2010 Annual Report
1a.Objectives (from AD-416)
Work with Oklahoma State University (OSU) to evaluate the quality and accuracy of in situ soil moisture monitoring instrumentation in a rangeland field. Large scale sampling of soil moisture and co-location of a variety of soil moisture sensor technologies will be implemented in a rangeland field on Oklahoma State University property under the management of their Range Research Station. Physical collection of soil moisture samples and characterization of the field on a routine basis for the term of this agreement will be the primary objective.
1b.Approach (from AD-416)
The cooperative work proposed here will assess the accuracy and representativeness of the soil moisture studies included in the project, based upon physical collection of soil moisture. This assessment will guide the NASA Soil Moisture Active Passive (SMAP) Science Definition Team in their calibration and validation activities for the satellite mission.
ARS will direct the research testbed, leading the investigation and analysis of the results for incorporation into the SMAP Science Team Data Archive. Provide equipment and installation of in situ soil moisture sensors and assist in the collection of physical samples for calibration and validation of the sensor testbed.
OSU will be providing local logistical support for the testbed including site maintenance and communications support for the instrumentation. Also administer a gravimetric and vegetation sampling regimen on a regular basis for calibration and validation of the sensor estimates with the support personnel funded by this agreement.
In support of USDA-ARS, Soil Moisture Active Passive (SMAP) validation activities in central Oklahoma, scientists at the Oklahoma State University installed an in situ sensor testbed in coordination with USDA ARS Hydrology and Remote Sensing Laboratory (HRSL). The location is managed by OSU as a part of their rangeland management research station. Oklahoma State University (OSU) have collected soil texture and moisture information on a regular basis as a validation of the in situ sensor. In addition, they have conducted vegetation sampling protocols for the purpose of quality controlling some of the larger scale sensors which have a vegetation dependence.
Data from four base stations can be downloaded via cellular technology, but OSU is maintaining and downloading data from several other satellite stations which have larger data production rates and cannot be easily transferred via cellular networks. Many of the sensors require a settling time before the data can be considered accurate, but many of the stations are starting to give realistic time series information.
Future research will involve calibrating the in situ sensors to the gravimetric collections being conducting and analyzing the time series of the different instruments for the collected time period. Additional efforts will include a vegetation removal experiment, where portions of the field will be burned as part of another experiment and will influence how some of the sensors respond to moisture.
The ADODR has monitored the progress of this project through email correspondences, conference calls and periodic meetings with Oklahoma State University scientists.