Interactive effects of exchangeable sodium and water content on soil modulus of rupture

Soil Technology Pub Date : 1996-03-01 DOI:10.1016/0933-3630(95)00031-3

Miguel A. Taboada, Raúl S. Lavado

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引用次数: 8

Abstract

The interactive effect between exchangeable sodium (sodium adsorption ratio, SAR = 1, 7, 15, 30 and 50) and water content (water saturated and field capacity) on soil hardsetting behaviour was investigated in a loamy topsoil of a Typic Natraquoll. Hardsetting was evaluated by the modulus of rupture (MOR) of dry aggregates, previously subjected to a static pressure simulating that imposed by an adult cow (400 kPa). A control receiving no pressure was included. In both control and water saturated treatments, MOR increased steadily (from 6.5 to 10.4 MPa) with SAR. This indicates that the effect of exchangeable sodium prevailed over that of water content when the soil was stressed at saturation. Exchangeable sodium and water content interacted significantly (F ratio = 4.56; α < 0.002) during the applied pressure, but this interaction was not synergistic. Soil stressing at field capacity prevented MOR increases above a threshold of SAR ≥ 7. As a consequence, an attenuation of hardsetting behaviour can be expected when the studied soil is trampled in moist field conditions.

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交换性钠和含水量对土壤断裂模量的交互影响

研究了交换性钠(钠吸附比，SAR = 1、7、15、30和50)和含水量(饱和水和田间容量)对典型纳特拉酚壤土土壤硬固结行为的交互作用。硬固结是通过干燥骨料的断裂模量(MOR)来评估的，干燥骨料先前受到模拟成年奶牛施加的静压(400 kPa)。包括不接受压力的对照组。在对照处理和饱和水处理中，随着SAR的增加，MOR稳定增加(从6.5 MPa增加到10.4 MPa)。这表明在饱和状态下，土壤受胁迫时，交换性钠的影响大于含水量的影响。交换性钠与含水量交互作用显著(F比= 4.56;α& lt;0.002)，但这种相互作用不是协同作用。在田间承载力条件下，土壤应力阻止了MOR增加超过SAR≥7的阈值。因此，当所研究的土壤在潮湿的田野条件下踩踏时，可以预期其硬固化行为的衰减。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Soil Technology

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