Lizbeth Quezada, Edwin Edison Jaramillo Aguilar, Angel Eduardo Luna Romero, Washington Andres Vega Mora, Salomon Alejandro Barrezueta Unda
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引用次数: 0
Abstract
Most crops are affected by various factors, plastic mulch emerges as an alternative, causing a positive impact on the temperature in the root zone, microbial life and the physical properties of the soil associated with the improvement of crop yield. The objective of the research was to evaluate the yield of the soybean crop (Glycine max L.) under plastic mulch conditions. Geotemperature parameters, net heat flow from the soil and morphological variables were analyzed. The completely randomized design was used, the study factor was plastic mulch of different colors: black (T1), red (T2), blue (T3), and green (T4) and the control (T0, bare ground). The results showed that the plastic mulch influences the soil temperature up to 6 °C with respect to the bare soil (T4) and the net heat flux, the black and green colors are relevant, as well as the morphological variables, being the treatments T3 and T4, the ones that had the best results compared to bare soil, improving crop yield up to 2 t ha-1. Blue and green plastic mulch is a viable option to improve soybean productivity and economic performance.
大多数作物都受到各种因素的影响,塑料覆盖物是一种替代品,对根区温度、微生物生命和土壤物理特性产生了积极影响,从而提高了作物产量。本研究旨在评估地膜覆盖条件下大豆作物(Glycine max L.)的产量。分析了土壤温度参数、土壤净热流和形态变量。采用完全随机设计,研究因素为不同颜色的塑料覆盖物:黑色(T1)、红色(T2)、蓝色(T3)和绿色(T4)以及对照(T0,裸露地面)。结果表明,地膜覆盖对裸土的土壤温度(T4)和净热通量的影响高达6°C,黑色和绿色是相关的,形态变量是T3和T4,这两个处理与裸土相比效果最好,使作物产量提高了2 t ha-1。蓝色和绿色塑料覆盖物是提高大豆生产力和经济效益的可行选择。
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