Geochemical background and geochemical characters of REE during hypergene processes in Bayan Obo, China

Xueqiu Wang*, Jian Zhou, Lanshi Nie, Jennifer McKinley, Hanliang Lui, Bimin Zhang, Zhixuan Han

*Corresponding author for this work

Research output: Contribution to journalArticle

Abstract

The Bayan Obo deposit is the largest deposit of rare earth elements (REEs) in the world, with its light REE (LREE) reserve constituting approximately 45% of the world’s total LREEs. This study identifies the geochemical background of REEs in the Bayan Obo region and investigates REE dispersion pattern along a stream, the fractionation between parent rocks and soils, as well as REE distribution in a weathering profile, to reveal the geochemical behavior of REEs during hypergene processes in semi-arid grasslands. Results show that the REE content in the slates of the Bilute, Jianshan, and Dulahala Formations, which are surrounding rocks of the Bayan Obo deposit, is far higher than those observed in ordinary slate and the continental crust of the North China Craton. These surrounding rocks may have provided sufficient REE sources to form the current, huge REE deposit. The total REE content of stream sediments in the Bayan Obo region ranges from 46.9 to 799.8 μg/g, with a median of 170.8 μg/g. Two large-scale REE anomalies were discovered to the west of the Bayan Obo region. The REE content in soil is primarily determined by the parent rock, and no fractionation occurs between heavy REEs (HREEs) and LREEs after the parent rock weathers in semiarid grasslands. Across the soil profile in Bayan Obo region, REEs typically enrich the surface and deep layers; the middle layer typically contains low REE content owing to the existence of caliche. Along streams, REEs primarily migrate with fine-grained particles over long distances (7 km or longer) via mechanical means. In contrast, coarsegrained particles mainly remain in situ. Affected by aeolian sand, the REE content is relatively low in the 40–80 mesh fraction.
Original languageEnglish
JournalJournal of Geochemical Exploration
Publication statusAccepted - 02 Apr 2020

Keywords

  • Bayan Obo
  • dispersion pattern
  • geochemical background
  • rare earth elements

ASJC Scopus subject areas

  • Environmental Science(all)

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    R6774GGY: TELLUS Border

    McKinley, J. & Ruffell, A.

    01/08/2010 → …

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