SGP97: NOAA/ATDD Little Washita, Oklahoma Long Term Flux Site
The NOAA/ATDD (Tilden Meyers) started operation of a long term flux monitoring site near the Little Washita watershed in Oklahoma in 1996. Half-hourly observations of wind speed and direction, air temperature, relative humidity, pressure, incoming global radiation, incoming and outgoing visible radiation, net radiation, ground heat flux, precipitation, wetness, skin temperature, soil temperature (at 2, 4, 8, 16, 32 and 64 cm), average wind vector speed, kinematic shear stress, streamwise velocity variance, crosswind velocity variance, vertical velocity variance, sensible heat flux, latent energy flux, CO2 flux and soil moisture at 20 cm (started 5 June 1997). For further information on this data set see the README file.
- ORDER data for delivery by FTP
|Subscribe||Subscribe to receive email when new or updated data is available.|
|GCMD Science Keywords||
|Begin datetime||1997-05-31 00:00:00|
|End datetime||1997-08-09 23:59:59|
Map data from IBCSO, IBCAO, and Global Topography.
Maximum (North) Latitude:
Minimum (South) Latitude:
Minimum (West) Longitude: -98.00, Maximum (East) Longitude: -97.50
Additional contact information
- author: Tilden Meyers <email@example.com>
- originator: Atmospheric Turbulence and Diffusion Division (ATDD), NOAA
CitationExample citation following ESIP guidelines:
Meyers, T. 1999. SGP97: NOAA/ATDD Little Washita, Oklahoma Long Term Flux Site. Version 1.0. UCAR/NCAR - Earth Observing Laboratory. https://doi.org/10.26023/KCVC-H51J-HR0C. Accessed 07 Dec 2022.
Today's date is shown: please replace with the date of your most recent access.
Additional citation styles
The citation text below is from the DataCite Content Resolver service and may take a few seconds to load. The styles and locales are obtained from CrossCite, which also provides a citation formatter. See ReFindit for another alternative. Formatting is not perfect: please verify and edit before use. Today's date is shown: please replace with the date of your most recent access.