Umbrales en la respuesta de humedad del suelo a condiciones meteorológicas en una ladera Altoandina

Maskana Pub Date : 2018-12-20 DOI:10.18537/MSKN.09.02.07

Daniel Tenelanda-Patiño, Patricio Crespo-Sánchez, Giovanny Mosquera-Rojas

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引用次数: 6

Abstract

Soil and vegetation cover play a critical role in the hydrology of the Andean Paramo generating runoff primarily by shallow subsurface flow. Understanding the dynamics of soil moisture response under pristine vegetation cover during rainfall events is essential for water resource planning considering the increasing anthropogenic pressure. Hence, this study focuses on the evaluation of the factors and thresholds controlling maximum changes in soil moisture (Δθmax) during rainfall events and their dynamics during different wetness conditions (from dry to wet). To determine the factors controlling Δθmax, a nonparametric Spearman correlation coefficient test was applied. We found that the factors controlling Δθmax were the precipitated volume, intensity, moisture conditions just before the event and the 5- and 15-days antecedent weather conditions. The threshold analysis shows a response of increase or decrease as function of moisture state, topographic position and soil layer depth. This study demonstrates that under pristine Andean Paramo vegetation precipitation, antecedent moisture and weather conditions determine to a significant degree the soil moisture status affecting subsequently hillslope connectivity and hydrologic functioning.

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高山坡地土壤水分对天气条件反应的阈值

土壤和植被覆盖在安第斯山脉的水文中起着关键作用，主要通过浅层地下水流产生径流。考虑到不断增加的人为压力，了解原始植被覆盖下降雨期间土壤水分响应的动态变化对水资源规划至关重要。因此，本研究的重点是评估降雨事件中控制土壤湿度最大变化的因子和阈值(Δθmax)及其在不同湿度条件下(从干到湿)的动态。为确定Δθmax的控制因素，采用非参数Spearman相关系数检验。研究发现，控制Δθmax的因子是事件发生前的降水量、强度、湿度条件以及事件发生前5 d和15 d的天气条件。阈值分析表明，土壤水分状态、地形位置和土层深度对土壤水分的增加或减少有一定的影响。本研究表明，在原始安第斯山脉植被降水条件下，前期的水分和天气条件在很大程度上决定了土壤水分状况，影响随后的山坡连通性和水文功能。

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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Maskana

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审稿时长

23 weeks