Isotopic and geochemical assessment of the sensitivity of groundwater resources of Guam, Mariana Islands, to intra- and inter-annual variations in hydroclimate

Isotopic and geochemical assessment of the sensitivity of groundwater resources of Guam, Mariana Islands, to intra- and inter-annual variations in hydroclimate

•Recharge predominantly occurs during the wet season.•Recharge is sensitive to inter-annual changes in precipitation amount and intensity.•Groundwater compositions are influenced by water-rock interaction & fluid mixing.•There is spatial sensitivity of freshwater lens to changes in recharge.•Gro...

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Bibliographic Details
Published in:Journal of hydrology (Amsterdam) Vol. 568; pp. 174 - 183
Main Authors: Beal, L.K., Wong, C.I., Bautista, K.K., Jenson, J.W., Banner, J.L., Lander, M.A., Gingerich, S.B., Partin, J.W., Hardt, B., van Oort, N.H.
Format: Journal Article
Language:English
Published: Elsevier B.V 01-01-2019
Subjects:
Aqueous geochemistry
Carbonate island aquifer
Karst hydrogeology
Northern Guam Lens Aquifer
Oxygen isotopes (δ18O)
Strontium (Sr) isotopes
Aqueous geochemistry
Karst hydrogeology
Strontium (Sr) isotopes
Oxygen isotopes (δ18O)
Northern Guam Lens Aquifer
Carbonate island aquifer
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Summary:•Recharge predominantly occurs during the wet season.•Recharge is sensitive to inter-annual changes in precipitation amount and intensity.•Groundwater compositions are influenced by water-rock interaction & fluid mixing.•There is spatial sensitivity of freshwater lens to changes in recharge.•Groundwater is buffered from hydrological variability that occurred in this study. Assessing the sensitivity of groundwater systems to hydroclimate variability is critical to sustainable management of the water resources of Guam, US territory. We assess spatial and temporal variability of isotopic and geochemical compositions of vadose and phreatic groundwater sampled from cave drip sites and production wells, respectively, to better understand the vulnerability of the freshwater lens on Guam to variability in hydroclimate. We independently evaluate the existing conceptual model of the Northern Guam Lens Aquifer that is largely based on physical, as opposed to geochemical, observations. Sampling was conducted from 2008 to 2015, over which rainfall gradually increased. Major ion geochemistry and Sr isotope values of groundwater show varying influence from soil, limestone bedrock, and seawater. Geochemical modeling that can explain spatial variability in groundwater Na+ and Mg2+ concentrations and Sr/Ca and 87Sr/86Sr values indicates that groundwater compositions are dominantly controlled by mixing of freshwater with seawater and water-rock interaction. Differences between amount-weighted annual average precipitation δ18O values and groundwater δ18O values indicate a recharge bias toward the wet season, consistent with other tropical carbonate island aquifer settings. Intra- and inter-annual variations in Na+ concentrations and δ18O values in groundwater reflect sensitivity of recharge to seasonal variations in rainfall amount and changes in annual rainfall amounts. Our results indicate the influence of multiple modes of recharge on groundwater compositions and spatial variability in the sensitivity of groundwater to seawater mixing. This sensitivity of the freshwater lens points to the vulnerability of groundwater resources to changes in recharge associated with climate, land-use change, and increases in population.
ISSN:0022-1694
1879-2707
DOI:10.1016/j.jhydrol.2018.10.049