Abstract
Isotopic analyses of δ18O and δ2H of water in the context of the hydrologic cycle have allowed hydrologists to better understand the portioning of water between the different water domains. Isoscapes on a large spatial scale have been created to show isotopic variation in waters as a function of elevation, temperature, distance to coast, and water vapor source. We present the spatial and temporal isotopic results of precipitation, surface water, and groundwater of an ongoing study across Massachusetts, USA in order to establish an isotopic baseline for the region. This represents one of the most comprehensive and detailed isotopic studies of water across a 10,000 sq mi area that has exhaustively sampled important components of the terrestrial hydrologic cycle (precipitation, groundwater, and surface waters). We leverage the support of volunteers and citizen scientists to crowd source samples for isotopic analysis. The database consists of water samples from 14 precipitation sites, 409 ground water sites and 516 surface water sites across the state of Massachusetts, USA. The results indicate that groundwater isotopic composition ranges from δ18O −11 to −4‰ surface water ranges from δ18O −13 to −3.84‰ and precipitation ranges from δ18O −17.88 to −2.89‰. On a first order, the small bias of mean groundwater (−8.7‰) and surface water (−8.0‰) isotopes compared to precipitation δ18O (−7.6‰) supports that groundwater recharge and surface water storage effects through the hydrologic year impact the isotopic composition of surface and groundwater. While differences are distinct, they are larger than previously reported values, but still suggest more importance of summer precipitation than previously acknowledged. On average seasonal amplitudes of precipitation (2.7‰), surface water (1.13‰), and groundwater (~0‰) of the region demonstrate young water fractions of surface water to be 40% with groundwater ~0%. Results demonstrate that mean δ18O in precipitation, surface water and groundwaters are more enriched in heavy isotopes in areas near the coast, than the interior and western portion of Massachusetts. The hope is for this dataset to become an important tool for water management and water resource assessment across the region.
Highlights
The exploration of the stable isotopes of water, oxygen, and hydrogen isotope measurements, have increasingly improved our understanding of the behavior of water isotopes on both a large and small scale
The precipitation data points form a flattened ellipse on the global meteoric water line (GMWL)
A dataset of 1,707 surface water samples, 1,405 groundwater samples, and 558 precipitation samples across Massachusetts has been analyzed in terms of seasonal, temporal, spatial, and environmental variability with the aim of determining and explaining the isotopic signature and variability of precipitation, surface water and groundwater for the state of Massachusetts
Summary
The exploration of the stable isotopes of water, oxygen, and hydrogen isotope measurements, have increasingly improved our understanding of the behavior of water isotopes on both a large and small scale. The interpretation and analysis of the composition of environmental water stable isotopes (precipitation, surface water, groundwater), δ18O and δ2H, are an important tool in examining the hydrologic processes on a global and regional scale (Dansgaard, 1964; Kendall and Coplen, 2001; Bowen, 2010; Puntsag et al, 2016). To determine the δ18O and δ2H of a water sample Equation (1) is used: δ
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