Microstructure and mineral composition of Holocene stromatolites from Lagoa Vermelha, a hypersaline lagoon in Brazil: Insights into laminae genesis

Microstructure and mineral composition of Holocene stromatolites from Lagoa Vermelha, a hypersaline lagoon in Brazil: Insights into laminae genesis

Stromatolites are domes, columns, or nearly flat crusts of laminated sedimentary rocks, usually consisting of Ca-Mg carbonates. Stromatolites result from lithification of microbial mats, which are benthic microbial ecosystems where microorganisms arrange themselves in layers according to their physi...

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Bibliographic Details
Published in:Journal of sedimentary research Vol. 90; no. 8; pp. 887 - 905
Main Authors: Keim, Carolina N., dos Santos, Hélisson Nascimento, Santiago, Carolina Souza, Pennafirme, Simone, Neumann, Reiner, Schnellrath, Jürgen, Lima, Inayá, Crapez, Mirian A.C., Farina, Marcos
Format: Journal Article
Language:English
Published: Tulsa Society for Sedimentary Geology 19-08-2020
Subjects:
Aragonite
Calcite
Calcium
Carbonates
Coexistence
Crusts
Holocene
Lagoons
Laminates
Lithification
Magnesium
Magnesium carbonate
Mats
Microbial mats
Microorganisms
Mineral composition
Minerals
Pyrite
Quartz
Scanning electron microscopy
Sedimentary rocks
Stromatolites
X ray analysis
X-ray diffraction
Brazil
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Summary:Stromatolites are domes, columns, or nearly flat crusts of laminated sedimentary rocks, usually consisting of Ca-Mg carbonates. Stromatolites result from lithification of microbial mats, which are benthic microbial ecosystems where microorganisms arrange themselves in layers according to their physiology. Despite a century of research, the hypothesis of stromatolite genesis by lithification of microbial mats remains controversial, and a convincing explanation for how stromatolites arise from microbial mats is still lacking. In this work, we analyze in detail a stromatolite from Lagoa Vermelha, a coastal hypersaline lagoon in Rio de Janeiro State, Brazil. The stromatolite presents a laminated core and thrombolitic regions at the periphery. Both thrombolitic and laminated facies consist of fine-grained authigenic minerals with minor contributions of bioclasts and quartz grains. X-ray diffraction shows aragonite, high-magnesium calcite (HMC) containing about 17% MgCO3, a very-high-Mg calcite (VHMC) containing 29–46% MgCO3, and small amounts of quartz and pyrite. Scanning electron microscopy of polished samples coupled to energy-dispersive X-ray analysis (EDS) showed that each lamina was composed of 1–4 distinct mineral phases embedded within each other, indicating sequential steps of precipitation of Ca-Mg carbonates under distinct biogeochemical conditions. The coexistence of different phases in a single lamina suggests that several processes contribute to mineral deposition as the incipient stromatolite laminae are left behind by microorganisms from the lower layers of the microbial mat when they grow and/or move upwards.
ISSN:1527-1404
1938-3681
DOI:10.2110/jsr.2020.40