Integrated Agrogeophysical Approach for Investigating Soil Pipes in Agricultural Fields

IF 1 4区 工程技术 Q4 ENGINEERING, GEOLOGICAL
Md Abdus Samad, L. Wodajo, P. B. Rad, Md Lal Mamud, C. Hickey
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Abstract

Soil erosion is one of the most significant challenges for soil management and agri-food production threatening human habitat and livelihood. Although soil erosion due to surficial processes is well-studied, erosion due to subsurface processes such as internal soil pipes has often been overlooked. Internal soil pipes directly contribute to the total soil loss in agricultural fields and impede agricultural sustainability. Locating, measuring, and mapping internal soil pipes and their networks are vital to assessing the total soil loss in agricultural fields. Their hidden and uncorrelated nature of subsurface occurrences constricts the applicability of manual and remote sensing-based detection techniques. Non-invasive agrogeophysical methods can overcome these limitations with detailed subsurface pictures and high spatial resolution. In this study, the applicability of three agrogeophysical methods including seismic refraction tomography (SRT), electrical resistivity tomography (ERT), and ground-penetrating radar (GPR) was tested at Goodwin Creek, an experimental field site with established internal soil pipes. SRT showed low P and S wave velocities anomalies in soil pipe-affected zones. ERT results indicated the location of soil pipes with high resistivity anomalies. However, both SRT and ERT lack resolution to identify individual soil pipes. GPR diffraction hyperbolas and their apexes however effectively identified individual soil pipes. The agrogeophysical anomalies for soil pipes were compared with the low penetration resistance of the cone penetrologger (CPL) results. Correspondence between low PR in CPL and agrogeophysical anomalies verify the locations of internal soil pipe-affected zones. Moreover, the fragipan layer is identified below the soil pipe-affected zone by all three methods.
综合农业地球物理方法研究农田土壤管道
土壤侵蚀是土壤管理和农业粮食生产面临的最重大挑战之一,威胁着人类的栖息地和生计。虽然由于地表过程引起的土壤侵蚀已经得到了很好的研究,但由于地下过程(如内部土壤管道)引起的侵蚀往往被忽视。土壤内部管道直接导致农田土壤总量流失,阻碍农业可持续发展。土壤内部管道及其网络的定位、测量和测绘对于评估农田土壤总流失量至关重要。地下发生的隐蔽性和不相关性限制了人工和基于遥感的探测技术的适用性。非侵入式农业地球物理方法可以克服这些限制,具有详细的地下图像和高空间分辨率。本研究在古德温溪(Goodwin Creek)试验田进行了地震折射层析成像(SRT)、电阻率层析成像(ERT)和探地雷达(GPR)三种农业地球物理方法的适用性测试。SRT在土管影响区表现出较低的P、S波速异常。ERT结果显示了高电阻率异常土管的位置。然而,SRT和ERT都缺乏识别单个土壤管道的分辨率。然而,探地雷达衍射双曲线及其顶点可以有效地识别单个土壤管道。将土壤管道的农业地球物理异常与锥形穿透仪(CPL)的低穿透阻力结果进行了比较。CPL低PR值与农业地球物理异常的对应关系验证了内部土壤管道影响区的位置。此外,三种方法均能在土管影响区下方识别出软质岩层。
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来源期刊
Journal of Environmental and Engineering Geophysics
Journal of Environmental and Engineering Geophysics 地学-地球化学与地球物理
CiteScore
2.70
自引率
0.00%
发文量
13
审稿时长
6 months
期刊介绍: The JEEG (ISSN 1083-1363) is the peer-reviewed journal of the Environmental and Engineering Geophysical Society (EEGS). JEEG welcomes manuscripts on new developments in near-surface geophysics applied to environmental, engineering, and mining issues, as well as novel near-surface geophysics case histories and descriptions of new hardware aimed at the near-surface geophysics community.
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