2021
DOI: 10.1038/s41467-020-20248-3
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Groundwater discharge impacts marine isotope budgets of Li, Mg, Ca, Sr, and Ba

Abstract: Groundwater-derived solute fluxes to the ocean have long been assumed static and subordinate to riverine fluxes, if not neglected entirely, in marine isotope budgets. Here we present concentration and isotope data for Li, Mg, Ca, Sr, and Ba in coastal groundwaters to constrain the importance of groundwater discharge in mediating the magnitude and isotopic composition of terrestrially derived solute fluxes to the ocean. Data were extrapolated globally using three independent volumetric estimates of groundwater … Show more

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Cited by 74 publications
(67 citation statements)
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“…Many of the trace metals have particular ecological relevance as (micro)nutrients or toxins (Salt et al, 1995;Beck et al, 2010), and their signatures may be recognizable in near-shore STE sediments (Knee and Paytan, 2011). Submarine groundwater discharge is relevant for marine alkaline earth metal composition (Mayfield et al, 2021), a significant source of rare earth elements to the ocean and could be the missing link in the global distribution of Neodynium (Nd), a key proxy for oceanic water-mass mixing (Johannesson and Burdige, 2007;Chevis et al, 2015;Paffrath et al, 2020). Formation of complexes and colloids, sorption on the surface of particles, ion exchange, and changes in speciation are some of the relevant processes that control metal mobility, reactivity and toxicity (Charette and Sholkovitz, 2006;Waska et al, 2019a).…”
Section: Metalsmentioning
confidence: 99%
See 1 more Smart Citation
“…Many of the trace metals have particular ecological relevance as (micro)nutrients or toxins (Salt et al, 1995;Beck et al, 2010), and their signatures may be recognizable in near-shore STE sediments (Knee and Paytan, 2011). Submarine groundwater discharge is relevant for marine alkaline earth metal composition (Mayfield et al, 2021), a significant source of rare earth elements to the ocean and could be the missing link in the global distribution of Neodynium (Nd), a key proxy for oceanic water-mass mixing (Johannesson and Burdige, 2007;Chevis et al, 2015;Paffrath et al, 2020). Formation of complexes and colloids, sorption on the surface of particles, ion exchange, and changes in speciation are some of the relevant processes that control metal mobility, reactivity and toxicity (Charette and Sholkovitz, 2006;Waska et al, 2019a).…”
Section: Metalsmentioning
confidence: 99%
“…Mixing intensity and processes in STEs will also be controlled by the amount of freshwater discharging (Luijendijk et al, 2020) or the amount of seawater recirculating (Mayfield et al, 2021). Water quality of the incoming freshwater is not known at a global scale, but, as a first crude guess, could be inferred by proxy, e.g., from land-cover (e.g., Arino et al, 2007) or soil (FAOIIASA, ISRIC et al, 2009) datasets.…”
Section: Hydrogeological Modelingmentioning
confidence: 99%
“…For example, quantitative evidence from time-series data have shown the importance of rainfallinduced hydrological transport of OM from inland mangroves to the coastline through cave networks (Coutino et al, 2020). Although karst platforms account for a substantial percentage of certain trace element inputs to the ocean globally (Beck et al, 2013;Gonneea et al, 2014;Mayfield et al, 2021), point-sources of groundwater discharge only represents a (likely small) portion of these inputs. Point-source discharge, however, can influence coral reefs (Crook et al, 2012) and other local ecosystems (Moosdorf et al, 2015) while contributing to the heterogeneity of land-to-sea material fluxes along global coastlines (Luijendijk et al, 2020;Moore and Joye, 2021;Rocha et al, 2021).…”
Section: Evidence For Reduction In Organic Matter Inputs From a Mangrove Habitatmentioning
confidence: 99%
“…Globally, average dissolved δ 30 Si values in low-temperature groundwater systems (+0.2 ± 0.8 ‰) are lower than those in rivers (+1.3 ± 0.7 ‰; 1 SD; Frings et al, 2016). Similarly, groundwater fluxes from other key marine weathering proxies such as Mg, Ca and Sr also exhibit distinct isotopic compositions from global riverine averages (Mayfield et al, 2021). The lower δ 30 Si values in some groundwater systems may be due to the greater extent of water-rock interactions compared to surface waters and the dissolution of 30 Si-depleted secondary minerals (Basile-Doelsch et al, 2005;Georg et al, 2009b;Pogge von Strandmann et al, 2014).…”
Section: Introductionmentioning
confidence: 98%
“…organisms such as diatoms and vascular plants (Ding et al, 2008;De La Rocha et al, 1998;Meyerink et al, 2017). Moreover, Si isotopes are not fractionated during congruent mineral dissolution, and there is a narrow range of 30 Si values for the upper continental crust (UCC), i.e.…”
Section: Introductionmentioning
confidence: 99%