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Estimating the value of satellite-derived measurements of evapotranspiration to inform irrigation scheduling in California almond orchards

Author

Listed:
  • Daniel Lapidus

    (RTI International)

  • Caleb Milliken

    (RTI International)

  • Kyle Knipper

    (Department of Agriculture, Agricultural Research Service, Sustainable Agricultural Water Systems Unit)

  • Sebastian Saa

    (Almond Board of California)

  • Tom Devol

    (Almond Board of California)

  • William Kustas

    (Department of Agriculture, Agricultural Research Service, Hydrology and Remote Sensing Lab)

  • Andrew J. McElrone

    (USDA-ARS
    University of California Davis)

  • Michael Gallaher

    (RTI International)

  • Nicolas Bambach

    (University of California Davis)

  • Martha Anderson

    (Department of Agriculture, Agricultural Research Service, Hydrology and Remote Sensing Lab)

Abstract

Advances in satellite remote sensing have led to the development of improved methods and tools for calculating evapotranspiration (ET), allowing for improved irrigation scheduling. Researchers have been working closely with industry groups for the last decade on developing an “ET Toolkit” that could be used operationally to improve irrigation scheduling for specialty crops in California’s increasingly drought-prone Central Valley. A unique collaboration between government and academic researchers and the Almond Board of California aimed to develop and refine the ET Toolkit to improve water use efficiency through irrigation scheduling for almond growers. In this study, the monetary value of applying the ET Toolkit to improve water use efficiency through irrigation scheduling for almonds is estimated. Benefits are valued by comparing existing irrigation scheduling methods, which rely on calculating crop ET in grower fields based on nearby weather station measurements, to future adoption of a field-scale satellite-based actual ET tool. As publicly available field-scale information has only recently come on-line through OpenET, the benefits estimated are prospective. Two valuations are conducted: one that captures private benefits to farmers, and another that captures the economic value for all water users based on the price that buyers are paying in active California water markets. Given assumptions on scaling pathways and drought’s impact on values of water, the average annual water savings are estimated to be 241,000 acre-feet, and value to farmers is estimated to be $45.5 M, while economic benefits reach $127.6 M over the period 2028–2033.

Suggested Citation

  • Daniel Lapidus & Caleb Milliken & Kyle Knipper & Sebastian Saa & Tom Devol & William Kustas & Andrew J. McElrone & Michael Gallaher & Nicolas Bambach & Martha Anderson, 2025. "Estimating the value of satellite-derived measurements of evapotranspiration to inform irrigation scheduling in California almond orchards," The Journal of Technology Transfer, Springer, vol. 50(1), pages 209-226, February.
    • Handle: RePEc:kap:jtecht:v:50:y:2025:i:1:d:10.1007_s10961-024-10093-7
    DOI: 10.1007/s10961-024-10093-7
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    References listed on IDEAS

    as
    1. Er-Raki, S. & Chehbouni, A. & Boulet, G. & Williams, D.G., 2010. "Using the dual approach of FAO-56 for partitioning ET into soil and plant components for olive orchards in a semi-arid region," Agricultural Water Management, Elsevier, vol. 97(11), pages 1769-1778, November.
    2. Campos, Isidro & Neale, Christopher M.U. & Calera, Alfonso & Balbontín, Claudio & González-Piqueras, Jose, 2010. "Assessing satellite-based basal crop coefficients for irrigated grapes (Vitis vinifera L.)," Agricultural Water Management, Elsevier, vol. 98(1), pages 45-54, December.
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