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1 de mar. de 2024 · Buried crust – a potential resource of REYs and transition metals. Since the low-crystallinity Fe-Mn (oxyhydr-)oxide phases have large surfaces and extremely low accumulation rates, the Fe-Mn crusts have great potential in absorbing a variety of metals (e.g., Cu, Co, Ni, Mo, Pt, REYs) (Hein et al., 2020; Zhou et al., 2023).
11 de dic. de 2020 · Based on the gravity anomaly, the transition from the WMR to back-arc spreading crust may occur to the west of the gravity low at km 150 of the seismic line. Approaching the margin (km 160–200), crust above the high-velocity lower crust mimics the structure of a flexural sedimentary basin.
18 de abr. de 2024 · Naturally, shallowly buried crust is better imaged than deep crust, but features can be observed throughout the crust. In our case study, we use 3D broadband seismic data from the northern...
1 de mar. de 2024 · Buried crust from the western Pacific Ocean was investigated. • Early diagenetic controlled the enrichment and mobilization of metals. • Different geochemical behaviors of REYs and transition metals in buried crust. • Buried crust can serve as a potential resource for critical metals.
1 de oct. de 2023 · Here, we present in-situ high-resolution major and trace element analyses of a buried crust from the western Pacific Ocean to unravel how rare earth elements and transition metals are enriched and mobilized as burial.
13 de jul. de 2015 · 184 Citations. 260 Altmetric. Metrics. This article has been updated. Abstract. Understanding of the geologic evolution of Mars has been greatly improved by recent orbital 1, 2, 3, in situ 4, 5 and...
27 de feb. de 2015 · Ore bodies buried deep in Earth's crust could meet increasing global demands for metals, but mining them would be costly and could damage the environment. Reinventing an ancient technology for...
