Tracing dust in the Southern Hemisphere over the last glacial cycle

Mineral dust both influences and is influenced by climate on many timescales, from seconds to epochs. Its complex interactions with the climate system are still being unraveled. For example, dust fluxes change in tandem with other records of past changes in climate, and dust source is often presumed...

Full description

Bibliographic Details
Main Author: Borunda, Alejandra
Format: Thesis
Language:English
Published: 2019
Subjects:
Geochemistry
Climatic changes
Mineral dusts
Dust
Atmospheric circulation
Ice cores
Byrd
Marie Byrd Land
Taylor Glacier
West Antarctica
Antarc*
Antarctica
ice core
Online Access:https://doi.org/10.7916/d8-rmak-qn20
id ftcolumbiauniv:oai:academiccommons.columbia.edu:10.7916/d8-rmak-qn20
record_format openpolar
spelling ftcolumbiauniv:oai:academiccommons.columbia.edu:10.7916/d8-rmak-qn20 2023-05-15T13:53:34+02:00 Tracing dust in the Southern Hemisphere over the last glacial cycle Borunda, Alejandra 2019 https://doi.org/10.7916/d8-rmak-qn20 English eng https://doi.org/10.7916/d8-rmak-qn20 Geochemistry Climatic changes Mineral dusts Dust Atmospheric circulation Ice cores Theses 2019 ftcolumbiauniv https://doi.org/10.7916/d8-rmak-qn20 2019-09-28T22:19:38Z Mineral dust both influences and is influenced by climate on many timescales, from seconds to epochs. Its complex interactions with the climate system are still being unraveled. For example, dust fluxes change in tandem with other records of past changes in climate, and dust source is often presumed to change as well, in response to shifts in climate conditions in source regions; changes in wind regimes; or changes in atmospheric transport pathways. In this work, I investigate dust records from the Southern Hemisphere from ice core and marine sediment core climate archives, looking at both flux and provenance in order elucidate the conditions that allowed for those particles to travel from source to sink. Using multiple radiogenic isotope systems as tracers (87Sr/86Sr, εNd(0), 206Pb/207Pb, and 208Pb/207Pb), I geochemically “fingerprint” of dust particles from Southern Hemisphere climate archives over the last glacial cycle. I compare the dust fingerprints to potential source areas (PSA’s) from across the Southern Hemisphere in order to identify the sources of dust found in the WAIS Divide and Taylor Glacier ice cores from West Antarctica, as well as from marine sediment core ELT39.75 in the Tasman Sea. I use endmember mixing theory to determine the relative contribution of different sources to the climate archives over time. In West Antarctica, I geochemically identify specific local volcanoes from Marie Byrd Land as significant particle contributors to the WAIS Divide ice core during the previous glacial period. In the Tasman Sea, I identify a specific region of southeastern Australia as primary the dust source over the past glacial cycle, with the source remaining constant across glacial-interglacial climate transitions. This clarifies that the “fingerprint” of Australian dust is relatively invariant over time and allows a single Australian signature to be used as an endmember for identifying dust provenance in climate archives downwind. I also identify the dust sources in the WAIS Divide during the Last Glacial Maximum and through the early deglacial, identifying southern South America as the predominant source during cold stages. WAIS Divide and Taylor Glacier dust records do not record dust source changes across millennial-scale climate events, suggesting that a) the source regions did not change, b) the transport pathways remained pinned, or c) the proxy is not sensitive to changes in these variables. Contributions from local volcanoes are also inferred from the WAIS dust record using mixing theory. In summary, I find that the radiogenic isotope fingerprint of dust samples from the archives analyzed show subtle or no changes in source over climate transitions, and therefore the strategy of dust particles as a tracer of past atmospheric circulation pathways should be approached cautiously. Thesis Antarc* Antarctica ice core Marie Byrd Land Taylor Glacier West Antarctica Columbia University: Academic Commons Byrd Marie Byrd Land ENVELOPE(-130.000,-130.000,-78.000,-78.000) Taylor Glacier ENVELOPE(162.167,162.167,-77.733,-77.733) West Antarctica
institution Open Polar
collection Columbia University: Academic Commons
op_collection_id ftcolumbiauniv
language English
topic Geochemistry
Climatic changes
Mineral dusts
Dust
Atmospheric circulation
Ice cores
spellingShingle Geochemistry
Climatic changes
Mineral dusts
Dust
Atmospheric circulation
Ice cores
Borunda, Alejandra
Tracing dust in the Southern Hemisphere over the last glacial cycle
topic_facet Geochemistry
Climatic changes
Mineral dusts
Dust
Atmospheric circulation
Ice cores
description Mineral dust both influences and is influenced by climate on many timescales, from seconds to epochs. Its complex interactions with the climate system are still being unraveled. For example, dust fluxes change in tandem with other records of past changes in climate, and dust source is often presumed to change as well, in response to shifts in climate conditions in source regions; changes in wind regimes; or changes in atmospheric transport pathways. In this work, I investigate dust records from the Southern Hemisphere from ice core and marine sediment core climate archives, looking at both flux and provenance in order elucidate the conditions that allowed for those particles to travel from source to sink. Using multiple radiogenic isotope systems as tracers (87Sr/86Sr, εNd(0), 206Pb/207Pb, and 208Pb/207Pb), I geochemically “fingerprint” of dust particles from Southern Hemisphere climate archives over the last glacial cycle. I compare the dust fingerprints to potential source areas (PSA’s) from across the Southern Hemisphere in order to identify the sources of dust found in the WAIS Divide and Taylor Glacier ice cores from West Antarctica, as well as from marine sediment core ELT39.75 in the Tasman Sea. I use endmember mixing theory to determine the relative contribution of different sources to the climate archives over time. In West Antarctica, I geochemically identify specific local volcanoes from Marie Byrd Land as significant particle contributors to the WAIS Divide ice core during the previous glacial period. In the Tasman Sea, I identify a specific region of southeastern Australia as primary the dust source over the past glacial cycle, with the source remaining constant across glacial-interglacial climate transitions. This clarifies that the “fingerprint” of Australian dust is relatively invariant over time and allows a single Australian signature to be used as an endmember for identifying dust provenance in climate archives downwind. I also identify the dust sources in the WAIS Divide during the Last Glacial Maximum and through the early deglacial, identifying southern South America as the predominant source during cold stages. WAIS Divide and Taylor Glacier dust records do not record dust source changes across millennial-scale climate events, suggesting that a) the source regions did not change, b) the transport pathways remained pinned, or c) the proxy is not sensitive to changes in these variables. Contributions from local volcanoes are also inferred from the WAIS dust record using mixing theory. In summary, I find that the radiogenic isotope fingerprint of dust samples from the archives analyzed show subtle or no changes in source over climate transitions, and therefore the strategy of dust particles as a tracer of past atmospheric circulation pathways should be approached cautiously.
format Thesis
author Borunda, Alejandra
author_facet Borunda, Alejandra
author_sort Borunda, Alejandra
title Tracing dust in the Southern Hemisphere over the last glacial cycle
title_short Tracing dust in the Southern Hemisphere over the last glacial cycle
title_full Tracing dust in the Southern Hemisphere over the last glacial cycle
title_fullStr Tracing dust in the Southern Hemisphere over the last glacial cycle
title_full_unstemmed Tracing dust in the Southern Hemisphere over the last glacial cycle
title_sort tracing dust in the southern hemisphere over the last glacial cycle
publishDate 2019
url https://doi.org/10.7916/d8-rmak-qn20
long_lat ENVELOPE(-130.000,-130.000,-78.000,-78.000)
ENVELOPE(162.167,162.167,-77.733,-77.733)
geographic Byrd
Marie Byrd Land
Taylor Glacier
West Antarctica
geographic_facet Byrd
Marie Byrd Land
Taylor Glacier
West Antarctica
genre Antarc*
Antarctica
ice core
Marie Byrd Land
Taylor Glacier
West Antarctica
genre_facet Antarc*
Antarctica
ice core
Marie Byrd Land
Taylor Glacier
West Antarctica
op_relation https://doi.org/10.7916/d8-rmak-qn20
op_doi https://doi.org/10.7916/d8-rmak-qn20
_version_ 1766258763721867264

Similar Items