Petrographic and rare earth elemental characteristics of Cambrian Girvanella oncoids exposed in the North China Platform: Constraints on forming mechanism, REE sources, and paleoenvironments

Oncoid-bearing Mioalingian strata in the North China Platform represent late highstand/forced regressive systems tract(s). In the current study, sequence stratigraphy, sedimentology, and microscopic studies were carried out to interpret the forming mechanism and paleoenvironment of these oncoids. Mi...

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Bibliographic Details
Published in:Arabian journal of geosciences 2020-09, Vol.13 (17), Article 858
Main Authors: Riaz, Muhammad, Zafar, Tehseen, Latif, Khalid, Ghazi, Shahid, Xiao, Enzhao
Format: Article
Language:English
Subjects:
Anomalies
Aridity
Bacteria
Cambrian
Carbonates
Cerium
Chemical analysis
Chromium
Climatic conditions
Cores
Crystals
Cyanobacteria
Depletion
Diagenesis
Dolomite
Dolostone
Earth and Environmental Science
Earth science
Earth Sciences
Erbium
Freshwater
Gadolinium
Geochemistry
Inland water environment
Lanthanum
Marine sediments
Microorganisms
Minerals
Molybdenum
Nickel
Original Paper
Paleoenvironments
Platforms (geology)
Pyrite
Rare earth elements
Ratios
Rivers
Seawater
Sedimentology
Sediments
Sequence stratigraphy
Stratigraphy
Strontium
Sulfate reduction
Sulfate-reducing bacteria
Sulphate reduction
Variation
Water analysis
Ytterbium
Yttrium
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Summary:Oncoid-bearing Mioalingian strata in the North China Platform represent late highstand/forced regressive systems tract(s). In the current study, sequence stratigraphy, sedimentology, and microscopic studies were carried out to interpret the forming mechanism and paleoenvironment of these oncoids. Microscopic studies show the typical distribution of filamentous cyanobacteria ( Girvanella ) in the Cambrian oncoids. Based on these observations, the oncoids can be classified into three kinds, i.e., Girvanella -core oncoids, Girvanella -cortex oncoids, and Girvanella -full oncoids. Furthermore, the studied oncoids hold pyrite crystals and dolomite minerals that also indicate the influence of sulfate-reducing bacteria on their formation. The presence of Girvanella , pyrite, and dolomite in the cores and cortices of these distinctive oncoids depicts its microbial origin that flourished under relatively high-energy settings. The present work offers a reference example for the involvement of microbes, particularly Girvanella , in the development of microbial carbonates in the North China carbonate platform during the Cambrian period. Geochemistry of the Cambrian oncoids is interpreted in order to determine the involvement of detrital fractions, sources of rare earth elements (REEs), and paleoenvironmental settings. The results of slightly negative Eu anomalies, higher La/Yb (6.8–15.1), and the larger Y/Ho variations (30.17–42.08) in the studied oncoids advocate that these oncoids have been subjected to terrigenous input during their formation. Considering the absence of Ce anomaly, Gd/Gd* ratios (< 1), and lesser values of Y/Ho (30.17–33.93), we propose that these oncoids have been influenced by diagenetic activities. Relatively greater values of Er/Nd (0.09–0.23) suggest seawater signature preserved by the marine sediments. Meanwhile, observed weak negative Eu anomalies within the oncoids point out the retention of the original marine water characteristics, whereas lower values of the Y/Ho propose freshwater participation from the rivers in the seawater during precipitation of oncoids. Based on the ratios Er/Nd, (Nd/Yb) N , La/Yb, and depletion and variation of REEs, it can be confirmed that the sources of these REEs within the Cambrian oncoids are mainly from terrigenous input. However, the higher Er/Nd ratios are sourced from marine carbonates. Relatively lower values of Mo/U (1.10–2.46), V/Cr (< 2), V/(V + Ni) ratios (0.24–0.33), and deficiency of Ce anomaly in
ISSN:1866-7511
1866-7538
DOI:10.1007/s12517-020-05750-8