Diagnosis of Soil Salinity in the Low-Chellif Plain, North-West Algeria, By Joint Measurements Of Electrical And Hydraulic Conductivities

Contemporary Agriculture Pub Date : 2024-05-21 DOI:10.2478/contagri-2024-0012

Dalila Fettouch, Ibrahim Berkane, Houari Boulenouar, Mohamed Gorine, Mohammed Benkhelifa, D. R. Dos Santos

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Abstract

Land use in arid and semi-arid regions is a serious challenge for sustainable production, owing not only to drought and climate change but also to water availability. Irrigated perimeters in these regions are subject to secondary salinization that negatively impacts soil quality and agricultural productivity. Monitoring and diagnosing the extent of soil contamination requires a more innovative approach to optimize rehabilitation of affected areas. In the present study, diagnosing of saline soil degradation is conducted by using two key indicators: electrical conductivity of saturated paste extract (ECe) and saturated hydraulic conductivity (HCs). The results of the study reveal that the value of ECe in 85% of the Lower Chellif Plain area (north-west Algeria) is ECe < 2 dS m−1, while 78% of the area is moderately permeable. These findings underscore high spatial variability in salinity distribution, indicating that the process of salinization has not yet reached a critical stage. Furthermore, it is concluded that ECe and HCs are appropriate indicators for diagnosing salinity of soil in relation to its structural and permeability characteristics.

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通过电导率和水导率的联合测量诊断阿尔及利亚西北部低切利夫平原的土壤盐度

干旱和半干旱地区的土地利用是可持续生产面临的一个严峻挑战，这不仅是干旱和气候变化造成的，也是水资源供应造成的。这些地区的灌溉区受到二次盐碱化的影响，对土壤质量和农业生产率产生了负面影响。要监测和诊断土壤污染的程度，就必须采用更具创新性的方法，以优化受影响地区的恢复工作。在本研究中，盐碱土壤退化诊断采用了两个关键指标：饱和糊状提取物导电率（ECe）和饱和水力导电率（HCs）。研究结果显示，85% 的下谢里夫平原地区（阿尔及利亚西北部）ECe 值小于 2 dS m-1，78% 的地区为中度渗透。这些发现强调了盐度分布的高度空间变异性，表明盐碱化进程尚未达到临界阶段。此外，研究还得出结论，根据土壤的结构和渗透性特征，ECe 和 HCs 是诊断土壤盐度的适当指标。

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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Contemporary Agriculture

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