Origin of water masses in Floridan Aquifer System revealed by 81Kr

•Freshwater recharged to Floridan Aquifer System mostly during last glacial period.•Radiocarbon dilution by water rock interaction gave apparent 14C half-live of <2 kyr.•Late Pleistocene seawater was identified in the Floridan Aquifer System using 81Kr.•Sluggish seawater circulation in the Florid...

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Published in:	Earth and planetary science letters Vol. 569; p. 117060
Main Authors:	Yokochi, Reika, Zappala, Jake C., Purtschert, Roland, Mueller, Peter
Format:	Journal Article
Language:	English
Published:	United States Elsevier B.V 01-09-2021 Elsevier
Subjects:	coastal dolomitization Floridan Aquifer System fossil seawater GEOSCIENCES groundwater dating NUCLEAR PHYSICS AND RADIATION PHYSICS radiokrypton isotopes radiokrypton isotopes fossil seawater groundwater dating coastal dolomitization Floridan Aquifer System
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Abstract	•Freshwater recharged to Floridan Aquifer System mostly during last glacial period.•Radiocarbon dilution by water rock interaction gave apparent 14C half-live of <2 kyr.•Late Pleistocene seawater was identified in the Floridan Aquifer System using 81Kr.•Sluggish seawater circulation in the Floridan aquifer implies slow dolomitization.•Deep saline coastal aquifers may serve as a paleo-seawater archive. Groundwater in coastal aquifers serves as an essential resource in densely populated areas throughout the world. However, hydrological connection to the ocean leaves it at risk of salinization via changes in climate and hydrological cycles. Therefore, an accurate hydrological characterization of coastal aquifers is of the utmost importance. Although localized salinization of shallow aquifers has commonly been studied, geochemical constraints on the time scale of regional freshwater and seawater in coastal aquifers are limited especially in carbonate aquifers. Such information is not only crucial for water resource management, but also for understanding solute flux over the land-ocean boundary and for interpreting the geochemical signatures that each water mass carries. Toward this goal, we report tracer-based, subsurface residence times of groundwater in the Floridan Aquifer System in southern Florida, which is one of the most productive aquifers on Earth. The first application of 81Kr—an emerging tracer of old groundwater—to this aquifer has identified freshwater recharge during the last glacial period as anticipated from previous studies using other geochemical tools including radiocarbon, stable isotopes and noble gas concentrations. Moreover, freshwater of Holocene age was also detected at 100 km-distance from the recharge area, suggesting the possibility of an active flow system in the upgradient region. A contribution of fossil seawater that predates the last glacial maximum was locally identified, suggesting slow seawater circulation and limited but significant solute flux from the ocean into the aquifer for dolomitization. This also implies that the deep saline coastal groundwater can potentially serve as a paleo-seawater archive.
AbstractList	Groundwater in coastal aquifers serves as an essential resource in densely populated areas throughout the world. However, hydrological connection to the ocean leaves it at risk of salinization via changes in climate and hydrological cycles. Therefore, an accurate hydrological characterization of coastal aquifers is of the utmost importance. Although localized salinization of shallow aquifers has commonly been studied, geochemical constraints on the time scale of regional freshwater and seawater in coastal aquifers are limited especially in carbonate aquifers. Such information is not only crucial for water resource management, but also for understanding solute flux over the land-ocean boundary and for interpreting the geochemical signatures that each water mass carries. Toward this goal, we report tracer-based, subsurface residence times of groundwater in the Floridan Aquifer System in southern Florida, which is one of the most productive aquifers on Earth. The first application of Kr81-an emerging tracer of old groundwater-to this aquifer has identified freshwater recharge during the last glacial period as anticipated from previous studies using other geochemical tools including radiocarbon, stable isotopes and noble gas concentrations. Moreover, freshwater of Holocene age was also detected at 100 km-distance from the recharge area, suggesting the possibility of an active flow system in the upgradient region. A contribution of fossil seawater that predates the last glacial maximum was locally identified, suggesting slow seawater circulation and limited but significant solute flux from the ocean into the aquifer for dolomitization. This also implies that the deep saline coastal groundwater can potentially serve as a paleo-seawater archive. •Freshwater recharged to Floridan Aquifer System mostly during last glacial period.•Radiocarbon dilution by water rock interaction gave apparent 14C half-live of <2 kyr.•Late Pleistocene seawater was identified in the Floridan Aquifer System using 81Kr.•Sluggish seawater circulation in the Floridan aquifer implies slow dolomitization.•Deep saline coastal aquifers may serve as a paleo-seawater archive. Groundwater in coastal aquifers serves as an essential resource in densely populated areas throughout the world. However, hydrological connection to the ocean leaves it at risk of salinization via changes in climate and hydrological cycles. Therefore, an accurate hydrological characterization of coastal aquifers is of the utmost importance. Although localized salinization of shallow aquifers has commonly been studied, geochemical constraints on the time scale of regional freshwater and seawater in coastal aquifers are limited especially in carbonate aquifers. Such information is not only crucial for water resource management, but also for understanding solute flux over the land-ocean boundary and for interpreting the geochemical signatures that each water mass carries. Toward this goal, we report tracer-based, subsurface residence times of groundwater in the Floridan Aquifer System in southern Florida, which is one of the most productive aquifers on Earth. The first application of 81Kr—an emerging tracer of old groundwater—to this aquifer has identified freshwater recharge during the last glacial period as anticipated from previous studies using other geochemical tools including radiocarbon, stable isotopes and noble gas concentrations. Moreover, freshwater of Holocene age was also detected at 100 km-distance from the recharge area, suggesting the possibility of an active flow system in the upgradient region. A contribution of fossil seawater that predates the last glacial maximum was locally identified, suggesting slow seawater circulation and limited but significant solute flux from the ocean into the aquifer for dolomitization. This also implies that the deep saline coastal groundwater can potentially serve as a paleo-seawater archive.
ArticleNumber	117060
Author	Purtschert, Roland Mueller, Peter Yokochi, Reika Zappala, Jake C.
Author_xml	– sequence: 1 givenname: Reika orcidid: 0000-0002-8756-142X surname: Yokochi fullname: Yokochi, Reika email: yokochi@uchicago.edu organization: Department of the Geophysical Sciences, The University of Chicago, IL 60637, USA – sequence: 2 givenname: Jake C. surname: Zappala fullname: Zappala, Jake C. organization: Physics Division, Argonne National Laboratory, Lemont, IL 60439, USA – sequence: 3 givenname: Roland surname: Purtschert fullname: Purtschert, Roland organization: Climate and Environmental Physics, Physics Institute and the Oeschger Centre for Climate Change Research, University of Bern, 3012 Bern, Switzerland – sequence: 4 givenname: Peter surname: Mueller fullname: Mueller, Peter organization: Physics Division, Argonne National Laboratory, Lemont, IL 60439, USA
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Keywords	radiokrypton isotopes fossil seawater groundwater dating coastal dolomitization Floridan Aquifer System
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Snippet	•Freshwater recharged to Floridan Aquifer System mostly during last glacial period.•Radiocarbon dilution by water rock interaction gave apparent 14C half-live... Groundwater in coastal aquifers serves as an essential resource in densely populated areas throughout the world. However, hydrological connection to the ocean...
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SubjectTerms	coastal dolomitization Floridan Aquifer System fossil seawater GEOSCIENCES groundwater dating NUCLEAR PHYSICS AND RADIATION PHYSICS radiokrypton isotopes
Title	Origin of water masses in Floridan Aquifer System revealed by 81Kr
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