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Logistics of irrigation pump shut off and well-switching for a groundwater-based maize–rice–soybean farm in Northeast Arkansas

Author

Listed:
  • Lima, Gustavo B.
  • Massey, Joseph H.
  • Flores, José H.N.
  • Faria, Lessandro C.
  • Reba, Michele L.
  • Johnson, Alton B.

Abstract

Irrigation seasons are hectic in the Mississippi Alluvial Plain (MAP) where the majority of approximately four million hectares of soybean, rice, maize, cotton, and peanut are irrigated using over 80,000 groundwater wells. With farmer input, this study simulated the 2021 irrigation season for a farm that uses 43 groundwater wells to irrigate approximately 1100 ha row crops. This was done to estimate the numbers and timings of two key well operations: switching a well from one field to another and shutting off an irrigation pump once an irrigation cycle is completed. The distances driven to operate these wells throughout the 91-day season and excess pumping associated with delayed pump shut off were also estimated. Results suggest that the farmers drove approximately 9900 km to perform 780 well operations comprised of 398 well-switching and 382 pump shut off tasks. About 3000 km (37 %) were driven to completely shut off the irrigation pumps once the irrigation events were complete. About 190 pump shut off operations occurred between 1900 and 0700 h when the farmers were “off-duty,” resulting in excess pumping equivalent to ≈ 7 % of total pumping (40,892 h), corresponding to about 396,000 m3 irrigation water. Three working equations, determined a priori as a check for the well operation estimates, will be useful when evaluating the economics and labor savings of remote irrigation pump shut off and other automated tasks such as well-switching.

Suggested Citation

  • Lima, Gustavo B. & Massey, Joseph H. & Flores, José H.N. & Faria, Lessandro C. & Reba, Michele L. & Johnson, Alton B., 2025. "Logistics of irrigation pump shut off and well-switching for a groundwater-based maize–rice–soybean farm in Northeast Arkansas," Agricultural Water Management, Elsevier, vol. 318(C).
    • Handle: RePEc:eee:agiwat:v:318:y:2025:i:c:s0378377425004366
    DOI: 10.1016/j.agwat.2025.109722
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    References listed on IDEAS

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    1. Yamauchi, Futoshi & Huang, Jikun & Otsuka, Keijiro, 2021. "Changing farm size and agricultural development in East Asia," IFPRI book chapters, in: Agricultural development: New perspectives in a changing world, chapter 3, pages 79-110, International Food Policy Research Institute (IFPRI).
    2. Selvaggi, R. & Pappalardo, G. & Zarbà, C. & Lusk, J.L., 2024. "Driving factors behind precision livestock farming tools adoption: The case of the pedometer on dairy farms," Agricultural Systems, Elsevier, vol. 220(C).
    3. Masseroni, Daniele & Moller, Peter & Tyrell, Reece & Romani, Marco & Lasagna, Alberto & Sali, Guido & Facchi, Arianna & Gandolfi, Claudio, 2018. "Evaluating performances of the first automatic system for paddy irrigation in Europe," Agricultural Water Management, Elsevier, vol. 201(C), pages 58-69.
    4. Scott Jasechko & Hansjörg Seybold & Debra Perrone & Ying Fan & Mohammad Shamsudduha & Richard G. Taylor & Othman Fallatah & James W. Kirchner, 2024. "Rapid groundwater decline and some cases of recovery in aquifers globally," Nature, Nature, vol. 625(7996), pages 715-721, January.
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