Prokaryotes in the WAIS Divide ice core reflect source and transport changes between Last Glacial Maximum and the early Holocene.

We present the first long-term, highly resolved prokaryotic cell concentration record obtained from a polar ice core. This record, obtained from the West Antarctic Ice Sheet (WAIS) Divide (WD) ice core, spanned from the Last Glacial Maximum (LGM) to the early Holocene (EH) and showed distinct fluctu...

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Main Authors: Santibáñez, Pamela A, Maselli, Olivia J, Greenwood, Mark C, Grieman, Mackenzie M, Saltzman, Eric S, McConnell, Joseph R, Priscu, John C
Format: Article in Journal/Newspaper
Language:unknown
Published: eScholarship, University of California 2018
Subjects:
Bacteria
Archaea
Sodium
Ice Cover
Models
Theoretical
Time Factors
History
Ancient
Antarctic Regions
Antarctic ice core
Last Deglaciation
Last Glacial Maximum
West Antarctic Ice Sheet Divide
early Holocene
prokaryotes
Ecology
Biological Sciences
Environmental Sciences
Antarctic
West Antarctic Ice Sheet
Antarc*
ice core
Ice Sheet
Sea ice
Online Access:https://escholarship.org/uc/item/3bz1z3gf
id ftcdlib:oai:escholarship.org/ark:/13030/qt3bz1z3gf
record_format openpolar
spelling ftcdlib:oai:escholarship.org/ark:/13030/qt3bz1z3gf 2023-05-15T14:02:50+02:00 Prokaryotes in the WAIS Divide ice core reflect source and transport changes between Last Glacial Maximum and the early Holocene. Santibáñez, Pamela A Maselli, Olivia J Greenwood, Mark C Grieman, Mackenzie M Saltzman, Eric S McConnell, Joseph R Priscu, John C 2182 - 2197 2018-05-01 application/pdf https://escholarship.org/uc/item/3bz1z3gf unknown eScholarship, University of California qt3bz1z3gf https://escholarship.org/uc/item/3bz1z3gf public Global change biology, vol 24, iss 5 Bacteria Archaea Sodium Ice Cover Models Theoretical Time Factors History Ancient Antarctic Regions Antarctic ice core Last Deglaciation Last Glacial Maximum West Antarctic Ice Sheet Divide early Holocene prokaryotes Ecology Biological Sciences Environmental Sciences article 2018 ftcdlib 2020-01-24T23:56:05Z We present the first long-term, highly resolved prokaryotic cell concentration record obtained from a polar ice core. This record, obtained from the West Antarctic Ice Sheet (WAIS) Divide (WD) ice core, spanned from the Last Glacial Maximum (LGM) to the early Holocene (EH) and showed distinct fluctuations in prokaryotic cell concentration coincident with major climatic states. The time series also revealed a ~1,500-year periodicity with greater amplitude during the Last Deglaciation (LDG). Higher prokaryotic cell concentration and lower variability occurred during the LGM and EH than during the LDG. A sevenfold decrease in prokaryotic cell concentration coincided with the LGM/LDG transition and the global 19 ka meltwater pulse. Statistical models revealed significant relationships between the prokaryotic cell record and tracers of both marine (sea-salt sodium [ssNa]) and burning emissions (black carbon [BC]). Collectively, these models, together with visual observations and methanosulfidic acid (MSA) measurements, indicated that the temporal variability in concentration of airborne prokaryotic cells reflected changes in marine/sea-ice regional environments of the WAIS. Our data revealed that variations in source and transport were the most likely processes producing the significant temporal variations in WD prokaryotic cell concentrations. This record provided strong evidence that airborne prokaryotic cell deposition differed during the LGM, LDG, and EH, and that these changes in cell densities could be explained by different environmental conditions during each of these climatic periods. Our observations provide the first ice-core time series evidence for a prokaryotic response to long-term climatic and environmental processes. Article in Journal/Newspaper Antarc* Antarctic ice core Ice Sheet Sea ice University of California: eScholarship Antarctic West Antarctic Ice Sheet
institution Open Polar
collection University of California: eScholarship
op_collection_id ftcdlib
language unknown
topic Bacteria
Archaea
Sodium
Ice Cover
Models
Theoretical
Time Factors
History
Ancient
Antarctic Regions
Antarctic ice core
Last Deglaciation
Last Glacial Maximum
West Antarctic Ice Sheet Divide
early Holocene
prokaryotes
Ecology
Biological Sciences
Environmental Sciences
spellingShingle Bacteria
Archaea
Sodium
Ice Cover
Models
Theoretical
Time Factors
History
Ancient
Antarctic Regions
Antarctic ice core
Last Deglaciation
Last Glacial Maximum
West Antarctic Ice Sheet Divide
early Holocene
prokaryotes
Ecology
Biological Sciences
Environmental Sciences
Santibáñez, Pamela A
Maselli, Olivia J
Greenwood, Mark C
Grieman, Mackenzie M
Saltzman, Eric S
McConnell, Joseph R
Priscu, John C
Prokaryotes in the WAIS Divide ice core reflect source and transport changes between Last Glacial Maximum and the early Holocene.
topic_facet Bacteria
Archaea
Sodium
Ice Cover
Models
Theoretical
Time Factors
History
Ancient
Antarctic Regions
Antarctic ice core
Last Deglaciation
Last Glacial Maximum
West Antarctic Ice Sheet Divide
early Holocene
prokaryotes
Ecology
Biological Sciences
Environmental Sciences
description We present the first long-term, highly resolved prokaryotic cell concentration record obtained from a polar ice core. This record, obtained from the West Antarctic Ice Sheet (WAIS) Divide (WD) ice core, spanned from the Last Glacial Maximum (LGM) to the early Holocene (EH) and showed distinct fluctuations in prokaryotic cell concentration coincident with major climatic states. The time series also revealed a ~1,500-year periodicity with greater amplitude during the Last Deglaciation (LDG). Higher prokaryotic cell concentration and lower variability occurred during the LGM and EH than during the LDG. A sevenfold decrease in prokaryotic cell concentration coincided with the LGM/LDG transition and the global 19 ka meltwater pulse. Statistical models revealed significant relationships between the prokaryotic cell record and tracers of both marine (sea-salt sodium [ssNa]) and burning emissions (black carbon [BC]). Collectively, these models, together with visual observations and methanosulfidic acid (MSA) measurements, indicated that the temporal variability in concentration of airborne prokaryotic cells reflected changes in marine/sea-ice regional environments of the WAIS. Our data revealed that variations in source and transport were the most likely processes producing the significant temporal variations in WD prokaryotic cell concentrations. This record provided strong evidence that airborne prokaryotic cell deposition differed during the LGM, LDG, and EH, and that these changes in cell densities could be explained by different environmental conditions during each of these climatic periods. Our observations provide the first ice-core time series evidence for a prokaryotic response to long-term climatic and environmental processes.
format Article in Journal/Newspaper
author Santibáñez, Pamela A
Maselli, Olivia J
Greenwood, Mark C
Grieman, Mackenzie M
Saltzman, Eric S
McConnell, Joseph R
Priscu, John C
author_facet Santibáñez, Pamela A
Maselli, Olivia J
Greenwood, Mark C
Grieman, Mackenzie M
Saltzman, Eric S
McConnell, Joseph R
Priscu, John C
author_sort Santibáñez, Pamela A
title Prokaryotes in the WAIS Divide ice core reflect source and transport changes between Last Glacial Maximum and the early Holocene.
title_short Prokaryotes in the WAIS Divide ice core reflect source and transport changes between Last Glacial Maximum and the early Holocene.
title_full Prokaryotes in the WAIS Divide ice core reflect source and transport changes between Last Glacial Maximum and the early Holocene.
title_fullStr Prokaryotes in the WAIS Divide ice core reflect source and transport changes between Last Glacial Maximum and the early Holocene.
title_full_unstemmed Prokaryotes in the WAIS Divide ice core reflect source and transport changes between Last Glacial Maximum and the early Holocene.
title_sort prokaryotes in the wais divide ice core reflect source and transport changes between last glacial maximum and the early holocene.
publisher eScholarship, University of California
publishDate 2018
url https://escholarship.org/uc/item/3bz1z3gf
op_coverage 2182 - 2197
geographic Antarctic
West Antarctic Ice Sheet
geographic_facet Antarctic
West Antarctic Ice Sheet
genre Antarc*
Antarctic
ice core
Ice Sheet
Sea ice
genre_facet Antarc*
Antarctic
ice core
Ice Sheet
Sea ice
op_source Global change biology, vol 24, iss 5
op_relation qt3bz1z3gf
https://escholarship.org/uc/item/3bz1z3gf
op_rights public
_version_ 1766273245988782080

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