Marine microfossils: Tiny archives of ocean changes through deep time

Marine microfossils: Tiny archives of ocean changes through deep time

Microorganisms have inhabited the oceans since the dawn of Earth. Some of them have organic walls and some produce mineral tests that are usually composed of carbonate minerals or silica. They can therefore be preserved with original parts during sedimentary deposition or fossilized through perminer...

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Bibliographic Details
Published in:AIMS microbiology Vol. 10; no. 3; pp. 644 - 673
Main Authors: Sremac, Jasenka, Bošnjak, Marija, Firi, Karmen Fio, Šimičević, Ana, Aščić, Šimun
Format: Journal Article
Language:English
Published: United States AIMS Press 01-01-2024
Subjects:
biostratigraphy
fossilization
microbiota
paleoenvironment
raw materials
microbiota
paleoenvironment
fossilization
raw materials
biostratigraphy
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Summary:Microorganisms have inhabited the oceans since the dawn of Earth. Some of them have organic walls and some produce mineral tests that are usually composed of carbonate minerals or silica. They can therefore be preserved with original parts during sedimentary deposition or fossilized through permineralization or carbonization processes. The most common marine fossil groups studied by micropaleontologists are cyanobacteria, coccolithophores, dinoflagellates, diatoms, silicoflagellates, radiolarians, foraminifers, red and green algae, ostracods, and pteropods. Dormant or reproductive cysts can also be used for determinations of the fossil microbiota. Microfossils can be studied in petrographic slides prepared from rocks or separated from loosely consolidated rocks by disaggregation or dissolution and wet sieving. Their presence is sometimes recognized by biomarkers. Transmitted light microscopy and reflected light stereomicroscopy are necessary for micropaleontological studies whereas scanning electronic microscopy (SEM) aids research on the tiniest fossils and reveals fine skeletal details. Microorganisms have influenced the oxygenation of water and the atmosphere, as well as Earth's carbon cycle and have contributed to the formation of sedimentary rocks. By studying microfossils, paleontologists depict the age of the rock and identify depositional environments. Such studies help us recognize periods of stress in Earth's history and understand their influence on living organisms. Biogenic rocks, made of microfossils, can be used as raw materials, such as fossil fuels, building stone, or additives for the food industry, agricultural, or cosmetic purposes.
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ISSN:2471-1888
2471-1888
DOI:10.3934/microbiol.2024030