将橡胶种植园改为油棕种植园对斯里兰卡低地湿润区土壤特性和水文动态的影响

K. M. Kularathna, D. N. V. Gamage, Y.N.S. Wijewardana, H.M.S.K. Herath, httpsdoi.org Vidana Gamage
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引用次数: 0

摘要

本研究旨在调查将橡胶种植园转变为油棕种植园对土壤特性和土壤水文的影响。研究人员使用从斯里兰卡低湿地区 12 年油棕和橡胶种植田不同深度采集的土壤样本,测定了土壤有机碳 (SOC)、容重 (BD)、团聚稳定性 (AS)、饱和导水性 (Ks)、土壤保水性、质地、热性质和 pH 值。在七个月的时间里,在每块田地的四个土壤深度(0-25、25-50、50-75 和 75-100 厘米)连续测量了土壤的体积含水量(VWC)。研究结果表明,与橡胶田相比,油棕田 0-25 厘米土层的 SOC 低 40%,但两块田的 BD、孔隙度、孔径分布、AS 和 Ks 均无显著变化。然而,橡胶种植土壤的容积热容量明显高于油棕种植土壤。油棕利用最多的是 25-75 厘米土层中的水分;而橡胶则从更深的土层(75-100 厘米)中提取更多的水分。在干旱期间,油棕田的土壤水分消耗速度比橡胶田快,这说明在今后的研究中需要对油棕在长期干旱期间的土壤水分提取模式进行研究。总体而言,将橡胶种植园转变为油棕种植园 12 年后,对大部分土壤性质和土壤水文没有明显影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of Conversion of Rubber to Oil Palm Plantations on Soil Properties and Hydrological Dynamics in the Low Country Wet Zone of Sri Lanka
A study was conducted to investigate the impacts of converting rubber plantations into oil palm plantations on soil properties and soil hydrology. Soil organic carbon (SOC), bulk density (BD), aggregate stability (AS), saturated hydraulic conductivity (Ks), soil water retention, texture, thermal properties, and pH were determined using soil samples collected from different depths of a twelve-year-old oil palm and rubber cultivated fields located in low country wet zone of Sri Lanka. In each field, volumetric water content (VWC) of soil was continuously measured at four soil depths (0-25, 25-50, 50-75, and 75-100 cm) over a seven-month period. While the study revealed a 40% lower SOC in 0-25 cm soil layer of the oil palm field compared to the rubber field, no significant changes were observed in BD, porosity, pore size distribution, AS, and Ks for the two fields. However, the volumetric heat capacity of rubber grown soil was significantly higher than that of the oil palm grown soil. Oil palm utilized the most water from 25-75 cm soil layer; whereas, rubber extracted more water from deeper soil layers (75-100 cm). Soil water depletion in oil palm field was faster during dry periods than in rubber fields highlighting the need to examine the soil water extraction patterns of oil palm during extended dry spells in future studies. Overall, the conversion of rubber into oil palm plantations showed no significant impact on most of the soil properties and soil hydrology after twelve years of conversion.
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