Is groundwater response timing in a pre‐alpine catchment controlled more by topography or by rainfall?

地下水 水文学(农业) 土壤水分 流域 环境科学 溪流 地质学 水流 地下水流 含水层 土壤科学 地理 计算机网络 岩土工程 地图学 计算机科学
作者
Michael Rinderer,Ilja van Meerveld,Manfred Stähli,Jan Seibert
出处
期刊:Hydrological Processes [Wiley]
卷期号:30 (7): 1036-1051 被引量:48
标识
DOI:10.1002/hyp.10634
摘要

Abstract Groundwater levels in steep headwater catchments typically respond quickly to rainfall, but the timing of the response may vary spatially across the catchment. In this study, we investigated the topographic controls and the effects of rainfall and antecedent conditions on the groundwater response timing for 51 groundwater monitoring sites in a 20‐ha pre‐alpine catchment with low permeability soils. The median time to rise and median duration of recession for the 133 rainfall events were highly correlated to the topographic characteristics of the site and its upslope contributing area. The median time to rise depended more on the topographic characteristics than on the rainfall characteristics or antecedent soil wetness conditions. The median time to rise decreased with Topographic Wetness Index (TWI) for sites with TWI < 6 and was almost constant for sites with a higher TWI. The slope of this relation was a function of rainfall intensity. The rainfall threshold for groundwater initiation was also a function of TWI and allowed extrapolation of point measurements to the catchment scale. The median lag time between the rainfall centroid and the groundwater peak was 75 min. The groundwater level peaked before peak streamflow at the catchment outlet for half of the groundwater monitoring sites, but only by 15 to 25 min. The stronger correlations between topographic indices and groundwater response timing in this study compared to previous studies suggest that surface topography affects the groundwater response timing in catchments with low permeability soils more than in catchments with more transmissive soils. Copyright © 2015 John Wiley & Sons, Ltd.

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