Water supply to lettuce by capillary rise of the water table

Revista Brasileira de Engenharia de Biossistemas Pub Date : 2023-11-13 DOI:10.18011/bioeng.2023.v17.1100

Eliakim Martins Araújo, Raimundo Nonato Távora Costa, Kenya Gonçalves Nunes, Alexsandro Oliveira da Silva, Carlos Henrique Carvalho de Sousa, Efraim Martins Araújo

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Abstract

Brazil has significant potential for floodplain areas which are suitable for cultivation after the rainy season, with water supply from the water table. Short-cycle crops with shallow root systems are more suitable for these conditions. On this subject, the objective of this study was to determine the responses of the lettuce crop to rising damp rates and water table depth levels. The variables of production, gas exchange, and SEW30 values (sum of excess water above 0.30 m depth) were analyzed. A physical model of seven drainage lysimeters was used; in six, the only water supply occurred by capillary rise from the water table (0.10; 0.15; 0.20; 0.25; 0.30 and 0.35 m depth) and, in the remaining lysimeter, irrigation was performed with no water table. The water table level maintained at 0.20 m from the soil surface was able to supply the water demanded by a sandy soil. The factor-product ratio indicates this depth as the most viable option in terms of crop response. Among the analyzed cultivars and under conditions of excess water in the soil, preference should be given to the establishment of the Gloriosa cultivar, for higher yields.

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通过地下水位的毛细上升给生菜供水

巴西在洪泛区有很大的潜力，雨季过后，这些地区适合耕种，水源来自地下水位。短周期浅根作物更适合这些条件。在这个问题上，本研究的目的是确定生菜作物对潮湿率和地下水位上升的反应。分析了产量、气体交换和SEW30值(0.30 m深度以上剩余水量总和)等变量。采用了7台排水溶渗仪的物理模型;在6中，唯一的供水方式是毛细从地下水位上升(0.10;0.15;0.20;0.25;0.30和0.35 m深度)，剩余的渗滤仪在没有地下水位的情况下进行灌溉。地下水位保持在距离土壤表面0.20 m，能够满足沙质土壤所需的水分。因子产品比表明，就作物反应而言，该深度是最可行的选择。在分析的品种中，在土壤水分过剩的条件下，为了获得更高的产量，应优先建立金凤花品种。

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