the confluences of Lookout-Mack and Lookout-McRae Creeks to examine mixing of water temperature compared to relative flows. However, due to problems with maintaining sensors during winter and flood flows, the Lookout-McRae site was discontinued. In 1997, stream and air temperature sensors were placed at all Andrews gaging stations (WS#9 was not instrumented due to threat of potential vandalism). A legacy stream temperature data set, maintained by USGS, exists from 1950 to 1981 (missing 1955-1963) at Lookout Creek gaging station.
Andrews Watershed 1 Gaging Station
-122.25802700
-122.25802700
44.20733900
44.20733900
439
439
meter
Andrews Watershed 2 Gaging Station
-122.24487600
-122.24487600
44.21201500
44.21201500
545
545
meter
Andrews Watershed 3 Gaging Station
-122.24300000
-122.24300000
44.21944000
44.21944000
471
471
meter
Andrews Watershed 6 Gaging Station
-122.18070700
-122.18070700
44.26150800
44.26150800
878
878
meter
Andrews Watershed 7 Gaging Station
-122.17526500
-122.17526500
44.26463700
44.26463700
918
918
meter
Andrews Watershed 8 Gaging Station
-122.17079300
-122.17079300
44.26629426
44.26629426
962
962
meter
Andrews Watershed 10 Gaging Station
-122.26105600
-122.26105600
44.21705700
44.21705700
461
461
meter
Andrews Mack Creek Gaging Station
-122.16744700
-122.16744700
44.21943621
44.21943621
755
755
meter
Andrews Lookout Creek Gaging Station
-122.25714600
-122.25714600
44.21012600
44.21012600
422
422
meter
Lookout Creek upper thermograph site
-122.12162890
-122.12162890
44.22478329
44.22478329
998
998
meter
Mack Creek old-growth thermograph site
-122.16547369
-122.16547369
44.21664907
44.21664907
792
792
meter
McRae Creek upper thermograph site
-122.16757303
-122.16757303
44.25638612
44.25638612
840
840
meter
Quartz Creek (Blue River tributary) thermograph site
-122.30199700
-122.30199700
44.19831900
44.19831900
520
520
meter
Lookout and Mack Creek confluence thermograph site
-122.16802024
-122.16802024
44.22756413
44.22756413
674
674
meter
Lookout and McRae Creek confluence thermograph site
-122.20863436
-122.20863436
44.23298992
44.23298992
552
552
meter
Andrews Watershed 1
-122.25683100
-122.23581300
44.20851700
44.19901700
1027
1027
meter
Andrews Watershed 10
-122.25996600
-122.25443900
44.22015200
44.21678600
679
679
meter
Andrews Watershed 2
-122.24397600
-122.22974100
44.21338500
44.20617800
1079
1079
meter
Andrews Watershed 3
-122.24194900
-122.22402200
44.21994300
44.20803100
1080
1080
meter
Andrews Watershed 6
-122.18351000
-122.17755000
44.26680800
44.26154400
1029
1029
meter
Andrews Watershed 7
-122.17920900
-122.17387500
44.26974800
44.26457900
1102
1102
meter
Andrews Watershed 8
-122.17079300
-122.17079300
44.26629400
44.26588100
1182
1182
meter
Andrews Mack Creek Watershed
-122.17282200
-122.12699600
44.22054300
44.20148000
1626
1626
meter
Andrews Lookout Creek Watershed
-122.25879300
-122.09952700
44.28226000
44.20127400
1627
1627
meter
McRae Creek
-122.20859020
-122.13943300
44.27311600
44.23328700
Andrews Experimental Forest (HJA)
-122.26172200
-122.10084700
44.28196400
44.19770400
1631
1631
meter
Quality assurance procedures included 1) missing flag check to ensure that all missing data really has the appropriate flag; 2) date/time check to verify that a record exists for each date (and hour if applicable) and that records fall in the correct order; 3) relative mean/max/min check for each record to make sure that min less than or equal to mean and mean less than or equal to max; 4) similar sites were paired and the values compared to catch any gross outliers.
Long-Term Ecological Research
Matthew
G
Betts
Department of Forest Ecosystems and Society; 201E Richardson Hall; College of Forestry; Oregon State University
Corvallis
OR
97331
(541) 737-3841
matt.betts@oregonstate.edu
http://www.fsl.orst.edu/flel/index.htm
http://orcid.org/0000-0002-7100-2551
Principal Investigator
Michael
P.
Nelson
Department of Forest Ecosystems and Society; 201K Richarson Hall; College of Forestry; Oregon State University
Corvallis
OR
97331
541-737-9221
mpnelson@oregonstate.edu
http://www.michaelpnelson.com
http://orcid.org/0000-0001-6917-4752
Principal Investigator
Brooke
E.
Penaluna
brooke.penaluna@usda.gov
Brooke.Penaluna@oregonstate.edu
https://www.fs.fed.us/pnw/lwm/aem/people/penaluna.html
http://orcid.org/0000-0001-7215-770X
Principal Investigator
Catalina
Segura
Assistant Professor; Department of Forest Engineering, Resources, and Management; Oregon State University
Corvallis
OR
97331
541-737-6568
catalina.segura@oregonstate.edu
http://ferm.forestry.oregonstate.edu/facstaff/segura-catalina
http://orcid.org/0000-0002-0924-1172
Principal Investigator
David
Bell
david.bell@usda.gov
david.bell@oregonstate.edu
https://lemma.forestry.oregonstate.edu/about/david-bell
http://orcid.org/0000-0002-2673-5836
Principal Investigator
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
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.
HT00401
HT00401
Air temperature (daily):
HT00401.csv
11216678
bfc7dc832903d9574b4afabca800abdf
1
\r\n
column
,
"
https://andlter.forestry.oregonstate.edu/data/register/dataaccess.aspx?docid=HT00401_v8.csv
1976-08-11
2019-09-30
DBCODE
FSDB database code
char(5)
HT004
Study code HT004
ENTITY
Entity number
numeric(2,0)
number
1.000000
natural
1.0000
1.0000
SITECODE
Site code for the meteorological measurement station
char(6)
GSWS01
Andrews Watershed 1 Gaging Station
GSWS02
Andrews Watershed 2 Gaging Station
GSWS03
Andrews Watershed 3 Gaging Station
GSWS06
Andrews Watershed 6 Gaging Station
GSWS07
Andrews Watershed 7 Gaging Station
GSWS08
Andrews Watershed 8 Gaging Station
GSWS10
Andrews Watershed 10 Gaging Station
GSMACK
Andrews Mack Creek Gaging Station
GSLOOK
Andrews Lookout Creek Gaging Station
TSGRAS
Grasshopper Creek (S. Fork McKenzie) thermograph site
TSLOOK
Lookout Creek upper thermograph site
TSMACK
Mack Creek old-growth thermograph site
TSMCRA
McRae Creek upper thermograph site
TSQRTZ
Quartz Creek (Blue River tributary) thermograph site
TSLOMA
Lookout and Mack Creek confluence thermograph site
TSLOMC
Lookout and McRae Creek confluence thermograph site
TSCOLD
Cold Creek thermograph site
TSMCBR
McRae Bridge thermograph site
AIRTEMP_METHOD
An indication of the the general methodology and instrumentation used to collect this air temperature data
char(6)
AIR818
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 395 cm height (See method AIR718)
AIR807
Mean daily, max and min air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Instrument is type T thermocouple wire housed in a locally designed PVC radiation shield at 395 cm height (Daily output only)
AIR814
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 305 cm height (See method AIR714)
AIR815
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 350 cm height (See method AIR715)
AIR838
Mean daily air temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS Model 107; PVC radiation shield; 450 cm height (See method AIR738)
AIR813
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 295 cm height (See method AIR713)
AIR810
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 240 cm height (See method AIR710)
AIR812
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 255 cm height (See method AIR712)
AIR817
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 370 cm height (See method AIR717)
AIR811
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 250 cm height (See method AIR711)
AIR801
Mean, max and min daily (sunrise to sunrise) air temperature is determined from digitizing circular Partlow charts. Temperature is recorded by a Dual Recording Thermometer Model RFHTT with mercury bulb at 100 cm height in small shelter and corrected.
AIR816
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 365 cm height (See method AIR716)
AIR806
Mean, max and min daily air temperature is determined from digitizing circular Partlow charts. Temperature is recorded by a Dual Recording Thermometer Model RFHTT with mercury bulb at 300 cm height in small shelter on tree and corrected to standard rdg.
AIR826
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 395 cm height (See method AIR726)
AIR824
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 305 cm height (See method AIR724)
AIR834
Mean daily air temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS Model 107; PVC radiation shield; 305 cm height (See method AIR734)
AIR820
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 450 cm height (See method AIR720)
AIR823
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 295 cm height (See method AIR723)
AIR821
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 240 cm height (See method AIR721)
AIR822
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 255 cm height (See method AIR722)
AIR825
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 370 cm height (See method AIR725)
AIR819
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 400 cm height (See method AIR719)
AIR827
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 400 cm height (See method AIR727)
AIR802
Mean, max and min daily air temperature is determined from digitizing circular Partlow charts. Temperature is recorded by a Dual Recording Thermometer Model RFHTT with mercury bulb at 100 cm height in small shelter on tree and corrected to standard rdg.
AIR809
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 200 cm height (See method AIR709)
AIR808
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings.Thermocouple wire; PVC radiation shield; 395 cm height (See method AIR708)
AIR836
Mean daily air temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS Model 107; PVC radiation shield; 395 cm height (See method AIR736)
AIR828
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 450 cm height (See method AIR728)
AIR833
Mean daily air temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS Model 107; PVC radiation shield; 295 cm height (See method AIR733)
AIR831
Mean daily air temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS Model 107; PVC radiation shield; 240 cm height (See method AIR731)
AIR832
Mean daily air temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS Model 107; PVC radiation shield; 255 cm height (See method AIR732)
AIR835
Mean daily air temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS Model 107; PVC radiation shield; 370 cm height (See method AIR735)
AIR837
Mean daily air temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS Model 107; PVC radiation shield; 400 cm height (See method AIR737)
AIR805
Mean, max and min daily air temperature is determined from digitizing circular Partlow charts. Temperature is recorded by a Dual Recording Thermometer Model RFHTT with mercury bulb at 240 cm height in small shelter on tree and corrected to standard rdg.
AIR804
Mean, max and min daily air temperature is determined from digitizing circular Partlow charts. Temperature is recorded by a Dual Recording Thermometer Model RFHTT with mercury bulb at 200 cm height in small shelter on tree and corrected to standard rdg.
AIR803
Mean, max and min daily air temperature is determined from digitizing circular Partlow charts. Temperature is recorded by a Dual Recording Thermometer Model RFHTT with mercury bulb at 160 cm height in small shelter on tree and corrected to standard rdg.
AIR708
Air temperature is sampled by type T thermocouple soldered from thermocouple wire housed in a locally designed PVC radiation shield at 395 cm height with a Campbell Scientific data logger; mean temperature is output every 60 minutes
AIR709
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 200 cm height; mean temperature is output every 60 minutes
AIR710
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 240 cm height; mean temperature is output every 60 minutes
AIR711
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 250 cm height; mean temperature is output every 60 minutes
AIR712
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 255 cm height; mean temperature is output every 60 minutes
AIR713
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 295 cm height; mean temperature is output every 60 minutes
AIR714
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 305 cm height; mean temperature is output every 60 minutes
AIR715
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 350 cm height; mean temperature is output every 60 minutes
AIR716
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 365 cm height; mean temperature is output every 60 minutes
AIR717
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 370 cm height; mean temperature is output every 60 minutes
AIR718
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 395 cm height; mean temperature is output every 60 minutes
AIR719
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 400 cm height; mean temperature is output every 60 minutes
AIR720
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 450 cm height; mean temperature is output every 60 minutes
AIR721
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 240 cm height; mean temperature is output every 15 minutes
AIR722
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 255 cm height; mean temperature is output every 15 minutes
AIR723
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 295 cm height; mean temperature is output every 15 minutes
AIR724
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 305 cm height; mean temperature is output every 15 minutes
AIR725
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 370 cm height; mean temperature is output every 15 minutes
AIR726
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 395 cm height; mean temperature is output every 15 minutes
AIR727
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 400 cm height; mean temperature is output every 15 minutes
AIR728
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 450 cm height; mean temperature is output every 15 minutes
AIR731
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 240 cm height; mean, min, max temperature is output every 5 minutes
AIR732
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 255 cm height; mean, min, max temperature is output every 5 minutes
AIR733
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 295 cm height; mean, min, max temperature is output every 5 minutes
AIR734
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 305 cm height; mean, min, max temperature is output every 5 minutes
AIR735
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 370 cm height; mean, min, max temperature is output every 5 minutes
AIR736
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 395 cm height; mean, min, max temperature is output every 5 minutes
AIR737
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 400 cm height; mean, min, max temperature is output every 5 minutes
AIR738
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 450 cm height; mean, min, max temperature is output every 5 minutes
AIR839
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; Gill radiation shield; 200 cm height (See method AIR739)
AIR840
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; Gill radiation shield; 240 cm height (See method AIR740)
AIR841
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; Gill radiation shield; 350 cm height (See method AIR741)
AIR842
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; Gill radiation shield; 395 cm height (See method AIR742)
AIR843
Mean daily air temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS Model 107; Gill radiation shield; 395 cm height (See method AIR743)
AIR844
Mean daily air temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS Model 107; Gill radiation shield; 350 cm height (See method AIR744)
AIR845
Mean daily air temperature is post-calculated from all instantaneous 15 minute values, and max-min values are determined based on all instantaneous 15 minute readings. Onset HOBO V2; RS1 7-Gill radiation shield; 200 cm height (See method AIR745)
AIR739
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 200 cm height; mean temperature is output every 60 minutes
AIR740
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 240 cm height; mean temperature is output every 60 minutes
AIR741
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 350 cm height; mean temperature is output every 60 minutes
AIR742
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 395 cm height; mean temperature is output every 60 minutes
AIR743
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 395 cm height; mean, min, max temperature is output every 5 minutes
AIR744
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 350 cm height; mean, min, max temperature is output every 5 minutes
AIR745
Air temperature is sampled by an Onset HOBO Water Temp V2 housed in an RS1 7-gill radiation shield at 200 cm height attached to a boom extending out from a tree directly over the stream sensor; instantaneous temperature is output every 15 minutes
HEIGHT
Height of sensor from ground surface
numeric(4,0)
centimeters
1.000000
natural
100.0000
450.0000
QC_LEVEL
Quality control flag indicates level of quality checking performed including an indication of "provisional" data.
char(2)
1A
Data is published and unlikely to change - automated range checking and manual review has been conducted. Quality is indicated in data value qualifier flags.
1D
Data is published and unlikely to change - data is derived or aggregated from published data of level 1A
1P
Data is provisional and subject to revision - preliminary quality checks have been performed
2A
Data is published and unlikely to change - Level 1A data has been modified such that data gaps may be filled or problem data may be removed
2D
Data is published and unlikely to change - data is derived or aggregated from published data of level 2A
PROBE_CODE
Probe number code indicates the measurement type, site, and sensor number (e.g., AIRGS101)
char(8)
WATGSL01
Stream temperature at GSLOOK, probe no. 01
WATGSL02
Stream temperature at GSLOOK, probe no. 02, maintained by USGS, legacy data 1950-1981 (missing 1955-1963)
WATGSM01
Stream temperature at GSMACK, probe no. 01, downstream of flume in sampling pool
WATGS001
Stream temperature at GSWS10, probe no. 01, upstream of flume
WATGS101
Stream temperature at GSWS01, probe no. 01, downstream of flume
WATGS201
Stream temperature at GSWS02, probe no. 01, downstream of flume in sampling pool
WATGS301
Stream temperature at GSWS03, probe no. 01, downstream of flume
WATGS601
Stream temperature at GSWS06, probe no. 01, upstream of flume
WATGS701
Stream temperature at GSWS07, probe no. 01, downstream of flume
WATGS801
Stream temperature at GSWS08, probe no. 01, open canopy, discontinued 2001
WATGS802
Stream temperature at GSWS08, probe no. 02, upstream of flume
WATLMA01
Stream temperature at TSLOMA, probe no. 01 located in Lookout Cr. above the confluence with Mack Cr.
WATLMA02
Stream temperature at TSLOMA, probe no. 02 located in Mack Cr. above the confluence with Lookout Cr.
WATLMC01
Stream temperature at TSLOMC, probe no. 01 located in Lookout Cr. above the confluence with McRae cr., discontinued 1996
WATLMC02
Stream temperature at TSLOMC, probe no. 02 located in McRae Cr. above the confluence with Lookout Cr., discontinued 1996
WATTGR01
Stream temperature at TSGRAS, probe no. 01, discontinued 1987
WATTLO01
Stream temperature at TSLOOK, probe no. 01
WATTMA01
Stream temperature at TSMACK, probe no. 01, discontinued 1994
WATTMC01
Stream temperature at TSMCRA, probe no. 01, discontinued 2015
WATTQZ01
Stream temperature at TSQRTZ, probe no. 01, discontinued 1994
AIRGS001
Air temperature at GSWS10, probe no. 01 at height 400 cm
AIRGS101
Air temperature at GSWS01, probe no. 01 at height 305 cm
AIRGS201
Air temperature at GSWS02, probe no. 01 at height 450 cm
AIRGS301
Air temperature at GSWS03, probe no. 01 at height 295 cm
AIRGS601
Air temperature at GSWS06, probe no. 01 at height 240 cm
AIRGS701
Air temperature at GSWS07, probe no. 01 at height 255 cm
AIRGS801
Air temperature at GSWS08, probe no. 01 at height 370 cm
AIRGSL01
Air temperature at GSLOOK, probe no. 01 at height 395 cm
AIRGSM01
Air temperature at GSMACK, probe no. 01 at height 350 cm
AIRLMA01
Air temperature at TSLOMA, probe no. 01 at height 350 cm, discontinued 2017
AIRLMC01
Air temperature at TSLOMC, probe no. 01 at height 365 cm, discontinued 1996
AIRTGR01
Air temperature at TSGRAS, probe no. 01 at height 100 cm, discontinued 1987
AIRTLO01
Air temperature at TSLOOK, probe no. 01 at height 240 cm, discontinued 2017
AIRTMA01
Air temperature at TSMACK, probe no. 01 at height 200 cm, discontinued 1995
AIRTMC01
Air temperature at TSMCRA, probe no. 01 at height 200 cm, discontinued 2015
AIRTQZ01
Air temperature at TSQRTZ, probe no. 01 at height 100 cm, discontinued 1994
WATGSL03
Stream temperature at GSLOOK, probe no. 03, established 2016 at the Lookout Creek gauging station
WATTMA02
Stream temperature at TSMACK, probe no. 02, established 2016 upstream of the gauging station
WATMCB01
Stream temperature at TSMCBR, probe no. 01, established 2017 near McRae Bridge
WATCLD01
Stream temperature at TSCOLD, probe no. 01, established 2016 on Cold Creek
WATLMC03
Stream temperature at TSLOMC, probe no. 03, established 2017 on Lookout Creek above the Lookout-McRae confluence
AIRTLO02
Air temperature at TSLOOK, probe no. 02 at height 200 cm, established 2017 at upper Lookout site
AIRLMA02
Air temperature at TSLOMA, probe no. 02 at height 200 cm, established 2017 over Mack Creek at the Lookout-Mack confluence site
DATE
Date
datetime
YYYY-MM-DD
1.000000
8/11/1976 12:00:00 AM
9/30/2019 12:00:00 AM
AIRTEMP_MEAN_DAY
Mean air temperature for the day
numeric(5,1)
degrees Celsius
0.100000
real
-16.8000
26.3000
AIRTEMP_MEAN_FLAG
Mean air temperature flag
char(1)
A
Accepted value has passed all QC tests applied as represented by the quality level
B
Sensor buried in snow; value is the snow temperature
E
Estimated value
M
Missing value
Q
Questionable value
S
Daily value based on 24 hour period defined from sunrise to sunrise
AIRTEMP_MAX_DAY
Maximum air temperature for the day
numeric(5,1)
degrees Celsius
0.100000
real
-14.2000
41.2000
AIRTEMP_MAX_FLAG
Maximum air temperature flag
char(1)
A
Accepted value has passed all QC tests applied as represented by the quality level
B
Sensor buried in snow; value is the snow temperature
E
Estimated value
M
Missing value
Q
Questionable value
S
Daily value based on 24 hour period defined from sunrise to sunrise
AIRTEMP_MAXTIME
Time of day (HHMM) in Pacific Standard Time (PST) of maximum air temperature
char(4)
Time of day (HHMM) in Pacific Standard Time (PST) of maximum air temperature
AIRTEMP_MIN_DAY
Minimum air temperature for the day
numeric(5,1)
degrees Celsius
0.100000
real
-20.2000
21.7000
AIRTEMP_MIN_FLAG
Minimum air temperature flag
char(1)
A
Accepted value has passed all QC tests applied as represented by the quality level
B
Sensor buried in snow; value is the snow temperature
E
Estimated value
M
Missing value
Q
Questionable value
S
Daily value based on 24 hour period defined from sunrise to sunrise
AIRTEMP_MINTIME
Time of day (HHMM) in Pacific Standard Time (PST) of minimum air temperature
char(4)
Time of day (HHMM) in Pacific Standard Time (PST) of minimum air temperature
EVENT_CODE
Type of comment that exists independently for any event, disruption in protocol, or unusual conditions that occur at the given date or time and may have an effect on the data values
char(6)
CALIBR
Associated with the inspection or replacement of sensors for calibration
INSREM
Sensor is installed or removed
LOGGER
Change in data logger, data logger program, or wiring
MAINTE
A maintenance event has occurred
METHOD
Change in data collection method
NA
No event is reported (not applicable)
QUALTY
Event may directly affect data quality
WEATHR
A weather event has occurred that may affect reading
PRIMARY
HT00401.DATE
HT00401.PROBE_CODE
NOTNULL
HT00401.DATE
HT00401.AIRTEMP_MEAN_FLAG
HT00401.AIRTEMP_MAX_FLAG
HT00401.AIRTEMP_MIN_FLAG
HT00401.PROBE_CODE
HT00401.DBCODE
HT00401.SITECODE
HT00401.ENTITY
HT00401.HEIGHT
HT00401.AIRTEMP_METHOD
HT00401.QC_LEVEL
HT00401.EVENT_CODE
126083
HT00411
HT00411
Air temperature (fine temporal resolution): Data is provided through an interactive application (GLITCH)
HT00411.txt
528901993
6af79a4f6473da28829dcbb91f3cc7fd
1
\r\n
column
,
"
https://andrewsforest.oregonstate.edu/fsdbdata/cache/HT00411_v8.txt
1994-12-06
2019-10-01
DBCODE
FSDB database code
char(5)
HT004
Study code HT004
ENTITY
Entity number
numeric(2,0)
number
1.000000
natural
11.0000
11.0000
SITECODE
Site code for the meteorological measurement station
char(6)
GSWS01
Andrews Watershed 1 Gaging Station
GSWS02
Andrews Watershed 2 Gaging Station
GSWS03
Andrews Watershed 3 Gaging Station
GSWS06
Andrews Watershed 6 Gaging Station
GSWS07
Andrews Watershed 7 Gaging Station
GSWS08
Andrews Watershed 8 Gaging Station
GSWS10
Andrews Watershed 10 Gaging Station
GSMACK
Andrews Mack Creek Gaging Station
GSLOOK
Andrews Lookout Creek Gaging Station
TSGRAS
Grasshopper Creek (S. Fork McKenzie) thermograph site
TSLOOK
Lookout Creek upper thermograph site
TSMACK
Mack Creek old-growth thermograph site
TSMCRA
McRae Creek upper thermograph site
TSQRTZ
Quartz Creek (Blue River tributary) thermograph site
TSLOMA
Lookout and Mack Creek confluence thermograph site
TSLOMC
Lookout and McRae Creek confluence thermograph site
TSCOLD
Cold Creek thermograph site
TSMCBR
McRae Bridge thermograph site
AIRTEMP_METHOD
An indication of the the general methodology and instrumentation used to collect this air temperature data
char(6)
AIR818
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 395 cm height (See method AIR718)
AIR807
Mean daily, max and min air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Instrument is type T thermocouple wire housed in a locally designed PVC radiation shield at 395 cm height (Daily output only)
AIR814
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 305 cm height (See method AIR714)
AIR815
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 350 cm height (See method AIR715)
AIR838
Mean daily air temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS Model 107; PVC radiation shield; 450 cm height (See method AIR738)
AIR813
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 295 cm height (See method AIR713)
AIR810
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 240 cm height (See method AIR710)
AIR812
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 255 cm height (See method AIR712)
AIR817
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 370 cm height (See method AIR717)
AIR811
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 250 cm height (See method AIR711)
AIR801
Mean, max and min daily (sunrise to sunrise) air temperature is determined from digitizing circular Partlow charts. Temperature is recorded by a Dual Recording Thermometer Model RFHTT with mercury bulb at 100 cm height in small shelter and corrected.
AIR816
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 365 cm height (See method AIR716)
AIR806
Mean, max and min daily air temperature is determined from digitizing circular Partlow charts. Temperature is recorded by a Dual Recording Thermometer Model RFHTT with mercury bulb at 300 cm height in small shelter on tree and corrected to standard rdg.
AIR826
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 395 cm height (See method AIR726)
AIR824
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 305 cm height (See method AIR724)
AIR834
Mean daily air temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS Model 107; PVC radiation shield; 305 cm height (See method AIR734)
AIR820
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 450 cm height (See method AIR720)
AIR823
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 295 cm height (See method AIR723)
AIR821
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 240 cm height (See method AIR721)
AIR822
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 255 cm height (See method AIR722)
AIR825
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 370 cm height (See method AIR725)
AIR819
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 400 cm height (See method AIR719)
AIR827
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 400 cm height (See method AIR727)
AIR802
Mean, max and min daily air temperature is determined from digitizing circular Partlow charts. Temperature is recorded by a Dual Recording Thermometer Model RFHTT with mercury bulb at 100 cm height in small shelter on tree and corrected to standard rdg.
AIR809
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 200 cm height (See method AIR709)
AIR808
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings.Thermocouple wire; PVC radiation shield; 395 cm height (See method AIR708)
AIR836
Mean daily air temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS Model 107; PVC radiation shield; 395 cm height (See method AIR736)
AIR828
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; PVC radiation shield; 450 cm height (See method AIR728)
AIR833
Mean daily air temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS Model 107; PVC radiation shield; 295 cm height (See method AIR733)
AIR831
Mean daily air temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS Model 107; PVC radiation shield; 240 cm height (See method AIR731)
AIR832
Mean daily air temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS Model 107; PVC radiation shield; 255 cm height (See method AIR732)
AIR835
Mean daily air temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS Model 107; PVC radiation shield; 370 cm height (See method AIR735)
AIR837
Mean daily air temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS Model 107; PVC radiation shield; 400 cm height (See method AIR737)
AIR805
Mean, max and min daily air temperature is determined from digitizing circular Partlow charts. Temperature is recorded by a Dual Recording Thermometer Model RFHTT with mercury bulb at 240 cm height in small shelter on tree and corrected to standard rdg.
AIR804
Mean, max and min daily air temperature is determined from digitizing circular Partlow charts. Temperature is recorded by a Dual Recording Thermometer Model RFHTT with mercury bulb at 200 cm height in small shelter on tree and corrected to standard rdg.
AIR803
Mean, max and min daily air temperature is determined from digitizing circular Partlow charts. Temperature is recorded by a Dual Recording Thermometer Model RFHTT with mercury bulb at 160 cm height in small shelter on tree and corrected to standard rdg.
AIR708
Air temperature is sampled by type T thermocouple soldered from thermocouple wire housed in a locally designed PVC radiation shield at 395 cm height with a Campbell Scientific data logger; mean temperature is output every 60 minutes
AIR709
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 200 cm height; mean temperature is output every 60 minutes
AIR710
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 240 cm height; mean temperature is output every 60 minutes
AIR711
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 250 cm height; mean temperature is output every 60 minutes
AIR712
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 255 cm height; mean temperature is output every 60 minutes
AIR713
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 295 cm height; mean temperature is output every 60 minutes
AIR714
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 305 cm height; mean temperature is output every 60 minutes
AIR715
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 350 cm height; mean temperature is output every 60 minutes
AIR716
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 365 cm height; mean temperature is output every 60 minutes
AIR717
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 370 cm height; mean temperature is output every 60 minutes
AIR718
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 395 cm height; mean temperature is output every 60 minutes
AIR719
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 400 cm height; mean temperature is output every 60 minutes
AIR720
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 450 cm height; mean temperature is output every 60 minutes
AIR721
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 240 cm height; mean temperature is output every 15 minutes
AIR722
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 255 cm height; mean temperature is output every 15 minutes
AIR723
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 295 cm height; mean temperature is output every 15 minutes
AIR724
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 305 cm height; mean temperature is output every 15 minutes
AIR725
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 370 cm height; mean temperature is output every 15 minutes
AIR726
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 395 cm height; mean temperature is output every 15 minutes
AIR727
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 400 cm height; mean temperature is output every 15 minutes
AIR728
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 450 cm height; mean temperature is output every 15 minutes
AIR731
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 240 cm height; mean, min, max temperature is output every 5 minutes
AIR732
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 255 cm height; mean, min, max temperature is output every 5 minutes
AIR733
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 295 cm height; mean, min, max temperature is output every 5 minutes
AIR734
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 305 cm height; mean, min, max temperature is output every 5 minutes
AIR735
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 370 cm height; mean, min, max temperature is output every 5 minutes
AIR736
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 395 cm height; mean, min, max temperature is output every 5 minutes
AIR737
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 400 cm height; mean, min, max temperature is output every 5 minutes
AIR738
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a locally designed PVC radiation shield at 450 cm height; mean, min, max temperature is output every 5 minutes
AIR839
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; Gill radiation shield; 200 cm height (See method AIR739)
AIR840
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; Gill radiation shield; 240 cm height (See method AIR740)
AIR841
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; Gill radiation shield; 350 cm height (See method AIR741)
AIR842
Mean daily air temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings. CS Model 107; Gill radiation shield; 395 cm height (See method AIR742)
AIR843
Mean daily air temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS Model 107; Gill radiation shield; 395 cm height (See method AIR743)
AIR844
Mean daily air temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS Model 107; Gill radiation shield; 350 cm height (See method AIR744)
AIR845
Mean daily air temperature is post-calculated from all instantaneous 15 minute values, and max-min values are determined based on all instantaneous 15 minute readings. Onset HOBO V2; RS1 7-Gill radiation shield; 200 cm height (See method AIR745)
AIR739
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 200 cm height; mean temperature is output every 60 minutes
AIR740
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 240 cm height; mean temperature is output every 60 minutes
AIR741
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 350 cm height; mean temperature is output every 60 minutes
AIR742
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 395 cm height; mean temperature is output every 60 minutes
AIR743
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 395 cm height; mean, min, max temperature is output every 5 minutes
AIR744
Air temperature is sampled by a Campbell Scientific model 107 thermistor housed in a R.M. Young Gill radiation shield at 350 cm height; mean, min, max temperature is output every 5 minutes
AIR745
Air temperature is sampled by an Onset HOBO Water Temp V2 housed in an RS1 7-gill radiation shield at 200 cm height attached to a boom extending out from a tree directly over the stream sensor; instantaneous temperature is output every 15 minutes
HEIGHT
Height of sensor from ground surface
numeric(4,0)
centimeters
1.000000
natural
200.0000
450.0000
QC_LEVEL
Quality control flag indicates level of quality checking performed including an indication of "provisional" data.
char(2)
1A
Data is published and unlikely to change - automated range checking and manual review has been conducted. Quality is indicated in data value qualifier flags.
1D
Data is published and unlikely to change - data is derived or aggregated from published data of level 1A
1P
Data is provisional and subject to revision - preliminary quality checks have been performed
2A
Data is published and unlikely to change - Level 1A data has been modified such that data gaps may be filled or problem data may be removed
2D
Data is published and unlikely to change - data is derived or aggregated from published data of level 2A
PROBE_CODE
Probe number code indicates the measurement type, site, and sensor number (e.g., AIRGS101)
char(8)
WATGSL01
Stream temperature at GSLOOK, probe no. 01
WATGSL02
Stream temperature at GSLOOK, probe no. 02, maintained by USGS, legacy data 1950-1981 (missing 1955-1963)
WATGSM01
Stream temperature at GSMACK, probe no. 01, downstream of flume in sampling pool
WATGS001
Stream temperature at GSWS10, probe no. 01, upstream of flume
WATGS101
Stream temperature at GSWS01, probe no. 01, downstream of flume
WATGS201
Stream temperature at GSWS02, probe no. 01, downstream of flume in sampling pool
WATGS301
Stream temperature at GSWS03, probe no. 01, downstream of flume
WATGS601
Stream temperature at GSWS06, probe no. 01, upstream of flume
WATGS701
Stream temperature at GSWS07, probe no. 01, downstream of flume
WATGS801
Stream temperature at GSWS08, probe no. 01, open canopy, discontinued 2001
WATGS802
Stream temperature at GSWS08, probe no. 02, upstream of flume
WATLMA01
Stream temperature at TSLOMA, probe no. 01 located in Lookout Cr. above the confluence with Mack Cr.
WATLMA02
Stream temperature at TSLOMA, probe no. 02 located in Mack Cr. above the confluence with Lookout Cr.
WATLMC01
Stream temperature at TSLOMC, probe no. 01 located in Lookout Cr. above the confluence with McRae cr., discontinued 1996
WATLMC02
Stream temperature at TSLOMC, probe no. 02 located in McRae Cr. above the confluence with Lookout Cr., discontinued 1996
WATTGR01
Stream temperature at TSGRAS, probe no. 01, discontinued 1987
WATTLO01
Stream temperature at TSLOOK, probe no. 01
WATTMA01
Stream temperature at TSMACK, probe no. 01, discontinued 1994
WATTMC01
Stream temperature at TSMCRA, probe no. 01, discontinued 2015
WATTQZ01
Stream temperature at TSQRTZ, probe no. 01, discontinued 1994
AIRGS001
Air temperature at GSWS10, probe no. 01 at height 400 cm
AIRGS101
Air temperature at GSWS01, probe no. 01 at height 305 cm
AIRGS201
Air temperature at GSWS02, probe no. 01 at height 450 cm
AIRGS301
Air temperature at GSWS03, probe no. 01 at height 295 cm
AIRGS601
Air temperature at GSWS06, probe no. 01 at height 240 cm
AIRGS701
Air temperature at GSWS07, probe no. 01 at height 255 cm
AIRGS801
Air temperature at GSWS08, probe no. 01 at height 370 cm
AIRGSL01
Air temperature at GSLOOK, probe no. 01 at height 395 cm
AIRGSM01
Air temperature at GSMACK, probe no. 01 at height 350 cm
AIRLMA01
Air temperature at TSLOMA, probe no. 01 at height 350 cm, discontinued 2017
AIRLMC01
Air temperature at TSLOMC, probe no. 01 at height 365 cm, discontinued 1996
AIRTGR01
Air temperature at TSGRAS, probe no. 01 at height 100 cm, discontinued 1987
AIRTLO01
Air temperature at TSLOOK, probe no. 01 at height 240 cm, discontinued 2017
AIRTMA01
Air temperature at TSMACK, probe no. 01 at height 200 cm, discontinued 1995
AIRTMC01
Air temperature at TSMCRA, probe no. 01 at height 200 cm, discontinued 2015
AIRTQZ01
Air temperature at TSQRTZ, probe no. 01 at height 100 cm, discontinued 1994
WATGSL03
Stream temperature at GSLOOK, probe no. 03, established 2016 at the Lookout Creek gauging station
WATTMA02
Stream temperature at TSMACK, probe no. 02, established 2016 upstream of the gauging station
WATMCB01
Stream temperature at TSMCBR, probe no. 01, established 2017 near McRae Bridge
WATCLD01
Stream temperature at TSCOLD, probe no. 01, established 2016 on Cold Creek
WATLMC03
Stream temperature at TSLOMC, probe no. 03, established 2017 on Lookout Creek above the Lookout-McRae confluence
AIRTLO02
Air temperature at TSLOOK, probe no. 02 at height 200 cm, established 2017 at upper Lookout site
AIRLMA02
Air temperature at TSLOMA, probe no. 02 at height 200 cm, established 2017 over Mack Creek at the Lookout-Mack confluence site
DATE_TIME
Date and time (PST) of probe reading
datetime
YYYY-MM-DD hh:mm:ss
1.000000
12/6/1994 4:00:00 PM
10/1/2019 12:00:00 AM
AIRTEMP_MEAN
Mean air temperature over the last interval (e.g., 5 minutes)
numeric(5,1)
degrees Celsius
0.100000
real
-19.7000
38.6000
AIRTEMP_MEAN_FLAG
Mean air temperature flag
char(1)
A
Accepted value has passed all QC tests applied as represented by the quality level
B
Sensor buried in snow; value is the snow temperature
E
Estimated value
M
Missing value
Q
Questionable value
S
Daily value based on 24 hour period defined from sunrise to sunrise
EVENT_CODE
Type of comment that exists independently for any event, disruption in protocol, or unusual conditions that occur at the given date or time and may have an effect on the data values
char(6)
CALIBR
Associated with the inspection or replacement of sensors for calibration
INSREM
Sensor is installed or removed
LOGGER
Change in data logger, data logger program, or wiring
MAINTE
A maintenance event has occurred
METHOD
Change in data collection method
NA
No event is reported (not applicable)
QUALTY
Event may directly affect data quality
WEATHR
A weather event has occurred that may affect reading
PRIMARY
HT00411.DATE_TIME
HT00411.PROBE_CODE
NOTNULL
HT00411.DATE_TIME
HT00411.AIRTEMP_MEAN_FLAG
HT00411.PROBE_CODE
HT00411.DBCODE
HT00411.SITECODE
HT00411.ENTITY
HT00411.HEIGHT
HT00411.AIRTEMP_METHOD
HT00411.QC_LEVEL
HT00411.EVENT_CODE
6829266
HT00441
HT00441
Stream temperature (daily): Includes legacy Lookout Creek USGS data 1950-1981 (1955-1963 missing)
HT00441.csv
12410983
03328393a8adf4c372f134388d3940be
1
\r\n
column
,
"
https://andlter.forestry.oregonstate.edu/data/register/dataaccess.aspx?docid=HT00441_v8.csv
1949-10-01
2019-09-30
DBCODE
FSDB database code
char(5)
HT004
Study code HT004
ENTITY
Entity number
numeric(2,0)
number
1.000000
natural
41.0000
41.0000
SITECODE
Site code for the meteorological measurement station
char(6)
GSWS01
Andrews Watershed 1 Gaging Station
GSWS02
Andrews Watershed 2 Gaging Station
GSWS03
Andrews Watershed 3 Gaging Station
GSWS06
Andrews Watershed 6 Gaging Station
GSWS07
Andrews Watershed 7 Gaging Station
GSWS08
Andrews Watershed 8 Gaging Station
GSWS10
Andrews Watershed 10 Gaging Station
GSMACK
Andrews Mack Creek Gaging Station
GSLOOK
Andrews Lookout Creek Gaging Station
TSGRAS
Grasshopper Creek (S. Fork McKenzie) thermograph site
TSLOOK
Lookout Creek upper thermograph site
TSMACK
Mack Creek old-growth thermograph site
TSMCRA
McRae Creek upper thermograph site
TSQRTZ
Quartz Creek (Blue River tributary) thermograph site
TSLOMA
Lookout and Mack Creek confluence thermograph site
TSLOMC
Lookout and McRae Creek confluence thermograph site
TSCOLD
Cold Creek thermograph site
TSMCBR
McRae Bridge thermograph site
WATERTEMP_METHOD
An indication of the the general methodology and instrumentation used to collect this water temperature data
char(6)
WAT007
Stream temperature is sampled by a Campbell Scientific model 107 thermistor secured in the stream inside a colander-like metal pipe shade shelter; mean temperature is output every 60 minutes
WAT006
Stream temperature is sampled by a Campbell Scientific data logger using type T thermocouple soldered from thermocouple wire placed in the stream inside a colander-like metal pipe shade shelter; mean temperature is output every 60 minutes
WAT009
Stream temperature is sampled by a Campbell Scientific CS547A conductivity and temperature probe secured in the stream inside a colander-like metal pipe shade shelter; mean, min, max temperature is output every 5 minutes
WAT008
Stream temperature is sampled by a Campbell Scientific CS547A conductivity and temperature probe secured in the stream inside a colander-like metal pipe shade shelter; mean temperature is output every 15 minutes
WAT101
Max and min daily stream temperature is provided by the USGS National Water Information System
WAT102
Daily stream temperature is not collected during this period
WAT103
Mean, max and min daily (sunrise to sunrise) air temperature is determined from digitizing circular Partlow charts. Temperature is recorded by a Dual Recording Thermometer Model RFHTT with mercury bulb placed in the stream with shade shelter
WAT104
Mean, max and min daily air temperature is determined from digitizing circular Partlow charts. Temperature is recorded by a Dual Recording Thermometer Model RFHTT with mercury bulb placed in the stream with shade shelter
WAT105
Mean, max and min daily stream temperature is calculated by a Campbell Scientific datalogger based on 10 second samples. Instrument is type T thermocouple soldered from thermocouple wire and placed in stream with shade shelter (Daily output only)
WAT106
Mean daily stream temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings.Thermocouple wire; metal pipe shade shelter (See method WAT006)
WAT107
Mean daily stream temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings.CS Model 107 thermistor; metal pipe shade shelter (See method WAT007)
WAT108
Mean daily stream temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings.CS547A; metal pipe shade shelter (See method WAT008)
WAT109
Mean daily stream temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS547A; metal pipe shade shelter (See method WAT009)
WAT010
Stream temperature is sampled by a Campbell Scientific model 107 thermistor secured in the stream inside a colander-like metal pipe shade shelter; mean, min and max temperature is output every 5 minutes
WAT011
Stream temperature is sampled by an Onset HOBO Water Temp V2 anchored to the streambed and placed in an aluminum or pvc housing to shelter and weight the sensor near stream bottom; instantaneous temperature is output every 15 minutes
WAT110
Mean daily stream temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS Model 107; metal pipe shade shelter (See method WAT010)
WAT111
Mean daily stream temperature is post-calculated from all 15 minute instantaneous values, and max-min values are determined based on all instantaneous 15 minute readings. HOBO V2; aluminum or PVC housing (See method WAT011)
QC_LEVEL
Quality control flag indicates level of quality checking performed including an indication of "provisional" data.
char(2)
1A
Data is published and unlikely to change - automated range checking and manual review has been conducted. Quality is indicated in data value qualifier flags.
1D
Data is published and unlikely to change - data is derived or aggregated from published data of level 1A
1P
Data is provisional and subject to revision - preliminary quality checks have been performed
2A
Data is published and unlikely to change - Level 1A data has been modified such that data gaps may be filled or problem data may be removed
2D
Data is published and unlikely to change - data is derived or aggregated from published data of level 2A
PROBE_CODE
Probe number code indicates the measurement type, site, and sensor number (e.g., AIRGS101)
char(8)
WATGSL01
Stream temperature at GSLOOK, probe no. 01
WATGSL02
Stream temperature at GSLOOK, probe no. 02, maintained by USGS, legacy data 1950-1981 (missing 1955-1963)
WATGSM01
Stream temperature at GSMACK, probe no. 01, downstream of flume in sampling pool
WATGS001
Stream temperature at GSWS10, probe no. 01, upstream of flume
WATGS101
Stream temperature at GSWS01, probe no. 01, downstream of flume
WATGS201
Stream temperature at GSWS02, probe no. 01, downstream of flume in sampling pool
WATGS301
Stream temperature at GSWS03, probe no. 01, downstream of flume
WATGS601
Stream temperature at GSWS06, probe no. 01, upstream of flume
WATGS701
Stream temperature at GSWS07, probe no. 01, downstream of flume
WATGS801
Stream temperature at GSWS08, probe no. 01, open canopy, discontinued 2001
WATGS802
Stream temperature at GSWS08, probe no. 02, upstream of flume
WATLMA01
Stream temperature at TSLOMA, probe no. 01 located in Lookout Cr. above the confluence with Mack Cr.
WATLMA02
Stream temperature at TSLOMA, probe no. 02 located in Mack Cr. above the confluence with Lookout Cr.
WATLMC01
Stream temperature at TSLOMC, probe no. 01 located in Lookout Cr. above the confluence with McRae cr., discontinued 1996
WATLMC02
Stream temperature at TSLOMC, probe no. 02 located in McRae Cr. above the confluence with Lookout Cr., discontinued 1996
WATTGR01
Stream temperature at TSGRAS, probe no. 01, discontinued 1987
WATTLO01
Stream temperature at TSLOOK, probe no. 01
WATTMA01
Stream temperature at TSMACK, probe no. 01, discontinued 1994
WATTMC01
Stream temperature at TSMCRA, probe no. 01, discontinued 2015
WATTQZ01
Stream temperature at TSQRTZ, probe no. 01, discontinued 1994
AIRGS001
Air temperature at GSWS10, probe no. 01 at height 400 cm
AIRGS101
Air temperature at GSWS01, probe no. 01 at height 305 cm
AIRGS201
Air temperature at GSWS02, probe no. 01 at height 450 cm
AIRGS301
Air temperature at GSWS03, probe no. 01 at height 295 cm
AIRGS601
Air temperature at GSWS06, probe no. 01 at height 240 cm
AIRGS701
Air temperature at GSWS07, probe no. 01 at height 255 cm
AIRGS801
Air temperature at GSWS08, probe no. 01 at height 370 cm
AIRGSL01
Air temperature at GSLOOK, probe no. 01 at height 395 cm
AIRGSM01
Air temperature at GSMACK, probe no. 01 at height 350 cm
AIRLMA01
Air temperature at TSLOMA, probe no. 01 at height 350 cm, discontinued 2017
AIRLMC01
Air temperature at TSLOMC, probe no. 01 at height 365 cm, discontinued 1996
AIRTGR01
Air temperature at TSGRAS, probe no. 01 at height 100 cm, discontinued 1987
AIRTLO01
Air temperature at TSLOOK, probe no. 01 at height 240 cm, discontinued 2017
AIRTMA01
Air temperature at TSMACK, probe no. 01 at height 200 cm, discontinued 1995
AIRTMC01
Air temperature at TSMCRA, probe no. 01 at height 200 cm, discontinued 2015
AIRTQZ01
Air temperature at TSQRTZ, probe no. 01 at height 100 cm, discontinued 1994
WATGSL03
Stream temperature at GSLOOK, probe no. 03, established 2016 at the Lookout Creek gauging station
WATTMA02
Stream temperature at TSMACK, probe no. 02, established 2016 upstream of the gauging station
WATMCB01
Stream temperature at TSMCBR, probe no. 01, established 2017 near McRae Bridge
WATCLD01
Stream temperature at TSCOLD, probe no. 01, established 2016 on Cold Creek
WATLMC03
Stream temperature at TSLOMC, probe no. 03, established 2017 on Lookout Creek above the Lookout-McRae confluence
AIRTLO02
Air temperature at TSLOOK, probe no. 02 at height 200 cm, established 2017 at upper Lookout site
AIRLMA02
Air temperature at TSLOMA, probe no. 02 at height 200 cm, established 2017 over Mack Creek at the Lookout-Mack confluence site
DATE
Date
datetime
YYYY-MM-DD
1.000000
10/1/1949 12:00:00 AM
9/30/2019 12:00:00 AM
WATERTEMP_MEAN_DAY
Mean water temperature for the day
numeric(5,1)
degrees Celsius
0.100000
real
-1.8000
19.4000
WATERTEMP_MEAN_FLAG
Mean water temperature flag
char(1)
A
Accepted value has passed all QC tests applied as represented by the quality level
B
Sensor buried in sediment
E
Estimated value
M
Missing value
S
Daily value based on sunrise to sunrise (not midnight to midnight)
Q
Questionable value
WATERTEMP_MAX_DAY
Maximum water temperature for the day
numeric(5,1)
degrees Celsius
0.100000
real
-1.8000
25.0000
WATERTEMP_MAX_FLAG
Maximum water temperature flag
char(1)
A
Accepted value has passed all QC tests applied as represented by the quality level
B
Sensor buried in sediment
E
Estimated value
M
Missing value
S
Daily value based on sunrise to sunrise (not midnight to midnight)
Q
Questionable value
WATERTEMP_MAXTIME
Time of day (HHMM) in Pacific Standard Time (PST) of maximum water temperature
char(4)
Time of day (HHMM) in Pacific Standard Time (PST) of maximum water temperature
WATERTEMP_MIN_DAY
Minimum water temperature for the day
numeric(5,1)
degrees Celsius
0.100000
real
-1.8000
19.0000
WATERTEMP_MIN_FLAG
Minimum water temperature flag
char(1)
A
Accepted value has passed all QC tests applied as represented by the quality level
B
Sensor buried in sediment
E
Estimated value
M
Missing value
S
Daily value based on sunrise to sunrise (not midnight to midnight)
Q
Questionable value
WATERTEMP_MINTIME
Time of day (HHMM) in Pacific Standard Time (PST) of minimum water temperature
char(4)
Time of day (HHMM) in Pacific Standard Time (PST) of minimum water temperature
EVENT_CODE
Type of comment that exists independently for any event, disruption in protocol, or unusual conditions that occur at the given date or time and may have an effect on the data values
char(6)
CALIBR
Associated with the inspection or replacement of sensors for calibration
INSREM
Sensor is installed or removed
LOGGER
Change in data logger, data logger program, or wiring
MAINTE
A maintenance event has occurred
METHOD
Change in data collection method
NA
No event is reported (not applicable)
QUALTY
Event may directly affect data quality
WEATHR
A weather event has occurred that may affect reading
PRIMARY
HT00441.DATE
HT00441.PROBE_CODE
NOTNULL
HT00441.DATE
HT00441.WATERTEMP_MEAN_FLAG
HT00441.WATERTEMP_MAX_FLAG
HT00441.WATERTEMP_MIN_FLAG
HT00441.PROBE_CODE
HT00441.DBCODE
HT00441.SITECODE
HT00441.ENTITY
HT00441.QC_LEVEL
HT00441.EVENT_CODE
HT00441.WATERTEMP_METHOD
147320
HT00451
HT00451
Stream temperature (fine temporal resolution): Data is provided through an interactive application (GLITCH)
HT00451.txt
550909860
9ed9ba8be08717bea72efa95a1b01c25
1
\r\n
column
,
"
https://andrewsforest.oregonstate.edu/fsdbdata/cache/HT00451_v8.txt
1994-12-06
2019-10-01
DBCODE
FSDB database code
char(5)
HT004
Study code HT004
ENTITY
Entity number
numeric(2,0)
number
1.000000
natural
51.0000
51.0000
SITECODE
Site code for the meteorological measurement station
char(6)
GSWS01
Andrews Watershed 1 Gaging Station
GSWS02
Andrews Watershed 2 Gaging Station
GSWS03
Andrews Watershed 3 Gaging Station
GSWS06
Andrews Watershed 6 Gaging Station
GSWS07
Andrews Watershed 7 Gaging Station
GSWS08
Andrews Watershed 8 Gaging Station
GSWS10
Andrews Watershed 10 Gaging Station
GSMACK
Andrews Mack Creek Gaging Station
GSLOOK
Andrews Lookout Creek Gaging Station
TSGRAS
Grasshopper Creek (S. Fork McKenzie) thermograph site
TSLOOK
Lookout Creek upper thermograph site
TSMACK
Mack Creek old-growth thermograph site
TSMCRA
McRae Creek upper thermograph site
TSQRTZ
Quartz Creek (Blue River tributary) thermograph site
TSLOMA
Lookout and Mack Creek confluence thermograph site
TSLOMC
Lookout and McRae Creek confluence thermograph site
TSCOLD
Cold Creek thermograph site
TSMCBR
McRae Bridge thermograph site
WATERTEMP_METHOD
An indication of the the general methodology and instrumentation used to collect this water temperature data
char(6)
WAT007
Stream temperature is sampled by a Campbell Scientific model 107 thermistor secured in the stream inside a colander-like metal pipe shade shelter; mean temperature is output every 60 minutes
WAT006
Stream temperature is sampled by a Campbell Scientific data logger using type T thermocouple soldered from thermocouple wire placed in the stream inside a colander-like metal pipe shade shelter; mean temperature is output every 60 minutes
WAT009
Stream temperature is sampled by a Campbell Scientific CS547A conductivity and temperature probe secured in the stream inside a colander-like metal pipe shade shelter; mean, min, max temperature is output every 5 minutes
WAT008
Stream temperature is sampled by a Campbell Scientific CS547A conductivity and temperature probe secured in the stream inside a colander-like metal pipe shade shelter; mean temperature is output every 15 minutes
WAT101
Max and min daily stream temperature is provided by the USGS National Water Information System
WAT102
Daily stream temperature is not collected during this period
WAT103
Mean, max and min daily (sunrise to sunrise) air temperature is determined from digitizing circular Partlow charts. Temperature is recorded by a Dual Recording Thermometer Model RFHTT with mercury bulb placed in the stream with shade shelter
WAT104
Mean, max and min daily air temperature is determined from digitizing circular Partlow charts. Temperature is recorded by a Dual Recording Thermometer Model RFHTT with mercury bulb placed in the stream with shade shelter
WAT105
Mean, max and min daily stream temperature is calculated by a Campbell Scientific datalogger based on 10 second samples. Instrument is type T thermocouple soldered from thermocouple wire and placed in stream with shade shelter (Daily output only)
WAT106
Mean daily stream temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings.Thermocouple wire; metal pipe shade shelter (See method WAT006)
WAT107
Mean daily stream temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings.CS Model 107 thermistor; metal pipe shade shelter (See method WAT007)
WAT108
Mean daily stream temperature is calculated by the Campbell Scientific datalogger based on 10 second samples. Max-min values are based on instantaneous 10 second readings.CS547A; metal pipe shade shelter (See method WAT008)
WAT109
Mean daily stream temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS547A; metal pipe shade shelter (See method WAT009)
WAT010
Stream temperature is sampled by a Campbell Scientific model 107 thermistor secured in the stream inside a colander-like metal pipe shade shelter; mean, min and max temperature is output every 5 minutes
WAT011
Stream temperature is sampled by an Onset HOBO Water Temp V2 anchored to the streambed and placed in an aluminum or pvc housing to shelter and weight the sensor near stream bottom; instantaneous temperature is output every 15 minutes
WAT110
Mean daily stream temperature is post-calculated from all 5 minute values, and max-min values are determined based on all instantaneous 10 second readings. CS Model 107; metal pipe shade shelter (See method WAT010)
WAT111
Mean daily stream temperature is post-calculated from all 15 minute instantaneous values, and max-min values are determined based on all instantaneous 15 minute readings. HOBO V2; aluminum or PVC housing (See method WAT011)
QC_LEVEL
Quality control flag indicates level of quality checking performed including an indication of "provisional" data.
char(2)
1A
Data is published and unlikely to change - automated range checking and manual review has been conducted. Quality is indicated in data value qualifier flags.
1D
Data is published and unlikely to change - data is derived or aggregated from published data of level 1A
1P
Data is provisional and subject to revision - preliminary quality checks have been performed
2A
Data is published and unlikely to change - Level 1A data has been modified such that data gaps may be filled or problem data may be removed
2D
Data is published and unlikely to change - data is derived or aggregated from published data of level 2A
PROBE_CODE
Probe number code indicates the measurement type, site, and sensor number (e.g., AIRGS101)
char(8)
WATGSL01
Stream temperature at GSLOOK, probe no. 01
WATGSL02
Stream temperature at GSLOOK, probe no. 02, maintained by USGS, legacy data 1950-1981 (missing 1955-1963)
WATGSM01
Stream temperature at GSMACK, probe no. 01, downstream of flume in sampling pool
WATGS001
Stream temperature at GSWS10, probe no. 01, upstream of flume
WATGS101
Stream temperature at GSWS01, probe no. 01, downstream of flume
WATGS201
Stream temperature at GSWS02, probe no. 01, downstream of flume in sampling pool
WATGS301
Stream temperature at GSWS03, probe no. 01, downstream of flume
WATGS601
Stream temperature at GSWS06, probe no. 01, upstream of flume
WATGS701
Stream temperature at GSWS07, probe no. 01, downstream of flume
WATGS801
Stream temperature at GSWS08, probe no. 01, open canopy, discontinued 2001
WATGS802
Stream temperature at GSWS08, probe no. 02, upstream of flume
WATLMA01
Stream temperature at TSLOMA, probe no. 01 located in Lookout Cr. above the confluence with Mack Cr.
WATLMA02
Stream temperature at TSLOMA, probe no. 02 located in Mack Cr. above the confluence with Lookout Cr.
WATLMC01
Stream temperature at TSLOMC, probe no. 01 located in Lookout Cr. above the confluence with McRae cr., discontinued 1996
WATLMC02
Stream temperature at TSLOMC, probe no. 02 located in McRae Cr. above the confluence with Lookout Cr., discontinued 1996
WATTGR01
Stream temperature at TSGRAS, probe no. 01, discontinued 1987
WATTLO01
Stream temperature at TSLOOK, probe no. 01
WATTMA01
Stream temperature at TSMACK, probe no. 01, discontinued 1994
WATTMC01
Stream temperature at TSMCRA, probe no. 01, discontinued 2015
WATTQZ01
Stream temperature at TSQRTZ, probe no. 01, discontinued 1994
AIRGS001
Air temperature at GSWS10, probe no. 01 at height 400 cm
AIRGS101
Air temperature at GSWS01, probe no. 01 at height 305 cm
AIRGS201
Air temperature at GSWS02, probe no. 01 at height 450 cm
AIRGS301
Air temperature at GSWS03, probe no. 01 at height 295 cm
AIRGS601
Air temperature at GSWS06, probe no. 01 at height 240 cm
AIRGS701
Air temperature at GSWS07, probe no. 01 at height 255 cm
AIRGS801
Air temperature at GSWS08, probe no. 01 at height 370 cm
AIRGSL01
Air temperature at GSLOOK, probe no. 01 at height 395 cm
AIRGSM01
Air temperature at GSMACK, probe no. 01 at height 350 cm
AIRLMA01
Air temperature at TSLOMA, probe no. 01 at height 350 cm, discontinued 2017
AIRLMC01
Air temperature at TSLOMC, probe no. 01 at height 365 cm, discontinued 1996
AIRTGR01
Air temperature at TSGRAS, probe no. 01 at height 100 cm, discontinued 1987
AIRTLO01
Air temperature at TSLOOK, probe no. 01 at height 240 cm, discontinued 2017
AIRTMA01
Air temperature at TSMACK, probe no. 01 at height 200 cm, discontinued 1995
AIRTMC01
Air temperature at TSMCRA, probe no. 01 at height 200 cm, discontinued 2015
AIRTQZ01
Air temperature at TSQRTZ, probe no. 01 at height 100 cm, discontinued 1994
WATGSL03
Stream temperature at GSLOOK, probe no. 03, established 2016 at the Lookout Creek gauging station
WATTMA02
Stream temperature at TSMACK, probe no. 02, established 2016 upstream of the gauging station
WATMCB01
Stream temperature at TSMCBR, probe no. 01, established 2017 near McRae Bridge
WATCLD01
Stream temperature at TSCOLD, probe no. 01, established 2016 on Cold Creek
WATLMC03
Stream temperature at TSLOMC, probe no. 03, established 2017 on Lookout Creek above the Lookout-McRae confluence
AIRTLO02
Air temperature at TSLOOK, probe no. 02 at height 200 cm, established 2017 at upper Lookout site
AIRLMA02
Air temperature at TSLOMA, probe no. 02 at height 200 cm, established 2017 over Mack Creek at the Lookout-Mack confluence site
DATE_TIME
Date and time (PST) of probe reading
datetime
YYYY-MM-DD hh:mm:ss
1.000000
12/6/1994 4:00:00 PM
10/1/2019 12:00:00 AM
WATERTEMP_MEAN
Mean water temperature over the last interval (e.g., 5 minutes)
numeric(5,1)
degrees Celsius
0.100000
real
-2.2000
24.9000
WATERTEMP_MEAN_FLAG
Mean water temperature flag
char(1)
A
Accepted value has passed all QC tests applied as represented by the quality level
B
Sensor buried in sediment
E
Estimated value
M
Missing value
S
Daily value based on sunrise to sunrise (not midnight to midnight)
Q
Questionable value
EVENT_CODE
Type of comment that exists independently for any event, disruption in protocol, or unusual conditions that occur at the given date or time and may have an effect on the data values
char(6)
CALIBR
Associated with the inspection or replacement of sensors for calibration
INSREM
Sensor is installed or removed
LOGGER
Change in data logger, data logger program, or wiring
MAINTE
A maintenance event has occurred
METHOD
Change in data collection method
NA
No event is reported (not applicable)
QUALTY
Event may directly affect data quality
WEATHR
A weather event has occurred that may affect reading
PRIMARY
HT00451.DATE_TIME
HT00451.PROBE_CODE
NOTNULL
HT00451.DATE_TIME
HT00451.WATERTEMP_MEAN_FLAG
HT00451.PROBE_CODE
HT00451.DBCODE
HT00451.SITECODE
HT00451.ENTITY
HT00451.QC_LEVEL
HT00451.EVENT_CODE
HT00451.WATERTEMP_METHOD
7514896
centimeters; .01 meters
dimensionless number, i.e., ratio, count
Degrees Celsius; a common unit of temperature; constantToSI=273.18