Monitoring soil moisture dynamics in multilayered Fluvisols

Pub Date : 2019-06-18 DOI:10.2478/bgeo-2019-0009

J. Dezső, S. Czigány, G. Nagy, E. Pirkhoffer, M. Słowik, Lóczy Dénes

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引用次数: 8

Abstract

Abstract The identification of drought-sensitive areas (DSAs) in floodplain Fluvisols of high textural pedodiversity is crucial for sustainable land management purposes. During extended drought periods moisture replenishment is only available by capillary rise from the groundwater. However, moisture flux is often hindered by capillary barriers in the interface between layers of contrasting textures. The results of HYDRUS-1D simulations run on multilayered soil profiles were integrated into textural maps to determine the spatial distribution of water dynamics on the floodplain of the Drava River (SW Hungary). Model runs and field data revealed limited moisture replenishment by capillary rise when both contrasting textural interfaces and sandy layers are present in the profile. By implementing these textural and hydraulic relations, a drought vulnerability map (DSA map) of the operational area of the Old Drava Programme (ODP) was developed. According to the spatial distribution of soils of reduced capillary rise, 52% of the ODP area is likely threatened by droughts. Our model results are adaptable for optimisation of land- and water-management practices along the floodplains of low-energy and medium-sized rivers under humid continental and maritime climates.

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多层河流土壤水分动态监测

摘要河漫滩土壤结构多样性高的河漫滩干旱敏感区的识别对土地可持续管理具有重要意义。在长时间的干旱期间，只有通过地下水的毛细管上升来补充水分。然而，湿气通量往往受到毛细屏障在层之间的对比纹理界面阻碍。HYDRUS-1D在多层土壤剖面上的模拟结果被整合到纹理图中，以确定德拉瓦河(匈牙利西南部)洪泛区水动力学的空间分布。模型运行和现场数据显示，当剖面中同时存在对比性结构界面和砂质层时，毛细上升对水分的补充有限。通过执行这些结构和水力关系，编制了老德拉瓦方案业务地区的干旱脆弱性图。从毛管上升减少土壤的空间分布来看，ODP区有52%的区域可能受到干旱的威胁。我们的模型结果适用于湿润大陆性和海洋性气候下低能和中型河流洪泛区的土地和水管理实践的优化。

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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