Coeficientes de riego del césped americano (Stenotaphrum secundatum) en condiciones de estrés hídrico utilizando riego por goteo subterráneo

David Ascencios; Néstor Montalvo; Karem Meza; Astrid Cifuentes

doi:10.17268/sci.agropecu.2019.02.06

Autores/as

David Ascencios Programa de Maestría en Recursos Hídricos, Facultad de Ingeniería Agrícola, Universidad Nacional Agraria La Molina (UNALM), Lima.
Néstor Montalvo Programa de Maestría en Recursos Hídricos, Facultad de Ingeniería Agrícola, Universidad Nacional Agraria La Molina (UNALM), Lima.
Karem Meza Programa de Maestría en Recursos Hídricos, Universidad Nacional Agraria La Molina. (UNALM), Lima.
Astrid Cifuentes Condominio La Quebrada, Oficina Recursos hídricos, Lima.

DOI:

https://doi.org/10.17268/sci.agropecu.2019.02.06

Palabras clave:

Césped americano, proceso de análisis jerárquico, coeficiente de riego, riego deficitario, requerimientos de agua.

Resumen

El trabajo de investigación tuvo como objetivo obtener los coeficientes de riego del césped americano, se evaluaron 1,0; 0,8; 0,6 y 0,4 de la evapotranspiración potencial para cada estación durante un año. Las variables climáticas fueron monitoreadas por una estación automática y se utilizó el riego por goteo subterráneo, no se presentó intrusión de las raíces en los laterales de riego. Para el monitoreo de la distribución de humedad se utilizaron sensores TDR, obteniéndose coeficientes de uniformidad entre el 90 a 92 %. El monitoreo de la humedad en el tiempo y el estado energético se realizó mediante sensores FDR y curvas pF. La calidad visual fue evaluada mediante el color, uniformidad y cobertura, esta última apoyada en imágenes digitales. Se ensayaron diferentes coeficientes de riego para cada estación. Finalmente se seleccionaron los coeficientes que permitieron mantener al césped con bajo requerimiento de agua y mantenimiento, así como una buena calidad visual, aplicando el Proceso de Análisis Jerárquico. Los coeficientes seleccionados fueron: 0,8; 0,8; 0,4 y 0,6 de la ETo para la verano, otoño, invierno y primavera respectivamente, obteniendo con ellos una adecuada calidad visual y un ahorro del volumen agua del 31%.

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Received October 17, 2018.

Accepted May 17, 2019.

Corresponding author: dascencios@lamolina.edu.pe (D. Ascencios).