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Data provided here describe geochemical correction of carbon-14 in dissolved inorganic carbon (DIC) for groundwater age dating. Datasets include major ion chemistry of groundwater samples, model parameter inputs, and final corrected carbon-14 in DIC. Geochemical correction was completed in two phases: determination of reactive phase mole transfers through an inverse geochemical model (PHREEQC; Parkhurst and Appleo, 1992) and tracking of isotopic mass transfer among phases (NetpathXL; Parkhusrtand Charlton, 2008). Parkhurst, D.L., and Appelo, C.A.J., 2013, Description of input and examples for PHREEQC version 3—A computer program for speciation, batch-reaction, one-dimensional transport, and inverse geochemical...
Tags: Cenozoic,
Connecticut,
Holocene,
Idaho,
Illinois, All tags...
Indiana,
Iowa,
Kansas,
Maine,
Massachusetts,
Michigan,
Minnesota,
Missouri,
Montana,
NAWQA,
Nebraska,
New Hampshire,
New Jersey,
New York,
North Dakota,
Ohio,
Pennsylvania,
Pleistocene,
Quaternary,
Rhode Island,
South Dakota,
USGS Science Data Catalog (SDC),
Vermont,
Washington,
Wisconsin,
alkalinity,
aqueous solutions,
atmospheric chemistry,
calcium,
carbon cycle,
carbonate minerals,
carbonate rocks,
chemical equilibrium,
chemical interactions,
chemical precipitation,
chemical speciation,
cycle 3,
data release,
dissolved carbon dioxide,
dissolved gases,
exchangeable cations,
gas exchange,
geochemical processes,
geochemistry,
glacial deposits,
glacial drift,
glacial soils,
groundwater,
groundwater,
groundwater flow,
groundwater quality,
half life,
hydrogeochemistry,
hydrogeology,
isotope fractionation,
magnesium,
mathematical simulation,
minerals,
rain,
soil chemistry,
soil chemistry,
soil sciences,
soil water,
soil-plant-atmosphere interactions,
solubility,
stable isotopes,
thermodynamics,
unsaturated flow,
vadose zone,
water analysis,
water chemistry,
water quality, Fewer tags
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