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Biogenically induced bedded chert formation in the alkaline palaeo-lake of the Green River Formation

Biogenically induced bedded chert formation in the alkaline palaeo-lake of the Green River Formation
Biogenically induced bedded chert formation in the alkaline palaeo-lake of the Green River Formation
Rhythmically bedded cherts are observed in both pelagic marine and lacustrine deposits, but the formation mechanism in the latter remains highly uncertain. Our study of alternating chert–dolomite beds in the Eocene Green River Formation, Utah, USA reveals dense accumulations of organic-matter spheres (30–50 μm diameter) of probable algal cyst origin in the chert layers, and centennial- to millennial-scale periodicities in chert layer deposition. A positive correlation between the degree of degradation of the organic spheres and Si distribution implies decomposition of algal organic matter lead to precipitation of lacustrine chert. As both alkalinity and dissolved silica were likely high in the palaeo-lake waters of the Green River Formation, we hypothesize that decomposition of algal organic matter lowered the pH of sediment pore waters and caused silica precipitation. We propose a formation model in which the initial abundance of algal organic matter in sediment varies with productivity at the lake surface, and the decomposition of this algal matter controls the extent of silica precipitation in sediment. The formation of rhythmically bedded chert–dolomite may be linked to centennial- to millennial-scale climatic/environmental factors that modulate algal productivity, which are possibly tied to solar activity cycles known to have similar periodicities.
2045-2322
1-8
Kuma, Ryusei
0c79fb30-9332-4e2c-a15f-966deec3e836
Hasegawa, Hitoshi
a74152b6-6054-4191-86af-d49b46a44692
Yamamoto, Koshi
f5c62acd-ddff-4d68-9b1e-f1f4f344d7dd
Yoshida, Hidekazu
d0c9a24a-0d3b-4587-b27c-8c87e6fd4542
Whiteside, Jessica H.
5d9ad7aa-eba3-4ad9-9f6f-81be71b6829b
Katsuta, Nagayoshi
9c246e19-0438-44e7-944e-66587a613596
Ikeda, Masayuki
e66a08e9-638c-49d5-bee1-96b08cb970a9
Kuma, Ryusei
0c79fb30-9332-4e2c-a15f-966deec3e836
Hasegawa, Hitoshi
a74152b6-6054-4191-86af-d49b46a44692
Yamamoto, Koshi
f5c62acd-ddff-4d68-9b1e-f1f4f344d7dd
Yoshida, Hidekazu
d0c9a24a-0d3b-4587-b27c-8c87e6fd4542
Whiteside, Jessica H.
5d9ad7aa-eba3-4ad9-9f6f-81be71b6829b
Katsuta, Nagayoshi
9c246e19-0438-44e7-944e-66587a613596
Ikeda, Masayuki
e66a08e9-638c-49d5-bee1-96b08cb970a9

Kuma, Ryusei, Hasegawa, Hitoshi, Yamamoto, Koshi, Yoshida, Hidekazu, Whiteside, Jessica H., Katsuta, Nagayoshi and Ikeda, Masayuki (2019) Biogenically induced bedded chert formation in the alkaline palaeo-lake of the Green River Formation. Scientific Reports, 9 (1), 1-8, [16448]. (doi:10.1038/s41598-019-52862-7).

Record type: Article

Abstract

Rhythmically bedded cherts are observed in both pelagic marine and lacustrine deposits, but the formation mechanism in the latter remains highly uncertain. Our study of alternating chert–dolomite beds in the Eocene Green River Formation, Utah, USA reveals dense accumulations of organic-matter spheres (30–50 μm diameter) of probable algal cyst origin in the chert layers, and centennial- to millennial-scale periodicities in chert layer deposition. A positive correlation between the degree of degradation of the organic spheres and Si distribution implies decomposition of algal organic matter lead to precipitation of lacustrine chert. As both alkalinity and dissolved silica were likely high in the palaeo-lake waters of the Green River Formation, we hypothesize that decomposition of algal organic matter lowered the pH of sediment pore waters and caused silica precipitation. We propose a formation model in which the initial abundance of algal organic matter in sediment varies with productivity at the lake surface, and the decomposition of this algal matter controls the extent of silica precipitation in sediment. The formation of rhythmically bedded chert–dolomite may be linked to centennial- to millennial-scale climatic/environmental factors that modulate algal productivity, which are possibly tied to solar activity cycles known to have similar periodicities.

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s41598-019-52862-7 - Version of Record
Available under License Creative Commons Attribution.
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More information

Accepted/In Press date: 24 October 2019
e-pub ahead of print date: 11 November 2019
Published date: November 2019

Identifiers

Local EPrints ID: 435657
URI: http://eprints.soton.ac.uk/id/eprint/435657
DOI: doi:10.1038/s41598-019-52862-7
ISSN: 2045-2322
PURE UUID: 206e7053-c0a2-4f10-9769-5e85eb9f5622

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Date deposited: 18 Nov 2019 17:30
Last modified: 16 Mar 2024 05:19

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Contributors

Author: Ryusei Kuma
Author: Hitoshi Hasegawa
Author: Koshi Yamamoto
Author: Hidekazu Yoshida
Author: Jessica H. Whiteside
Author: Nagayoshi Katsuta
Author: Masayuki Ikeda

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