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United States Department of Agriculture

Agricultural Research Service

Related Topics


Location: Water Management Research

2010 Annual Report

1a. Objectives (from AD-416)
The objectives are to develop technology to estimate real-time crop coefficients for fields/crops in the San Joaquin Valley from remotely-sensed data and to develop and demonstrate a prototype decision support system that can efficiently deliver crop coefficient and estimated crop water use information to agricultural producers and water suppliers.

1b. Approach (from AD-416)
* Refine and validate the relationship between crop canopy cover (fc) and remotely sensed NDVI. Use ground based multispectral camera to measure fc for a wide range of crops grown in the San Joaquin Valley and compare the fc values with NDVI values derived from both aerial and satellite (Landsat and Modis) multispectral images for the fields. * Conversion of fc to basal crop coefficient, Kcb. Collect a library of relationships between fc and basal crop coefficient generated from the UC Kearney/ARS peach and grape lysimeters, the ongoing ARS lysimeter studies of vegetable water use at the UC WSREC, and any relationships published in the literature. * Compare crop water use estimates with this methodology with that predicted by standard (FAO 56) and thermal surface energy balance approaches. Compare predicted ETc based on the proposed methodology (NDVI and localized CIMIS ETo, and estimates of soil evaporation) with estimates of crop water use based on remotely sensed thermal imagery and the Surface Energy Balance approach. * Develop software and packaging for retrieval and conversion of RS images to geo-rectified Kcb maps. Develop methodology to automatically retrieve appropriate imagery, efficiently calculate NDVI values from the remotely sensed (RS) images, convert the NDVI values to Kcb values, and present the data in a geometrically rectified GIS format that can be efficiently combined with the localized ETo data from CIMIS and other map layers. * Develop a prototype user interface. Develop a prototype user interface for spatially explicit query (eg, based on geo-coordinates, parcel number, etc) that allows users to efficiently download Kcb and ETo information and efficiently calculate ETc for their fields or districts. * Feasibility, Costs and Benefits. Estimate the benefits and costs of employing remote sensing technology to improve water use efficiency. Estimate the costs of delivering RS based crop coefficients for the San Joaquin Valley. Estimate the improved irrigation efficiency and water savings that can be expected with this scheduling technology compared to the use of CIMIS ETo data and a traditional crop coefficient approach. Documents Trust with California Department of Water Resources. Log 33550.

3. Progress Report
This research contributes to Objective 1 of the in-house project. During this reporting period, field collected measurements of fractional ground cover and surface soil moisture in the San Joaquin Valley in 2008 were compared with satellite-based vegetation indices and combined with ground-based reference evapotranspiration (ET) measurements to calculate ET estimates. This method was compared to SEBAL estimates on a field-by-field basis. Although the two methods generally correlated well, the SEBAL estimates of ET tended to be lower than those estimated from ground cover. Results will be presented at the 5th National Decennial Irrigation Conference in December 2010 in Phoenix, AZ. Evapotranspiration techniques based on remotely-sensed data enable efficient estimates of ET over large land areas. These techniques, combined with recent advances in data collection, analysis, and presentation can efficiently supply irrigation managers with information to help them schedule irrigation water deliveries and applications.

4. Accomplishments

Last Modified: 10/19/2017
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