土壤容重和含水量对渗透阻力的影响

IF 2.3 4区农林科学 Q1 AGRICULTURE, MULTIDISCIPLINARY Agricultural & Environmental Letters Pub Date : 2022-11-24 DOI:10.1002/ael2.20096

Jarrett M. Lardy, Thomas M. DeSutter, Aaron L. M. Daigh, Miranda A. Meehan, James A. Staricka

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引用次数: 3

摘要

基础设施安装（如管道）扰动土壤，通常导致土壤压实度增加（体积密度[Bd]和渗透阻力[PR]）。在七种表土上确定了PR与Bd、重量含水量（Θg）和一系列其他特性的关系，为复垦专家评估扰动土壤时提供了一个模型和数据库。渗透阻力与Bd有很强的线性关系，但随着Bd的增加，更高的θg降低了PR的范围。逐步回归确定Bd、θg、质地、粘土形态和有机质是预测PR的重要因素。该模型预测PR在<1至8MPa之间，并与测量值密切匹配。土壤Bd和θg在预测PR时占模型解释变化的84%。这项研究为填海专家提供了一个工具，有助于了解与干扰相关的风险，并强调了在管道安装过程中保持较低θg的重要性。

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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Effects of soil bulk density and water content on penetration resistance

Infrastructure installation (e.g., pipelines) disturbs soils, often resulting in increased soil compaction (bulk density [Bd] and penetration resistance [PR]). The relationship of PR to Bd, gravimetric water content (Θg), and a suite of other properties were determined on seven topsoils to provide a model and database for reclamation specialists to use when assessing disturbed soils. Penetration resistance had a strong linear association with Bd, but higher Θg reduced the range of PR as Bd increased. Step-wise regression identified Bd, Θg, texture, clay speciation, and organic matter as significant factors to predict PR. The model predicts PR from <1 to 8 MPa and closely match measured values. Soil Bd and Θg contributed to 84% of the model's explained variation in predicting PR. This study provides a tool for reclamation specialists that aids in understanding the risks associated with disturbances and highlights the importance of keeping Θg low during installation of pipelines.

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