Determining a composite value for the saturated hydraulic conductivity in a recharge area of the Guarani Aquifer System, using pedotransfer functions

IF 0.9 Q4 WATER RESOURCES

RBRH-Revista Brasileira de Recursos Hidricos Pub Date : 2021-01-01 DOI:10.1590/2318-0331.262120210045

M. D. D. Oliveira, Didier Gastmans, Marcelo Donadelli Sacchi, Rodrigo Esteves Rocha, Camila Cassante de Lima, V. Santos

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引用次数: 1

Abstract

ABSTRACT The saturated hydraulic conductivity (Ks) is an essential property for modeling water and contaminants movement into aquifers. However, Ks is extremely variable, even when considering nearby locations, which poses a challenge for modeling at catchment scales. Field measurements of Ks are most of the time expensive, time-consuming and labor-intensive. This study aimed to obtain, for modeling purposes, and using pedotransfer functions (PTFs), a composite value of Ks at a catchment scale, in a recharge area of the Guarani Aquifer System. Soil samples were taken across the study area, and the Ks for each sampling point were determined by several PTF methods. At the same locations, Ks field measurements were taken using a Guelph permeameter. Average values of Ks for all the sampling points calculated by PTFs were similar to the average value obtained by field measurements. The use of PTFs proved to be a faster and simpler method to efficiently determine the Ks value for the watershed and to capture the stochastic variation in terms of soil pore combination at the watershed scale.

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利用土壤传递函数确定瓜拉尼含水层系统补给区饱和水力导电性的复合值

饱和水力电导率(Ks)是模拟水和污染物进入含水层的基本属性。然而，即使考虑到附近的位置，Ks也是非常可变的，这对集水区尺度的建模提出了挑战。在大多数情况下，k的现场测量是昂贵、耗时和劳动密集型的。本研究旨在利用土壤传递函数(PTFs)，在瓜拉尼含水层系统补给区获得集水区尺度上的Ks复合值，用于建模。在整个研究区域采集土壤样本，并通过几种PTF方法确定每个采样点的k值。在相同的位置，使用圭尔夫渗透率仪进行了Ks场测量。PTFs计算的所有采样点的k平均值与现场测量的平均值相似。事实证明，PTFs是一种更快速、更简单的方法，可以有效地确定流域的Ks值，并捕捉流域尺度上土壤孔隙组合的随机变化。

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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