# Anthropogenic influences on groundwater in the vicinity of a long-lived   radioactive waste repository

**Authors:** Matthew A. Thomas, Kristopher L. Kuhlman, Anderson L. Ward

arXiv: 1705.00509 · 2017-05-02

## TL;DR

This study investigates how unplanned human activities, specifically groundwater pumping, significantly alter flow patterns near a radioactive waste repository, challenging previous assumptions of stable groundwater conditions.

## Contribution

It provides a quantitative assessment of anthropogenic impacts on groundwater flow near WIPP using transient models and real-world pumping data.

## Key findings

- Pumping caused over 25 m of drawdown in groundwater levels.
- Hydraulic gradients increased, reducing particle travel times by half.
- Pumping shifted the particle intersection point with the compliance boundary by more than two kilometers.

## Abstract

The groundwater flow system in the Culebra Dolomite Member (Culebra) of the Permian Rustler Formation is a potential radionuclide release pathway from the Waste Isolation Pilot Plant (WIPP), the only deep geological repository for transuranic waste in the United States. In early conceptual models of the Culebra, groundwater levels were not expected to fluctuate markedly, except in response to long-term climatic changes, with response times on the order of hundreds to thousands of years. Recent groundwater pressures measured in monitoring wells record more than 25 m of drawdown. The fluctuations are attributed to pumping activities at a privately-owned well that may be associated with the demand of the Permian Basin hydrocarbon industry for water. The unprecedented magnitude of drawdown provides an opportunity to quantitatively assess the influence of unplanned anthropogenic forcings near the WIPP. Spatially variable realizations of Culebra saturated hydraulic conductivity and storativity were used to develop groundwater flow models to estimate a pumping rate for the private well and investigate its effect on advective transport. Simulated drawdown shows reasonable agreement with observations (average Model Efficiency coefficient = 0.7). Steepened hydraulic gradients associated with the pumping reduce estimates of conservative particle travel times across the domain by one-half and shift the intersection of the average particle track with the compliance boundary by more than two kilometers. The value of the transient simulations conducted for this study lie in their ability to (i) improve understanding of the Culebra groundwater flow system and (ii) challenge the notion of time-invariant land use in the vicinity of the WIPP.

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Source: https://tomesphere.com/paper/1705.00509