Litcius/Paper detail

Over a third of groundwater in USA public-supply aquifers is Anthropocene-age and susceptible to surface contamination

Bryant C. Jurgens, Kirsten E. Faulkner, Peter B. McMahon, Andrew G. Hunt, Gerolamo C. Casile, M. B. Young, Kenneth Belitz

2022Communications Earth & Environment37 citationsDOIOpen Access PDF

Abstract

Abstract The distribution of groundwater age is useful for evaluating the susceptibility and sustainability of groundwater resources. Here, we compute the aquifer-scale cumulative distribution function to characterize the age distribution for 21 Principal Aquifers that account for ~80% of public-supply pumping in the United States. The aquifer-scale cumulative distribution function for each Principal Aquifer was derived from an ensemble of modeled age distributions (~60 samples per aquifer) based on multiple tracers: tritium, tritiogenic helium-3, sulfur hexafluoride, chlorofluorocarbons, carbon-14, and radiogenic helium-4. Nationally, the groundwater is 38% Anthropocene (since 1953), 34% Holocene (75 – 11,800 years ago), and 28% Pleistocene (>11,800 years ago). The Anthropocene fraction ranges from <5 to 100%, indicating a wide range in susceptibility to land-surface contamination. The Pleistocene fraction of groundwater exceeds 50% in 7 eastern aquifers that are predominately confined. The Holocene fraction of groundwater exceeds 50% in 5 western aquifers that are predominately unconfined. The sustainability of pumping from these Principal Aquifers depends on rates of recharge and release of groundwater stored in fine-grained layers.

Topics & Concepts

AquiferGroundwaterGroundwater rechargeAnthropoceneHydrology (agriculture)Environmental scienceGeologyHolocenePaleontologyGeotechnical engineeringGroundwater and Isotope GeochemistryGroundwater flow and contamination studiesWater Quality and Resources Studies