Climate control of decadal-scale increases in apparent ages of eogenetic karst spring water

Jonathan B. Martin, Marie J. Kurz, Mitra B. Khadka

Research output: Contribution to journalArticlepeer-review

29 Scopus citations

Abstract

Water quantity and quality in karst aquifers may depend on decadal-scale variations in recharge or withdrawal, which we hypothesize could be assessed through time-series measurements of apparent ages of spring water. We tested this hypothesis with analyses of various age tracers (3H/3He, SF6, CFC-11, CFC-12, CFC-113) and selected solute concentrations [dissolved oxygen (DO), NO3, Mg, and SO4] from 6 springs in a single spring complex (Ichetucknee springs) in northern Florida over a 16-yr period. These springs fall into two groups that reflect shallow short (Group 1) and deep long (Group 2) flow paths. Some tracer concentrations are altered, with CFC-12 and CFC-113 concentrations yielding the most robust apparent ages. These tracers show a 10–20-yr monotonic increase in apparent age from 1997 to 2013, including the flood recession that followed Tropical Storm Debby in mid-2012. This increase in age indicates most water discharged during the study period recharged the aquifer within a few years of 1973 for Group 2 springs and 1980 for Group 1 springs. Inverse correlations between apparent age and DO and NO3 concentrations reflect reduced redox state in older water. Positive correlations between apparent age and Mg and SO4 concentrations reflect increased water-rock reactions. Concentrated recharge in the decade around 1975 resulted from nearly 2 m of rain in excess of the monthly average that fell between 1960 and 2014, followed by a nearly 4 m deficit to 2014. This excess rain coincided with two major El Niño events during the maximum cool phase in the Atlantic Multidecadal Oscillation. Although regional water withdrawal increased nearly 5-fold between 1980 and 2005, withdrawals represent only 2–5% of Ichetucknee River flow and are less important than decadal-long variations in precipitation. These results suggest that groundwater management should consider climate cycles as predictive tools for future water resources.

Original languageEnglish
Pages (from-to)988-1001
Number of pages14
JournalJournal of Hydrology
Volume540
DOIs
StatePublished - Sep 1 2016
Externally publishedYes

Funding

We are grateful to the Florida DEP for issuing permit #04230712 to work in Ichetucknee Springs Park and the Ichetucknee Springs Park staff for allowing access to the park. We also thank the insightful comments of two anonymous reviewers. Funding was provided by Three Rivers FNPC , which graciously allowed us to extend this work over a long period of time while waiting for a storm to sample. Support was also provided by the NSF Integrative Graduate Education and Research Traineeship program ( IGERT 050442 ). Conclusions of this work are the sole responsibility of the authors.

FundersFunder number
National Science FoundationIGERT 050442

    Keywords

    • Atlantic multidecadal oscillation
    • Florida karst
    • Groundwater recharge
    • Groundwater remediation
    • Springs
    • Water age

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