Continental shelves as potential resource of rare earth elements

Olivier Pourret,Johann Tuduri

doi:10.1038/s41598-017-06380-z

Olivier Pourret, Johann Tuduri

Open Access

https://doi.org/10.1038/s41598-017-06380-z

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Abstract

The results of this study allow the reassessment of the rare earth elements (REE) external cycle. Indeed, the river input to the oceans has relatively flat REE patterns without cerium (Ce) anomalies, whereas oceanic REE patterns exhibit strong negative Ce anomalies and heavy REE enrichment. Indeed, the processes at the origin of seawater REE patterns are commonly thought to occur within the ocean masses themselves. However, the results from the present study illustrate that seawater-like REE patterns already occur in the truly dissolved pool of river input. This leads us to favor a partial or complete removal of the colloidal REE pool during estuarine mixing by coagulation, as previously shown for dissolved humic acids and iron. In this latter case, REE fractionation occurs because colloidal and truly dissolved pools have different REE patterns. Thus, the REE patterns of seawater could be the combination of both intra-oceanic and riverine processes. In this study, we show that the Atlantic continental shelves could be considered potential REE traps, suggesting further that shelf sediments could potentially become a resource for REE, similar to metalliferous deep sea sediments.

Highlights

The results of this study allow the reassessment of the rare earth elements (REE) external cycle
We report here a potential resource for REE with a focus on Atlantic continental shelves
As a matter of fact, these elements have been typically divided into light REE (LREE; La-Nd), middle REE (MREE; Sm-Tb) and heavy REE (HREE; Dy-Lu) due to their contrasting geochemical behaviour

Summary

OPEN Continental shelves as potential resource of rare earth elements

The results of this study allow the reassessment of the rare earth elements (REE) external cycle. The results from the present study illustrate that seawaterlike REE patterns already occur in the truly dissolved pool of river input This leads us to favor a partial or complete removal of the colloidal REE pool during estuarine mixing by coagulation, as previously shown for dissolved humic acids and iron. (i) Freslon et al.[20] highlight that sedimentary organic matter displays high REE concentrations and (ii) Rousseau et al.[21] show that the dissolved REE speciation across the Amazon estuary salinity gradient is mainly controlled by coarse colloidal organic fraction which is progressively removed by coagulation as previously evidenced by Sholkovitz et al.[22] In this context, the REE organic pool should be further considered. We report here a potential resource for REE with a focus on Atlantic continental shelves

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Results and Discussion

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