Improving the inverse modeling of a trace isotope: how precisely can radium-228 fluxes toward the ocean and submarine groundwater discharge be estimated?

摘要

pstrongAbstract./strong Radium-228 (sup228/supRa), an almost conservative trace isotope in the ocean, supplied from the continental shelves and removed by a known radioactive decay (iT/isub1a??2/suba??=a??5.a??75??years), can be used as a proxy to constrain shelf fluxes of other trace elements, such as nutrients, iron, or rare earth elements. In this study, we perform inverse modeling of a global sup228/supRa dataset (including GEOSECS, TTO and GEOTRACES programs, and, for the first time, data from the Arctic and around the Kerguelen Islands) to compute the total sup228/supRa fluxes toward the ocean, using the ocean circulation obtained from the NEMO 3.6 model with a 2?° resolution. We optimized the inverse calculation (source regions, cost function) and find a global estimate of the sup228/supRa fluxes of 8.01a??8.a??49a????a??10sup23/sup??atomsspan class="thinspace"/spanyrsupa??1/sup, more precise and around 20span class="thinspace"/span% lower than previous estimates. The largest fluxes are in the western North Atlantic, the western Pacific and the Indian Ocean, with roughly two-thirds in the Indo-Pacific Basin. An estimate in the Arctic Ocean is provided for the first time (0.43a??0.50span class="thinspace"/spana????a??span class="thinspace"/span10sup23/sup??atomsspan class="thinspace"/spanyrsupa??1/sup). Local misfits between model and data in the Arctic, the Gulf Stream and the Kuroshio regions could result from flaws of the ocean circulation in these regions (resolution, atmospheric forcing). As radium is enriched in groundwater, a large part of the sup228/supRa shelf sources comes from submarine groundwater discharge (SGD), a major but poorly known pathway for terrestrial mineral elements, including nutrients, to the ocean. In contrast to the sup228/supRa budget, the global estimate of SGD is rather unconstrained, between 1.3 and 14.a??7a????a??10sup13/supspan class="thinspace"/spanmsup3/supspan class="thinspace"/spanyrsupa??1/sup, due to high uncertainties on the other sources of sup228/supRa, especially diffusion from continental shelf sediments. Better precision on SGD cannot be reached by inverse modeling until a proper way to separate the contributions of SGD and diffusive release from sediments at a global scale is found./p.