Ferromanganese micronodule, ubiquitous in aquatic environments, is a key authigenic
phase in the rare earth elements and yttrium (REY) enriched deep-sea sediments. This is …

As the largest promising rare earth elements and yttrium (termed as REY) resource in the
world, pelagic sediments enriched in REY (REY-rich sediments) have gained extensive …

Rare earth elements (REEs) are emerging contaminants due to their worldwide exploitation
in the high-technology sector. Aquaculture systems, particularly those located within coastal …

Recent studies reveal that bioapatite and Fesingle bond Mn micro-nodules are
predominantly hosts of rare earth elements and yttrium (REYs) in bulk deep-sea sediments …

The geochronology of deep-sea sediments beneath the carbonate compensation depth
(CCD) presents a challenge due to the calcareous microfossils dissolution, low …

Abstract The Rare Earth Elements (REE) archived in carbonate rocks retain a wealth of
information on paleo-seawater chemistry and local-regional redox conditions. However …

The lack of knowledge about the enrichment mechanism of rare earth elements and yttrium
(REY) in deep-sea sediments is impeding the development of theories and exploration …

Numerous sedimentary phosphorites in Southwest China were formed around the
Precambrian–Cambrian transition (PC–C), including the upper Ediacaran Doushantuo …

Recently, rare-earth elements and yttrium (REYs, including La-Lu and Y) have been found to
be remarkably enriched in Pacific and Indian Ocean deep-sea sediments, as the extreme …

In deep sea sediments, rare earth elements and yttrium (REYs) are predominantly carried by
bioapatite and Fe-Mn (oxyhydr) oxides. According to recent studies, REYs can migrate into …