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Simulation of Subsurface Drainage in the Sugarcane Crop under Different Spacing and Drain Depths

Author

Listed:
  • Rares Halbac-Cotoara-Zamfir

    (Department of Overland Communication Ways, Foundation and Cadastral Survey, Politehnica University of Timisoara, 1A I Curea Street, 300224 Timisoara, Romania)

  • Asdrubal Jesus Farias-Ramirez

    (Department of Biosystems Engineering, Luiz de Queiroz College of Agriculture (ESALQ/USP), Av. Pádua Dias n. 11 LEB/ESALQ/USP, Piracicaba 13418-900, Brazil)

  • Jarbas Honorio de Miranda

    (Department of Biosystems Engineering, Luiz de Queiroz College of Agriculture (ESALQ/USP), Av. Pádua Dias n. 11 LEB/ESALQ/USP, Piracicaba 13418-900, Brazil)

  • Maria Alejandra Moreno-Pizani

    (Instituto de Pesquisas e Educação Continuada em Economia e Gestão de Empresas (PECEGE), Rua Alexandre Herculano, n. 120, Piracicaba 13418-445, Brazil)

  • Sergio Nascimento Duarte

    (Department of Biosystems Engineering, Luiz de Queiroz College of Agriculture (ESALQ/USP), Av. Pádua Dias n. 11 LEB/ESALQ/USP, Piracicaba 13418-900, Brazil)

  • Franklin Javier Paredes-Trejo

    (Department of Civil Engineering, University of the Western Plains Ezequiel Zamora (UNELLEZ), San Carlos Campus, Barinas 2311, Venezuela)

  • Luca Salvati

    (Department of Methods and Models for Economics, Territory and Finance, Faculty of Economics, Sapienza University of Rome, Via del Castro Laurenziano 9, I-00161 Rome, Italy)

  • Cristina Halbac-Cotoara-Zamfir

    (Faculty of Civil Engineering, 2 T. Lalescu Street, 300223 Timisoara, Romania)

Abstract

Agricultural land drainage is an instrument for growing production and a tool for the conservation of land resources. The performance of land drainage systems is thus critical for achieving sustainable agricultural production Recently, many types of software have been developed in this field for modeling and simulating the performance of these systems. SISDRENA is a simulation model of the performance of underground drainage systems. The main objectives of this paper are to simulate different combination of depths and spaces between drains and to analyze their impact on potential sugarcane productivity in the western plains of Venezuela using a land drainage system model. Therefore, three climatic scenarios were defined by annual precipitation: dry years (25% below average), normal (mean) and humid (75% above average). The scenarios were implemented in three different soil types: sandy loam, loam and silt loam, with a hydraulic conductivity of 0.19, 0.26 and 0.04 m day −1 , respectively. The simulation of the yield related to soil deficit (YRD) and water stress (YRW) indicated that the highest yields were reached for the larger spacing between drains and the high conductivity hydraulic of soils. In relation to the average relative productivity (YT), it was shown that in soils with a greater water retention capacity there is an inversely proportional relationship between the spacing between drains and the productivity. We concluded that in order to reach the maximum sugarcane yield, the effect of hydraulic conductivity is more important than the changes in the precipitation pattern.

Suggested Citation

  • Rares Halbac-Cotoara-Zamfir & Asdrubal Jesus Farias-Ramirez & Jarbas Honorio de Miranda & Maria Alejandra Moreno-Pizani & Sergio Nascimento Duarte & Franklin Javier Paredes-Trejo & Luca Salvati & Cris, 2022. "Simulation of Subsurface Drainage in the Sugarcane Crop under Different Spacing and Drain Depths," Land, MDPI, vol. 11(5), pages 1-20, April.
  • Handle: RePEc:gam:jlands:v:11:y:2022:i:5:p:626-:d:800873
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    References listed on IDEAS

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    1. Salis Deris Artikanur & Widiatmaka & Yudi Setiawan & Marimin, 2023. "An Evaluation of Possible Sugarcane Plantations Expansion Areas in Lamongan, East Java, Indonesia," Sustainability, MDPI, vol. 15(6), pages 1-17, March.

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