Climate-change impacts in a regional karst aquifer, Texas, USA

H. A. Loáiciga, D. R. Maidment, J. B. Valdes

Research output: Contribution to journalArticle

146 Scopus citations

Abstract

Climate-change scenarios were created from scaling factors derived from several general circulation models to assess the likely impacts of aquifer pumping on the water resources of the Edwards Balcones Fault Zone (BFZ) aquifer, Texas, one of the largest aquifer systems in the United States. Historical climatic time series in periods of extreme water shortage (1947-1959), near-average recharge (1978-1989), and above-average recharge (1975-1990) were scaled to 2 x CO2 conditions to create aquifer recharge scenarios in a warmer climate. Several pumping Scenarios were combined with 2 x CO2 climate scenarios to assess the sensitivity of water resources impacts to human-induced stresses on the Edwards BFZ aquifer. The 2 X CO2 climate-change scenarios were linked to surface hydrology and used to drive aquifer dynamics with alternative numerical simulation models calibrated to the Edwards BFZ aquifer. Aquifer simulations indicate that, given the predicted growth and water demand in the Edwards BFZ aquifer region, the aquifer's ground water resources appear threatened under 2 x CO2 climate scenarios. Our simulations indicate that 2 X CO2 climatic conditions could exacerbate negative impacts and water shortages in the Edwards BFZ aquifer even if pumping does not increase above its present average level. The historical evidence and the results of this article indicate that without proper consideration to variations in aquifer recharge and sound pumping strategies, the water resources of the Edwards BFZ aquifer could be severely impacted under a warmer climate. (C) 2000 Elsevier Science B.V.

Original languageEnglish (US)
Pages (from-to)173-194
Number of pages22
JournalJournal of Hydrology
Volume227
Issue number1-4
DOIs
StatePublished - Jan 31 2000

Keywords

  • Climate change
  • Ground water
  • Karst aquifer
  • Numerical simulation
  • Recharge
  • Regional hydrology
  • Spring flow
  • Streamflow

ASJC Scopus subject areas

  • Water Science and Technology

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