Abstract
AbstractGroundwater depletion is a concern around the world with implications for food security, ecological resilience, and human conflict. Long‐term perspectives provided by tree ring‐based reconstructions can improve understanding of factors driving variability in groundwater elevations, but such reconstructions are rare to date. Here, we report a set of new 546‐year tree‐ring chronologies developed from living and remnant longleaf pine (Pinus palustris) trees that, when combined with existing bald cypress (Taxodium distichum) tree‐ring chronologies, create a set of nested reconstructions of mean annual groundwater elevation for North Central Florida that together explain 66% of the variance in instrumental measurements and span 1498–2015. Split calibration confirms the skill of the reconstructions, but coefficient of efficiency metrics and significant autocorrelation in the regression residuals indicate a weakening relationship between tree growth and groundwater elevation over recent decades. Comparison to data from nearby groundwater wells suggests extraction of groundwater is likely contributing to this weakening signal. Periodicity within the reconstruction and comparison with global sea surface temperatures (SST) highlight the role of El Niño‐Southern Oscillation (ENSO) in driving groundwater elevations, but the strength of this role varies substantially over time. Atlantic and Pacific SST modulate ENSO influences, and comparisons to multiple proxy‐based reconstructions indicate an inconsistent and weaker influence of ENSO prior to the 1800s. Our results highlight the dynamic influence of ocean‐atmospheric phenomena on groundwater resources in North Central Florida and build on instrumental records to better depict the long‐term range of groundwater elevations.
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