Antarctic ice sheet history and stability: baseline palaeoclimate research on the Pagodroma Group, Prince Charles Mountains.

Detailed sedimentary information and palaeontological samples were collected from Battye Glacier Formation, of the Pagodroma Group in the Prince Charles Mountains, an area where little information is presently available. The mid to Upper Cenozoic Pagodroma Group provides direct evidence for past cha...

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Other Authors:	MCMINN, ANDREW (hasPrincipalInvestigator), WHITEHEAD, JASON (processor), Australian Antarctic Data Centre (publisher)
Format:	Dataset
Language:	unknown
Published:	Australian Antarctic Data Centre
Subjects:	climatologyMeteorologyAtmosphere elevation environment geoscientificInformation inlandWaters oceans ICE SHEETS EARTH SCIENCE CRYOSPHERE GLACIERS/ICE SHEETS EROSION LAND SURFACE EROSION/SEDIMENTATION SEDIMENTATION STRATIGRAPHIC SEQUENCE GEOMORPHIC LANDFORMS/PROCESSES TERRIGENOUS SEDIMENTS MARINE SEDIMENTS MACROFOSSILS PALEOCLIMATE LAND RECORDS MICROFOSSILS ANTARCTICA BARDIN BLUFFS FORMATION BENTHIC DIATOM ABUNDANCE CENOZOIC CLASTS DIATOM FISHER BENCH FORMATION FOSSIL PRESERVATION MARINE MCLEOD BEDS MIOCENE MOLLUSC NEOGENE OPAL PAGODROMA GROUP PLIOCENE PRINCE CHARLES MOUNTAINS SAMPLES SEDIMENT SPECIES STRATIGRAPHIC INTERVALS Paleo Start Date Paleo Stop Date PHANEROZOIC &gt CONTINENT &gt ANTARCTICA &gt Amery Oasis GEOGRAPHIC REGION &gt POLAR Antarctic The Antarctic Prydz Bay East Antarctic Ice Sheet Amery Prince Charles Mountains McLeod Battye Glacier Bardin Bluffs Antarc* Antarctica Ice Sheet
Online Access:	https://researchdata.ands.org.au/antarctic-ice-sheet-charles-mountains/699618 https://doi.org/10.4225/15/554AC71C058DA https://data.aad.gov.au/metadata/records/ASAC_1220 http://nla.gov.au/nla.party-617536

id	ftands:oai:ands.org.au::699618
record_format	openpolar
institution	Open Polar
collection	Research Data Australia (Australian National Data Service - ANDS)
op_collection_id	ftands
language	unknown
topic	climatologyMeteorologyAtmosphere elevation environment geoscientificInformation inlandWaters oceans ICE SHEETS EARTH SCIENCE CRYOSPHERE GLACIERS/ICE SHEETS EROSION LAND SURFACE EROSION/SEDIMENTATION SEDIMENTATION STRATIGRAPHIC SEQUENCE GEOMORPHIC LANDFORMS/PROCESSES TERRIGENOUS SEDIMENTS MARINE SEDIMENTS MACROFOSSILS PALEOCLIMATE LAND RECORDS MICROFOSSILS ANTARCTICA BARDIN BLUFFS FORMATION BENTHIC DIATOM ABUNDANCE CENOZOIC CLASTS DIATOM FISHER BENCH FORMATION FOSSIL PRESERVATION MARINE MCLEOD BEDS MIOCENE MOLLUSC NEOGENE OPAL PAGODROMA GROUP PLIOCENE PRINCE CHARLES MOUNTAINS SAMPLES SEDIMENT SPECIES STRATIGRAPHIC INTERVALS Paleo Start Date Paleo Stop Date PHANEROZOIC &gt CONTINENT &gt ANTARCTICA &gt Amery Oasis GEOGRAPHIC REGION &gt POLAR
spellingShingle	climatologyMeteorologyAtmosphere elevation environment geoscientificInformation inlandWaters oceans ICE SHEETS EARTH SCIENCE CRYOSPHERE GLACIERS/ICE SHEETS EROSION LAND SURFACE EROSION/SEDIMENTATION SEDIMENTATION STRATIGRAPHIC SEQUENCE GEOMORPHIC LANDFORMS/PROCESSES TERRIGENOUS SEDIMENTS MARINE SEDIMENTS MACROFOSSILS PALEOCLIMATE LAND RECORDS MICROFOSSILS ANTARCTICA BARDIN BLUFFS FORMATION BENTHIC DIATOM ABUNDANCE CENOZOIC CLASTS DIATOM FISHER BENCH FORMATION FOSSIL PRESERVATION MARINE MCLEOD BEDS MIOCENE MOLLUSC NEOGENE OPAL PAGODROMA GROUP PLIOCENE PRINCE CHARLES MOUNTAINS SAMPLES SEDIMENT SPECIES STRATIGRAPHIC INTERVALS Paleo Start Date Paleo Stop Date PHANEROZOIC &gt CONTINENT &gt ANTARCTICA &gt Amery Oasis GEOGRAPHIC REGION &gt POLAR Antarctic ice sheet history and stability: baseline palaeoclimate research on the Pagodroma Group, Prince Charles Mountains.
topic_facet	climatologyMeteorologyAtmosphere elevation environment geoscientificInformation inlandWaters oceans ICE SHEETS EARTH SCIENCE CRYOSPHERE GLACIERS/ICE SHEETS EROSION LAND SURFACE EROSION/SEDIMENTATION SEDIMENTATION STRATIGRAPHIC SEQUENCE GEOMORPHIC LANDFORMS/PROCESSES TERRIGENOUS SEDIMENTS MARINE SEDIMENTS MACROFOSSILS PALEOCLIMATE LAND RECORDS MICROFOSSILS ANTARCTICA BARDIN BLUFFS FORMATION BENTHIC DIATOM ABUNDANCE CENOZOIC CLASTS DIATOM FISHER BENCH FORMATION FOSSIL PRESERVATION MARINE MCLEOD BEDS MIOCENE MOLLUSC NEOGENE OPAL PAGODROMA GROUP PLIOCENE PRINCE CHARLES MOUNTAINS SAMPLES SEDIMENT SPECIES STRATIGRAPHIC INTERVALS Paleo Start Date Paleo Stop Date PHANEROZOIC &gt CONTINENT &gt ANTARCTICA &gt Amery Oasis GEOGRAPHIC REGION &gt POLAR
description	Detailed sedimentary information and palaeontological samples were collected from Battye Glacier Formation, of the Pagodroma Group in the Prince Charles Mountains, an area where little information is presently available. The mid to Upper Cenozoic Pagodroma Group provides direct evidence for past changes in climate and glacial environments from deep within the Antarctic continent. Evidence from several geological formations in the Pagodroma Group, many of them fossil-bearing, will help to determine the history of fluctuations in climate and the size of the East Antarctic Ice Sheet (EAIS). This will provide baseline data to help validate the predictive numerical models of ice sheet dynamics. There is a clear need to study the response of the EAIS to past times of global warming. Periods of significance include times when atmospheric CO2 levels were similar to today (Poore and Sloan 1996). Another key time interval is during the late Neogene, prior to the development of Northern Hemisphere glaciation, which has largely governed Antarctic Ice Sheet volume changes during the Quaternary (Clapperton and Sugden 1990; Mabin 1990; Huybrechts 1990, 1992). An important aspect of the research is to build onto the geological data-set collected by ODP Leg 119, 120 and 188 in Prydz Bay. These operations have concentrated on the periphery of Antarctica and, therefore, record ice sheet retreat and advance at its outer-limits. The Pagodroma Group provides significant information about ice sheet variation at its the inner reaches. Together, these data-sets will shape our understanding of major fluctuations of the ice sheet through the Cenozoic, and will assist and test the models developed to predict ice sheet behavior in the future. Direct geological evidence for climatic conditions and the extent of the ice sheet during times of glacial retreat can be obtained only from onshore geological records, such as the Pagodroma Group. This is important given the current warming trends, expected ice sheet retreat and global sea-level rise, and general lack of geological data from onshore Antarctica for predicting the effects of this on the EAIS. Fieldwork was conducted during November - December (2000). A number of significant findings were made from the Amery Oasis: 1) New outcrops of the glacio-marine Battye Glacier Formation were located and mapped. Up to 800 m of geological section was logged and sampled. Similar Antarctic records have only been made available through expensive international drilling efforts around the Antarctic shelf. This project highlights that there are extensive records exposed on land, that can be studied for a fraction of the cost of off-shore marine geoscience. 2) Unique diatomaceous marine mudstone deposits were discovered (~9 m thick). This is the most diatomaceous (up to 12% biogenic silica), in situ marine deposit that has have been found from inland Antarctica. Diatom biostratigraphy indicates that the formation is middle - late Miocene in age. 3) In situ and articulate marine mollusc fossil horizons were discovered. These occur over a lateral distance of ~ 1km and provide undisputable evidence for a major ice sheet retreat in the past. 4) Three erratics containing marine mollusc fossils were discovered. These erratic are potentially Cretaceous in age (Stilwell, pers. comm.). This is the first marine sediment of this age found in the Lambert Graben catchment. Eleven pdf figures are available for download from the provided URL. Also included is a text file which explains what each of the figures are. Furthermore, two excel spreadsheets of data are also available. The two excel spreadsheets in the download directly relate to the paper Whitehead, et al (2003). Some explanatory notes for the excel files are: Qualitative assessment of fossil preservation vf = very fragmented with a few intact specimens seen per traverse of a microscope slide. mf = moderately fragmented with an intact specimen seen every few fields of view (at 600x magnification). See Whitehead et al (2003) for more information. Qualitative fossil abundance, where X = (present) one valve (Diatom valves)/fossil seen during entire examination. R = (rare) greater than 3 valves/fossils seen during all microscope traverses on slide. F = (few) greater than 1 valve/fossil per 10 microscope fields of view (at 600x magnification). C = (common) valves/fossils in each microscope field of view (at 600x magnification). The fields in this dataset are: Stratigraphic Intervals Samples Opal% McLeod Beds Bed A clasts Fossil Preservation Benthic Diatom Abundance Species Bardin Bluffs Formation Fisher Bench Formation Diatoms
author2	MCMINN, ANDREW (hasPrincipalInvestigator) WHITEHEAD, JASON (processor) Australian Antarctic Data Centre (publisher)
format	Dataset
title	Antarctic ice sheet history and stability: baseline palaeoclimate research on the Pagodroma Group, Prince Charles Mountains.
title_short	Antarctic ice sheet history and stability: baseline palaeoclimate research on the Pagodroma Group, Prince Charles Mountains.
title_full	Antarctic ice sheet history and stability: baseline palaeoclimate research on the Pagodroma Group, Prince Charles Mountains.
title_fullStr	Antarctic ice sheet history and stability: baseline palaeoclimate research on the Pagodroma Group, Prince Charles Mountains.
title_full_unstemmed	Antarctic ice sheet history and stability: baseline palaeoclimate research on the Pagodroma Group, Prince Charles Mountains.
title_sort	antarctic ice sheet history and stability: baseline palaeoclimate research on the pagodroma group, prince charles mountains.
publisher	Australian Antarctic Data Centre
url	https://researchdata.ands.org.au/antarctic-ice-sheet-charles-mountains/699618 https://doi.org/10.4225/15/554AC71C058DA https://data.aad.gov.au/metadata/records/ASAC_1220 http://nla.gov.au/nla.party-617536
op_coverage	Spatial: northlimit=-70.5401; southlimit=-70.5401; westlimit=68.1093; eastLimit=68.1093; projection=WGS84 Spatial: northlimit=-70.7089; southlimit=-70.7089; westlimit=68.1058; eastLimit=68.1058; projection=WGS84 Spatial: northlimit=-70.7128; southlimit=-70.7128; westlimit=68.1007; eastLimit=68.1007; projection=WGS84 Spatial: northlimit=-70.7146; southlimit=-70.7146; westlimit=68.098; eastLimit=68.098; projection=WGS84 Temporal: From 2000-11-01 to 2000-12-20
long_lat	ENVELOPE(-94.063,-94.063,56.565,56.565) ENVELOPE(67.246,67.246,-71.427,-71.427) ENVELOPE(-127.689,-127.689,55.254,55.254) ENVELOPE(67.900,67.900,-70.867,-70.867) ENVELOPE(68.133,68.133,-70.819,-70.819) ENVELOPE(68.1093,68.1093,-70.5401,-70.5401) ENVELOPE(68.1058,68.1058,-70.7089,-70.7089) ENVELOPE(68.1007,68.1007,-70.7128,-70.7128) ENVELOPE(68.098,68.098,-70.7146,-70.7146)
geographic	Antarctic The Antarctic Prydz Bay East Antarctic Ice Sheet Amery Prince Charles Mountains McLeod Battye Glacier Bardin Bluffs
geographic_facet	Antarctic The Antarctic Prydz Bay East Antarctic Ice Sheet Amery Prince Charles Mountains McLeod Battye Glacier Bardin Bluffs
genre	Antarc* Antarctic Antarctica Battye Glacier Ice Sheet Prince Charles Mountains Prydz Bay
genre_facet	Antarc* Antarctic Antarctica Battye Glacier Ice Sheet Prince Charles Mountains Prydz Bay
op_source	Australian Antarctic Data Centre
op_relation	https://researchdata.ands.org.au/antarctic-ice-sheet-charles-mountains/699618 f8cf85a3-d1b4-4f13-a0c9-6c8795010b0b doi:10.4225/15/554AC71C058DA ASAC_1220 https://data.aad.gov.au/metadata/records/ASAC_1220 http://nla.gov.au/nla.party-617536
op_doi	https://doi.org/10.4225/15/554AC71C058DA
_version_	1766245836787810304
spelling	ftands:oai:ands.org.au::699618 2023-05-15T13:46:57+02:00 Antarctic ice sheet history and stability: baseline palaeoclimate research on the Pagodroma Group, Prince Charles Mountains. MCMINN, ANDREW (hasPrincipalInvestigator) WHITEHEAD, JASON (processor) Australian Antarctic Data Centre (publisher) Spatial: northlimit=-70.5401; southlimit=-70.5401; westlimit=68.1093; eastLimit=68.1093; projection=WGS84 Spatial: northlimit=-70.7089; southlimit=-70.7089; westlimit=68.1058; eastLimit=68.1058; projection=WGS84 Spatial: northlimit=-70.7128; southlimit=-70.7128; westlimit=68.1007; eastLimit=68.1007; projection=WGS84 Spatial: northlimit=-70.7146; southlimit=-70.7146; westlimit=68.098; eastLimit=68.098; projection=WGS84 Temporal: From 2000-11-01 to 2000-12-20 https://researchdata.ands.org.au/antarctic-ice-sheet-charles-mountains/699618 https://doi.org/10.4225/15/554AC71C058DA https://data.aad.gov.au/metadata/records/ASAC_1220 http://nla.gov.au/nla.party-617536 unknown Australian Antarctic Data Centre https://researchdata.ands.org.au/antarctic-ice-sheet-charles-mountains/699618 f8cf85a3-d1b4-4f13-a0c9-6c8795010b0b doi:10.4225/15/554AC71C058DA ASAC_1220 https://data.aad.gov.au/metadata/records/ASAC_1220 http://nla.gov.au/nla.party-617536 Australian Antarctic Data Centre climatologyMeteorologyAtmosphere elevation environment geoscientificInformation inlandWaters oceans ICE SHEETS EARTH SCIENCE CRYOSPHERE GLACIERS/ICE SHEETS EROSION LAND SURFACE EROSION/SEDIMENTATION SEDIMENTATION STRATIGRAPHIC SEQUENCE GEOMORPHIC LANDFORMS/PROCESSES TERRIGENOUS SEDIMENTS MARINE SEDIMENTS MACROFOSSILS PALEOCLIMATE LAND RECORDS MICROFOSSILS ANTARCTICA BARDIN BLUFFS FORMATION BENTHIC DIATOM ABUNDANCE CENOZOIC CLASTS DIATOM FISHER BENCH FORMATION FOSSIL PRESERVATION MARINE MCLEOD BEDS MIOCENE MOLLUSC NEOGENE OPAL PAGODROMA GROUP PLIOCENE PRINCE CHARLES MOUNTAINS SAMPLES SEDIMENT SPECIES STRATIGRAPHIC INTERVALS Paleo Start Date Paleo Stop Date PHANEROZOIC &gt CONTINENT &gt ANTARCTICA &gt Amery Oasis GEOGRAPHIC REGION &gt POLAR dataset ftands https://doi.org/10.4225/15/554AC71C058DA 2020-01-05T21:16:27Z Detailed sedimentary information and palaeontological samples were collected from Battye Glacier Formation, of the Pagodroma Group in the Prince Charles Mountains, an area where little information is presently available. The mid to Upper Cenozoic Pagodroma Group provides direct evidence for past changes in climate and glacial environments from deep within the Antarctic continent. Evidence from several geological formations in the Pagodroma Group, many of them fossil-bearing, will help to determine the history of fluctuations in climate and the size of the East Antarctic Ice Sheet (EAIS). This will provide baseline data to help validate the predictive numerical models of ice sheet dynamics. There is a clear need to study the response of the EAIS to past times of global warming. Periods of significance include times when atmospheric CO2 levels were similar to today (Poore and Sloan 1996). Another key time interval is during the late Neogene, prior to the development of Northern Hemisphere glaciation, which has largely governed Antarctic Ice Sheet volume changes during the Quaternary (Clapperton and Sugden 1990; Mabin 1990; Huybrechts 1990, 1992). An important aspect of the research is to build onto the geological data-set collected by ODP Leg 119, 120 and 188 in Prydz Bay. These operations have concentrated on the periphery of Antarctica and, therefore, record ice sheet retreat and advance at its outer-limits. The Pagodroma Group provides significant information about ice sheet variation at its the inner reaches. Together, these data-sets will shape our understanding of major fluctuations of the ice sheet through the Cenozoic, and will assist and test the models developed to predict ice sheet behavior in the future. Direct geological evidence for climatic conditions and the extent of the ice sheet during times of glacial retreat can be obtained only from onshore geological records, such as the Pagodroma Group. This is important given the current warming trends, expected ice sheet retreat and global sea-level rise, and general lack of geological data from onshore Antarctica for predicting the effects of this on the EAIS. Fieldwork was conducted during November - December (2000). A number of significant findings were made from the Amery Oasis: 1) New outcrops of the glacio-marine Battye Glacier Formation were located and mapped. Up to 800 m of geological section was logged and sampled. Similar Antarctic records have only been made available through expensive international drilling efforts around the Antarctic shelf. This project highlights that there are extensive records exposed on land, that can be studied for a fraction of the cost of off-shore marine geoscience. 2) Unique diatomaceous marine mudstone deposits were discovered (~9 m thick). This is the most diatomaceous (up to 12% biogenic silica), in situ marine deposit that has have been found from inland Antarctica. Diatom biostratigraphy indicates that the formation is middle - late Miocene in age. 3) In situ and articulate marine mollusc fossil horizons were discovered. These occur over a lateral distance of ~ 1km and provide undisputable evidence for a major ice sheet retreat in the past. 4) Three erratics containing marine mollusc fossils were discovered. These erratic are potentially Cretaceous in age (Stilwell, pers. comm.). This is the first marine sediment of this age found in the Lambert Graben catchment. Eleven pdf figures are available for download from the provided URL. Also included is a text file which explains what each of the figures are. Furthermore, two excel spreadsheets of data are also available. The two excel spreadsheets in the download directly relate to the paper Whitehead, et al (2003). Some explanatory notes for the excel files are: Qualitative assessment of fossil preservation vf = very fragmented with a few intact specimens seen per traverse of a microscope slide. mf = moderately fragmented with an intact specimen seen every few fields of view (at 600x magnification). See Whitehead et al (2003) for more information. Qualitative fossil abundance, where X = (present) one valve (Diatom valves)/fossil seen during entire examination. R = (rare) greater than 3 valves/fossils seen during all microscope traverses on slide. F = (few) greater than 1 valve/fossil per 10 microscope fields of view (at 600x magnification). C = (common) valves/fossils in each microscope field of view (at 600x magnification). The fields in this dataset are: Stratigraphic Intervals Samples Opal% McLeod Beds Bed A clasts Fossil Preservation Benthic Diatom Abundance Species Bardin Bluffs Formation Fisher Bench Formation Diatoms Dataset Antarc* Antarctic Antarctica Battye Glacier Ice Sheet Prince Charles Mountains Prydz Bay Research Data Australia (Australian National Data Service - ANDS) Antarctic The Antarctic Prydz Bay East Antarctic Ice Sheet Amery ENVELOPE(-94.063,-94.063,56.565,56.565) Prince Charles Mountains ENVELOPE(67.246,67.246,-71.427,-71.427) McLeod ENVELOPE(-127.689,-127.689,55.254,55.254) Battye Glacier ENVELOPE(67.900,67.900,-70.867,-70.867) Bardin Bluffs ENVELOPE(68.133,68.133,-70.819,-70.819) ENVELOPE(68.1093,68.1093,-70.5401,-70.5401) ENVELOPE(68.1058,68.1058,-70.7089,-70.7089) ENVELOPE(68.1007,68.1007,-70.7128,-70.7128) ENVELOPE(68.098,68.098,-70.7146,-70.7146)

Antarctic ice sheet history and stability: baseline palaeoclimate research on the Pagodroma Group, Prince Charles Mountains.

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