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Decreased latency in landsat-derived land surface temperature products: A case for near-real-time evapotranspiration estimation in California

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Listed:
  • Knipper, Kyle
  • Yang, Yun
  • Anderson, Martha
  • Bambach, Nicolas
  • Kustas, William
  • McElrone, Andrew
  • Gao, Feng
  • Alsina, Maria Mar

Abstract

Acquiring accurate measurements of crop consumptive water use in the form of evapotranspiration (ET) is increasingly important in California cropping systems as demands for water resources shift under a changing climate. Growers use various methods for estimating ET to guide irrigation management, some of which are based on satellite remote sensing. Although this approach has proven reliable, operational applications remain hindered by latency in satellite product delivery, due in part to computationally expensive atmospheric correction steps. This is particularly true in approaches that utilize thermal infrared (TIR) imagery, which is sensitive to atmospheric corrections. The current study evaluates two approaches to derive a pseudo-atmospherically corrected Land Surface Temperature (LST) in near-real-time (NRT) for ingestion into the ALEXI-DisALEXI ET model. Evaluation is done for selected Landsat scenes over California for the year 2022. Both approaches take advantage of the Landsat Collection 2 dataset, including availability of atmospheric correction parameters and atmospherically corrected LST. The first approach is based on the Radiative Transfer Equation (RTE) and atmospheric correction parameters from previous overpass available in the Collection 2 dataset. The second is based on a random forest (RF) regression model, using Landsat Collection 2 atmospheric correction parameters and LST as input for training. Results indicate the RF approach outperforms the RTE approach, with an average mean absolute error of 0.6 K, compared to 2.0 K for the RTE method. The RTE method produces more spatial and temporal variability in LST due to temporal differences in atmospheric transmissivity. When used to estimate ET, we find little difference between NRT LST-based ET estimates and ET derived using the Collection 2 LST product, albeit RF-based ET provides less day-to-day variation. Results suggest promise in using such an approach to derive LST and subsequently ET in NRT, and toward improving daily water management and irrigation efficiency in the vineyard and orchard systems of California.

Suggested Citation

  • Knipper, Kyle & Yang, Yun & Anderson, Martha & Bambach, Nicolas & Kustas, William & McElrone, Andrew & Gao, Feng & Alsina, Maria Mar, 2023. "Decreased latency in landsat-derived land surface temperature products: A case for near-real-time evapotranspiration estimation in California," Agricultural Water Management, Elsevier, vol. 283(C).
    • Handle: RePEc:eee:agiwat:v:283:y:2023:i:c:s0378377423001816
    DOI: 10.1016/j.agwat.2023.108316
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    References listed on IDEAS

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    1. French, Andrew N. & Hunsaker, Douglas J. & Sanchez, Charles A. & Saber, Mazin & Gonzalez, Juan Roberto & Anderson, Ray, 2020. "Satellite-based NDVI crop coefficients and evapotranspiration with eddy covariance validation for multiple durum wheat fields in the US Southwest," Agricultural Water Management, Elsevier, vol. 239(C).
    2. Knipper, K.R. & Kustas, W.P. & Anderson, M.C. & Nieto, H. & Alfieri, J.G. & Prueger, J.H. & Hain, C.R. & Gao, F. & McKee, L.G. & Alsina, M. Mar & Sanchez, L., 2020. "Using high-spatiotemporal thermal satellite ET retrievals to monitor water use over California vineyards of different climate, vine variety and trellis design," Agricultural Water Management, Elsevier, vol. 241(C).
    3. A. Park Williams & Benjamin I. Cook & Jason E. Smerdon, 2022. "Rapid intensification of the emerging southwestern North American megadrought in 2020–2021," Nature Climate Change, Nature, vol. 12(3), pages 232-234, March.
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