镁对卡纳塔克邦突出植物阳离子选择性和结构稳定性的影响

Prasanna Meenakshi Suguru
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引用次数: 2

摘要

研究了Mg对印度卡纳塔克邦TBP (Tungabhadra项目)和UKP (Upper Krishna项目)灌溉区突出垂直土层中三元(Na-Ca-Mg)交换和内部结构稳定性的影响。地表土壤样品代表了典型的垂直土壤,这些土壤来自花岗岩片麻岩(Gangavati和Kavadimatti)、石灰石(Devapur和Islampur)和玄武岩(Kadliwad和Mannapur)。这些土壤与不同钠吸附比(SAR-5、20、40、60、80和100毫摩尔/升1/2)和不同Ca/Mg比(4:1、2:1、1:1、1:2和1:4)的水进行平衡。随着Mg/Ca比值从1:4增加到4:1,交换性Na增加,表明含镁水对土壤结构完整性更不利。从所有SAR处理的平均值来看,Mg-Na系统的可交换Na含量比Ca-Na系统高10.5%至12.1%。Mg诱导的交换性Na的增加与土壤对Ca的偏好直接相关,这使得Na对Mg的竞争比对Ca的竞争更强。通过测量随Ca/Mg比和SAR值变化的Na-Ca-Mg溶液的分散程度、毛细升高和水分扩散率,研究了Mg对土壤结构稳定性的影响。为了分离Mg的特定效应,使用单独的二元系统(不含Na的不同浓度的Ca-Mg溶液)来检查分散程度。当总电解质浓度为20 m mol l -1时,Mg-Na体系比Ca-Na体系具有更低的土壤水分扩散率和更高的分散程度以及毛细性。分散和水传递试验证实,Mg的作用大于Mg体系中单独高交换性Na的作用,或者Mg对粘土的分散有特定的影响。结果表明,在完全排除Na的情况下,Mg对二元体系中Ca浓度降低的粘土分散有影响。结果表明,在花岗片麻岩、石灰岩和玄武岩源性土壤中,可交换性Mg的弥散性分别约为Na的1/10、1/20和1/30。
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 Magnesium on Cation Selectivity and Structural Stability in prominent Vertisols of Karnataka
A study was conducted to evaluate the effects of Mg on ternary (Na-Ca-Mg) exchange and intern structural stability in prominent Vertisols of TBP (Tungabhadra Project) and UKP (Upper Krishna Project) irrigation commands of Karnataka State, India. Surface soil samples representing typical Vertisols derived from granite-gneiss (Gangavati and Kavadimatti), limestone (Devapur and Islampur) and basalt (Kadliwad and Mannapur) were included in the study. These soils were subjected to equilibration with waters of varying sodium adsorption ratio (SAR-5,20,40,60,80 and 100 millimoles per liter1/2) with different Ca/Mg ratio (4:1,2:1,1:1,1:2and 1:4).Exchangeable Na increased as the Mg/Ca ratio increased from 1:4 to 4:1 indicating that Mg charged waters are more detrimental for structural integrity of the soils. Averaged from all SAR treatments, the Mg-Na systems had between 10.5 to 12.1% more exchangeable Na than did the Ca-Na systems. The Mg-induced increase in exchangeable Na was directly related to a preference by the soils for Ca over Mg, which makes Na more competitive against Mg than against Ca. The influence of Mg on soil structural stability was examined by measuring degree of dispersion, capillary raise and moisture diffusivity using Na-Ca-Mg solutions varying with Ca/Mg ratios and SAR values. In order to segregate the specific effect of Mg, separate binary systems (exclusive Ca-Mg solutions with varying concentrations without Na) were used to examine the degree of dispersion. The Mg-Na system developed considerably lower soil moisture diffusivity and higher degree of dispersion as well as capillarity than did the Ca-Na system when equilibrated with solutions having total electrolyte concentration 20 m mol liter-1. Dispersion and water transmission tests confirmed that the effect of Mg was greater than could be explained by the higher exchangeable Na alone in the Mg system or else Mg had a specific effect on clay dispersion. It was obviously proved that Mg does have the effect on clay dispersion in the binary system involving diminishing Ca concentration where Na was completelyexcluded. Our results suggest that exchangeable Mg is about 1/10th, 1/20th, and 1/30th as dispersive as Na in granite-gneiss, limestone and basalt derived soils, respectively.
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