History of the Giraffe Pipe locality inferred from microfossil remains: A thriving freshwater ecosystem near the Arctic Circle during the warm Eocene ...
How will freshwater lakes in the Arctic respond to climate change, especially if polar amplification results in even greater warming at these northern latitudes? Deep-time analogs offer opportunities to understand the potential impacts of future climate warming on Arctic environments. The Giraffe Pi...
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| Format: | Dataset |
| Language: | English |
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Dryad
2022
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| Online Access: | https://dx.doi.org/10.5061/dryad.djh9w0w3s https://datadryad.org/stash/dataset/doi:10.5061/dryad.djh9w0w3s |
| Summary: | How will freshwater lakes in the Arctic respond to climate change, especially if polar amplification results in even greater warming at these northern latitudes? Deep-time analogs offer opportunities to understand the potential impacts of future climate warming on Arctic environments. The Giraffe Pipe fossil locality located in the Northwest Territories of Canada offers a window into the life of a thriving Arctic freshwater ecosystem in the Eocene under greenhouse conditions. The remains of an extensive deposit of microfossils, including photosynthetic protists (chrysophytes, diatoms and green algae), heterotrophic protists (euglyphids, heliozoans, paraphysomonads, and rotosphaerids), and sponges, were used to reconstruct the history of the ancient water body. The concentrations and diversity of chrysophyte taxa were extensive throughout the core, accounting for over 70 % of the microfossil remains. The ratio of chrysophyte cysts to diatom valves, with a mean value near 14 throughout the core, further ... : Analysis of an extensive drilled core from the Giraffe Pipe fossil locality. Rock samples were removed from specific depths along the core, and oxidized with different acid treatments resulting in aqueous slurries containing siliceous microfossils. Each sample was then studied with scanning electron microscopy and light microscopy. Identifications of all organisms were identified, quantified, and used in the analysis. Step-by-step details are contained within the publication in the Journal of Paleontology. ... |
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