Mechanism And Influencing Factors Of Rey Enrichment In Deep-Sea Sediments

Deep-sea sediments with high contents of rare-earth elements and yttrium (REY) are expected to serve as a potential resource for REY, which have recently been proved to be mainly contributed by phosphate component. Studies have shown that the carriers of REY in deep-sea sediments include aluminosilicate, Fe-Mn oxyhydroxides, and phosphate components. The n-ary sumation REY of the phosphate component is 1-2 orders of magnitude higher than those of the other two carriers, expressed as n-ary sumation REY = 0.001 x [Al2O3] - 0.002 x [MnO] + 0.056 x [P2O5] - 32. The sediment P2O5 content of 1.5% explains 89.1% of the total variance of the sediment n-ary sumation REY content. According to global data, P has a stronger positive correlation with n-ary sumation REY compared with Mn, Fe, Al, etc.; 45.5% of samples have a P2O5 content of less than 0.25%, and n-ary sumation REY of not higher than 400 ppm. The n-ary sumation REY of the phosphate component reaches n x 10(4) ppm, much higher than that of marine phosphorites and lower than that of REY-phosphate minerals, which are called REY-rich phosphates in this study. The results of microscopic observation and separation by grain size indicate that the REY-rich phosphate component is mainly composed of bioapatite. When n-ary sumation REY > 2000 ppm, the average CaO/P2O5 ratio of the samples is 1.55, indicating that the phosphate composition is between carbonate fluoroapatite and hydroxyfluorapatite. According to a knowledge map of sediment elements, the phosphate component is mainly composed of P, Ca, Sr, REY, Sc, U, and Th, and its chemical composition is relatively stable. The phosphate component has a negative Ce anomaly and positive Y anomaly, and a REY pattern similar to that of marine phosphorites and seawater. After the early diagenesis process (biogeochemistry, adsorption, desorption, transformation, and migration), the REY enrichment in the phosphate component is completed near the seawater/sediment interface. In the process of REY enrichment, the precipitation and enrichment of P is critical. According to current research progress, the REY enrichment is the result of comprehensive factors, including low sedimentation rate, high n-ary sumation REY of the bottom seawater, a non-carbonate depositional environment, oxidation conditions, and certain bottom current conditions.