Smoothed snow depth data, location, raw data with headers, and associated metadata for University of Idaho Experimental Forest Lawler Landing site

Dates

Start Date: 2008-02
End Date: 2008-05
Publication Date: 2016

Citation

Carson, D.R. 2010. Quantification of snow pack mass and energy dynamics across a canopy discontinuity. M.S. Thesis. Department of Forest Resources, University of Idaho.

Summary

UIEF_wind Summary: Within the Flat Creek Unit of the University of Idaho Experimental Forest (UIEF) near Moscow, ID, 30-minute snow depth and meteorological data were collected at seven locations across the Lawler Landing site (elevation 880 m) from February to May of WY 2008. A 70 m north-south oriented transect of 5 snow depth sensors was deployed to record sub-daily snow depth, with co-located meteorological instruments. The sensors traversed a 40 m long elliptical forest gap and the adjacent forest in both directions. The locations were the same as those used previously to quantify how shortwave and longwave radiation vary across a forest gap [Lawler and Link, 2011]. Two additional snow depth sensors and meteorological stations [...]

Summary

UIEF_wind Summary: Within the Flat Creek Unit of the University of Idaho Experimental Forest (UIEF) near Moscow, ID, 30-minute snow depth and meteorological data were collected at seven locations across the Lawler Landing site (elevation 880 m) from February to May of WY 2008. A 70 m north-south oriented transect of 5 snow depth sensors was deployed to record sub-daily snow depth, with co-located meteorological instruments. The sensors traversed a 40 m long elliptical forest gap and the adjacent forest in both directions. The locations were the same as those used previously to quantify how shortwave and longwave radiation vary across a forest gap [Lawler and Link, 2011]. Two additional snow depth sensors and meteorological stations were deployed at “interior forest reference” and “open reference” sites, situated 80 m southeast and 1200 m west, respectively, from the main transect. Whereas the forest reference site was similar to the surrounding forest, the open reference site was much more exposed than the forest gap. These data are generally raw datalogger output and have not been quality controlled in any way unless specifically designated in the variable name. See manufacturer specifications for individual instruments to determine sensor accuracy. This file was compiled from individual raw data files provided by IU, along with approximate coordinates of the sensor locations. Collaborators at the University of Washington (Jessica Lundquist) converted the timestamp given in fractional julian days to a dates and added site attributes such as Location ID and cover.

UIEF_snowdepth Summary: Observed snow depth from acoustic sensor. Measurements taken within the Lowler Landing Gap, as part of the University of Idaho Experimental Forest. Sensor data was collected half-hourly during February through May 2008. Sensor data collected at 7 different points. See location metadata and data citation for description of locations. These data include raw values and values that were smoothed by Diana Carson, see data citation for details.

UIEF_Location Summary: Within the Flat Creek Unit of the University of Idaho Experimental Forest (UIEF) near Moscow, ID, 30-minute snow depth and meteorological data were collected at seven locations across the Lawler Landing site (elevation 880 m) from February to May of WY 2008. These location metadata are assocatied with each unique location identification, which ties to time series data. See Figure 1 of data citation for schematic map of locations. These coordinates are estimated from Google Earth based on Dr. Timothy Link's memory of where the sensors were located. Other attributes of each location were recorded as field notes as part of the study design.

UIEF_wind Attributes: LocID - unique station identification, ties these data to location metadata; Location - University of Idaho Experimental Forest (UIEF); sequence - original timestamp, in fractional julian days, starting with 1 January 2008; WY - Water Year, e.g. Water Year 2008 = 2007-10-01 through 2008-09-30. Based on local time.; Julian - julian day, e.g., 1 Jan = 1 and 1 Feb = 32; Hour; Minute; DateTimeLocal - Date and time observations in Pacific Standard Time (-8 UTC) and adjusted for Pacific Daylight Time (-7 UTC). yyyy-mm-dd hh:mm:ss; UTCoffset - Number of hours of offset from UTC time, i.e., -8 during PST and -7 during PDT; ucorr - corrected wind speed in m/s, based on raw datalogger output and instrument calibration in the WSU wind tunnel

UIEF_snowdepth Attributes: LocID - unique station identification, ties these data to location metadata; Obs - alternative name of the location; DateTime - Date and time observations in Pacific Standard Time (-8 UTC) and adjusted for Pacific Daylight Time (-7 UTC). yyyy-mm-dd hh:mm:ss; DateTimeUTC - Date and time observations in UTC. yyyy-mm-dd hh:mm:ss; value - observation; ObsType - raw snow depth or smoothed snow depth; Units - centimeters, cm; Cover - open or forest; Description - location description, see location metadata for more detail; Status - raw or smoothed.

UIEF_Location Attributes: LocID - Location identification that ties the metadata to the time sereies data; Institution - University of Idaho (UI); Location - University of Idaho Experimental Forest (UIEF); Cover - Forest, gap, or open; Description - Description of position, relative to gap and forest; Latitude - in decimal degrees; Longitude - in decimal degrees; Datum - WGS1984; Notes

Contacts

Principal Investigator :: Timothy Link
Cooperator/Partner :: Susan E. Dickerson-Lange
Distributor :: U.S. Geological Survey - ScienceBase
Metadata Contact :: Susan E. Dickerson-Lange
Originator :: Timothy Link

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uief.fgdc.xml Original FGDC Metadata	View	22.28 KB	application/fgdc+xml
UIEF_wind_WY2008.csv		1.71 MB	text/csv
UIEF_wind_WY2008_README.txt		3.02 KB	text/plain
UIEF_snowdepth_WY2008.csv		5.76 MB	text/csv
UIEF_snowdepth_WY2008_README.txt		1.67 KB	text/plain
UIEF_Location_Metadata.csv		624 Bytes	text/csv
UIEF_Location_Metadata_README.txt		1.68 KB	text/plain

Related External Resources

Type: Online Link

Web Link	http://dx.doi.org/10.5066/F70C4SW3

Type: webLink

Access point for data	http://dx.doi.org/10.5066/F70C4SW3

Purpose

Climate change is projected to cause earlier snowmelt, with potentially serious consequences for terrestrial and aquatic ecosystems and for municipal and agricultural water supplies. However, if forests can be managed to retain snow longer, some of these environmental and financial impacts may be mitigated. Recent results from our research team demonstrate that in areas with relatively warm winters, strategically-cut forest gaps could offset climatic warming by increasing snow retention on the landscape and delaying runoff. However, in areas with colder winters, the opposite is true, as snow lasts longer under the forest canopy. We will map these climate-forest-snow interactions across the Pacific Northwest, predicting how forest change is likely to affect snow duration in different locations and testing those predictions against careful observations from our field sites and a network of citizen scientists. Working with regional forest and water managers, we will identify strategies for applying these findings to decision-making, linking climate-forest-snow interactions to ecohydrologic conditions important to management. Results from this project will help managers to act strategically to maximize snow retention (protecting forests in some areas while opening gaps in others), providing more water later in the season for hydropower, agriculture, and fish flows.

Smoothed snow depth data, location, raw data with headers, and associated metadata for University of Idaho Experimental Forest Lawler Landing site

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