Electromagnetic and DC-current geophysics for soil compaction assessment

IF 5.8 2区 农林科学 Q1 SOIL SCIENCE
Soil Pub Date : 2024-07-04 DOI:10.5194/egusphere-2024-1587
Alberto Carrera, Luca Peruzzo, Matteo Longo, Giorgio Cassiani, Francesco Morari
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Abstract

Abstract. Monitoring soil structure is of paramount importance due to its key role in the critical zone as the foundation of terrestrial life. Variations in the arrangement of soil components significantly influence its hydro-mechanical properties, and therefore its impact on the surrounding ecosystem. In this context, soil compaction resulting from inappropriate agricultural practices not only affects soil ecological functions, but also decreases the water-use efficiency of plants by reducing porosity and increasing water loss through superficial runoff and enhanced evaporation. In this study, we compared the ability of electric and electromagnetic geophysical methods, i.e. Electrical Resistivity Tomography and Frequency-domain Electromagnetic Method, to assess the effects of compaction on agricultural soil. The objective was to highlight the electro-magnetic response caused by both heavy plastic soil deformations generated by a super-heavy vehicle and the more common tractor tramlines. DC-current prospecting has finer spatial resolution and allows a tomographic approach, requiring higher logistic demands and the need for ground galvanic contact. On the other hand, contactless electromagnetic induction methods can be quickly used to define the distribution of electrical conductivity in the shallow subsoil in an easier way. Results, validated with traditional soil characterization techniques (i.e. penetration resistance, bulk density and volumetric water content on collected samples), show the pros & cons of both techniques and how differences in their spatial resolution heavily influence the ability to characterize compacted areas with good confidence. This work aims at contributing to the methodological optimization of agro-geophysical acquisitions and data processing, in order to obtain accurate soil models through a non-invasive approach.
用于评估土壤压实度的电磁和直流电流地球物理技术
摘要土壤结构是陆地生命的基础,在临界区发挥着关键作用,因此监测土壤结构至关重要。土壤成分排列的变化会极大地影响土壤的水力机械特性,进而影响其对周围生态系统的影响。在这种情况下,不当的农业耕作方式造成的土壤板结不仅会影响土壤的生态功能,还会降低孔隙度,增加表层径流和蒸发造成的水分流失,从而降低植物的水分利用效率。在这项研究中,我们比较了电法和电磁地球物理方法(即电阻率层析成像法和频域电磁法)评估压实对农业土壤影响的能力。目的是突出超重型车辆和更常见的拖拉机碾压产生的重塑土壤变形所引起的电磁响应。直流电流勘探具有更精细的空间分辨率,可以采用层析方法,但对物流要求较高,而且需要地面电偶接触。另一方面,非接触式电磁感应方法可以快速、简便地确定浅层底土的导电率分布。与传统土壤表征技术(即采集样本的穿透阻力、体积密度和容积含水量)进行验证的结果表明了这两种技术的优缺点,以及空间分辨率的差异如何严重影响以良好的信心表征压实区域的能力。这项工作旨在促进农业地球物理采集和数据处理方法的优化,以便通过非侵入式方法获得准确的土壤模型。
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来源期刊
Soil
Soil Agricultural and Biological Sciences-Soil Science
CiteScore
10.80
自引率
2.90%
发文量
44
审稿时长
30 weeks
期刊介绍: SOIL is an international scientific journal dedicated to the publication and discussion of high-quality research in the field of soil system sciences. SOIL is at the interface between the atmosphere, lithosphere, hydrosphere, and biosphere. SOIL publishes scientific research that contributes to understanding the soil system and its interaction with humans and the entire Earth system. The scope of the journal includes all topics that fall within the study of soil science as a discipline, with an emphasis on studies that integrate soil science with other sciences (hydrology, agronomy, socio-economics, health sciences, atmospheric sciences, etc.).
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