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Inferring Hillslope Groundwater Recharge Ratios From the Storage‐Discharge Relation

David Dralle, W. Jesse Hahm, Daniella Rempe

2023Geophysical Research Letters12 citationsDOIOpen Access PDF

Abstract

Abstract Accurate observation of hillslope groundwater storage and instantaneous recharge remains difficult due to limited monitoring and the complexity of mountainous landscapes. We introduce a novel storage‐discharge method to estimate hillslope recharge and the recharge ratio—the fraction of precipitation that recharges groundwater. The method, which relies on streamflow data, is corroborated by independent measurements of water storage dynamics inside the Rivendell experimental hillslope at the Eel River Critical Zone Observatory, California, USA. We find that along‐hillslope patterns in bedrock weathering and plant‐driven storage dynamics govern the seasonal evolution of recharge ratios. Thinner weathering profiles and smaller root‐zone storage deficits near‐channel are replenished before larger ridge‐top deficits. Consequently, precipitation progressively activates groundwater from channel to divide, with an attendant increase in recharge ratios throughout the wet season. Our novel approach and process observations offer valuable insights into controls on groundwater recharge, enhancing our understanding of a critical flux in the hydrologic cycle.

Topics & Concepts

Groundwater rechargeHydrology (agriculture)GroundwaterWater storageGeologyDepression-focused rechargeGroundwater dischargePrecipitationWeatheringEnvironmental scienceStreamflowAquiferGeomorphologyDrainage basinGeographyMeteorologyGeotechnical engineeringCartographyInletHydrology and Watershed Management StudiesGroundwater flow and contamination studiesGroundwater and Isotope Geochemistry
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