Paleoclimate and Hydrology of Bermuda from the Last Interglacial to Today Using Oxygen and Clumped Isotope Geochemistry
The Last Interglacial (LIG), also known as Marine Isotope Stage 5e (MIS 5e), was an interval with climate as warm or slightly warmer than today. Global mean sea surface temperatures were reconstructed to be ~2°C warmer than present, accompanied by a ~6-9m increase in the sea level. At the regional s...
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ftumdeepblue:oai:deepblue.lib.umich.edu:2027.42/177845 2024-01-07T09:43:41+01:00 Paleoclimate and Hydrology of Bermuda from the Last Interglacial to Today Using Oxygen and Clumped Isotope Geochemistry Zhang, Jade Petersen, Sierra Victoria Gronewold, Andrew Levin, Naomi Lohmann, Kyger C 2023 application/pdf https://hdl.handle.net/2027.42/177845 https://doi.org/10.7302/8302 en_US eng https://hdl.handle.net/2027.42/177845 https://dx.doi.org/10.7302/8302 orcid:0000-0002-9967-5029 Zhang, Jade; 0000-0002-9967-5029 Isotope Geochemistry Last Interglacial Bermuda Hydrology Paleoclimate Geology and Earth Sciences Science Thesis 2023 ftumdeepblue https://doi.org/10.7302/8302 2023-12-10T17:56:22Z The Last Interglacial (LIG), also known as Marine Isotope Stage 5e (MIS 5e), was an interval with climate as warm or slightly warmer than today. Global mean sea surface temperatures were reconstructed to be ~2°C warmer than present, accompanied by a ~6-9m increase in the sea level. At the regional scale, this warming was non-uniform. The North Atlantic/Greenland/Iceland/Nordic Seas were reconstructed to be warmer than today, whereas the Central Atlantic/Caribbean Seas were reconstructed to be cooler than modern. Situated at the boundary between these two regions, Bermuda can provide a unique record of Last Interglacial climate. In this dissertation, I conduct and optimize isotopic analyses of modern waters and fossil invertebrates from Bermuda to reconstruct modern hydrology and Last Interglacial climate, respectively. First, I determine the most accurate approach for estimating seasonality by comparing multiple isotopic sampling techniques. Validation of these techniques in the modern, where true seasonality and annual mean temperatures are known, improves our ability to accurately apply these methods toward paleoseasonality reconstruction. This study showed high resolution paleoseasonality reconstruction of temperature and δ18Ow is possible with multiple isotopic sampling techniques, especially when a sampling and analysis framework is chosen that balances resolution and growth rate, a finding which can be extrapolated to other species and time periods. Second, I evaluate modern variability in salinity and the oxygen isotopic composition of water (δ18Ow) across various types of modern water samples collected from Bermuda. Well water samples tapping Bermuda’s main freshwater aquifer show the aquifer has changed shape over recent decades and demonstrate linear mixing of seawater and freshwater underground. Seawater samples from the South Shore show variability in δ18Ow on the order of ~2.4‰ on monthly timescales and up to 1.4‰ on hourly timescales. We propose that this significantly greater variability in δ18Ow ... Thesis Greenland Iceland Nordic Seas North Atlantic University of Michigan: Deep Blue Greenland |
institution |
Open Polar |
collection |
University of Michigan: Deep Blue |
op_collection_id |
ftumdeepblue |
language |
English |
topic |
Isotope Geochemistry Last Interglacial Bermuda Hydrology Paleoclimate Geology and Earth Sciences Science |
spellingShingle |
Isotope Geochemistry Last Interglacial Bermuda Hydrology Paleoclimate Geology and Earth Sciences Science Zhang, Jade Paleoclimate and Hydrology of Bermuda from the Last Interglacial to Today Using Oxygen and Clumped Isotope Geochemistry |
topic_facet |
Isotope Geochemistry Last Interglacial Bermuda Hydrology Paleoclimate Geology and Earth Sciences Science |
description |
The Last Interglacial (LIG), also known as Marine Isotope Stage 5e (MIS 5e), was an interval with climate as warm or slightly warmer than today. Global mean sea surface temperatures were reconstructed to be ~2°C warmer than present, accompanied by a ~6-9m increase in the sea level. At the regional scale, this warming was non-uniform. The North Atlantic/Greenland/Iceland/Nordic Seas were reconstructed to be warmer than today, whereas the Central Atlantic/Caribbean Seas were reconstructed to be cooler than modern. Situated at the boundary between these two regions, Bermuda can provide a unique record of Last Interglacial climate. In this dissertation, I conduct and optimize isotopic analyses of modern waters and fossil invertebrates from Bermuda to reconstruct modern hydrology and Last Interglacial climate, respectively. First, I determine the most accurate approach for estimating seasonality by comparing multiple isotopic sampling techniques. Validation of these techniques in the modern, where true seasonality and annual mean temperatures are known, improves our ability to accurately apply these methods toward paleoseasonality reconstruction. This study showed high resolution paleoseasonality reconstruction of temperature and δ18Ow is possible with multiple isotopic sampling techniques, especially when a sampling and analysis framework is chosen that balances resolution and growth rate, a finding which can be extrapolated to other species and time periods. Second, I evaluate modern variability in salinity and the oxygen isotopic composition of water (δ18Ow) across various types of modern water samples collected from Bermuda. Well water samples tapping Bermuda’s main freshwater aquifer show the aquifer has changed shape over recent decades and demonstrate linear mixing of seawater and freshwater underground. Seawater samples from the South Shore show variability in δ18Ow on the order of ~2.4‰ on monthly timescales and up to 1.4‰ on hourly timescales. We propose that this significantly greater variability in δ18Ow ... |
author2 |
Petersen, Sierra Victoria Gronewold, Andrew Levin, Naomi Lohmann, Kyger C |
format |
Thesis |
author |
Zhang, Jade |
author_facet |
Zhang, Jade |
author_sort |
Zhang, Jade |
title |
Paleoclimate and Hydrology of Bermuda from the Last Interglacial to Today Using Oxygen and Clumped Isotope Geochemistry |
title_short |
Paleoclimate and Hydrology of Bermuda from the Last Interglacial to Today Using Oxygen and Clumped Isotope Geochemistry |
title_full |
Paleoclimate and Hydrology of Bermuda from the Last Interglacial to Today Using Oxygen and Clumped Isotope Geochemistry |
title_fullStr |
Paleoclimate and Hydrology of Bermuda from the Last Interglacial to Today Using Oxygen and Clumped Isotope Geochemistry |
title_full_unstemmed |
Paleoclimate and Hydrology of Bermuda from the Last Interglacial to Today Using Oxygen and Clumped Isotope Geochemistry |
title_sort |
paleoclimate and hydrology of bermuda from the last interglacial to today using oxygen and clumped isotope geochemistry |
publishDate |
2023 |
url |
https://hdl.handle.net/2027.42/177845 https://doi.org/10.7302/8302 |
geographic |
Greenland |
geographic_facet |
Greenland |
genre |
Greenland Iceland Nordic Seas North Atlantic |
genre_facet |
Greenland Iceland Nordic Seas North Atlantic |
op_relation |
https://hdl.handle.net/2027.42/177845 https://dx.doi.org/10.7302/8302 orcid:0000-0002-9967-5029 Zhang, Jade; 0000-0002-9967-5029 |
op_doi |
https://doi.org/10.7302/8302 |
_version_ |
1787424968651309056 |