The Climate of the Eocene-Oligocene-Transition during the Antarctic Ice Sheet Buildup: Modern Climate Model Simulations

The Eocene-Oligocene-Transition (EOT) marks the significant change from a ”Green- house” to an ”Icehouse” climate during the Cenozoic (Bohaty et al., 2012). This work presents modelled climate conditions during the EOT and contributes to the discussion about Antarctic glaciation. The strength of thi...

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Bibliographic Details
Main Author: Knahl, Hanna Sophie
Other Authors: Lohmann, Gerrit, Klages, Johann, Gierz, Paul
Format: Thesis
Language:unknown
Published: 2022
Subjects:
Antarctic
Southern Ocean
The Antarctic
Antarc*
Ice Sheet
Sea ice
Online Access:https://epic.awi.de/id/eprint/57933/
https://epic.awi.de/id/eprint/57933/1/Masterthesis-Knahl-EOTclimateandAIS.pdf
https://hdl.handle.net/10013/epic.8059c24b-0298-4787-b20d-929b3318c531
id ftawi:oai:epic.awi.de:57933
record_format openpolar
spelling ftawi:oai:epic.awi.de:57933 2023-10-01T03:52:09+02:00 The Climate of the Eocene-Oligocene-Transition during the Antarctic Ice Sheet Buildup: Modern Climate Model Simulations Knahl, Hanna Sophie Lohmann, Gerrit Klages, Johann Gierz, Paul 2022-12-01 application/pdf https://epic.awi.de/id/eprint/57933/ https://epic.awi.de/id/eprint/57933/1/Masterthesis-Knahl-EOTclimateandAIS.pdf https://hdl.handle.net/10013/epic.8059c24b-0298-4787-b20d-929b3318c531 unknown https://epic.awi.de/id/eprint/57933/1/Masterthesis-Knahl-EOTclimateandAIS.pdf Knahl, H. S. orcid:0009-0009-3315-7825 (2022) The Climate of the Eocene-Oligocene-Transition during the Antarctic Ice Sheet Buildup: Modern Climate Model Simulations / G. Lohmann , J. Klages and P. Gierz (editors) Master thesis, hdl:10013/epic.8059c24b-0298-4787-b20d-929b3318c531 EPIC3 Thesis notRev 2022 ftawi 2023-09-03T23:21:13Z The Eocene-Oligocene-Transition (EOT) marks the significant change from a ”Green- house” to an ”Icehouse” climate during the Cenozoic (Bohaty et al., 2012). This work presents modelled climate conditions during the EOT and contributes to the discussion about Antarctic glaciation. The strength of this work lies in the use of a modern fully- coupled Earth System Model (ESM), the high resolution applied to the polar regions and the strong comparison to proxy data. The model results combined with new West Antarctic proxy data from Klages et al., under review strongly support the hypothesis of an asymmetric Antarctic Ice Sheet (AIS) and West Antarctic deciduous forest vege- tation. Observed CO2 thresholds for Antarctic glaciation are > 840 ppm for the onset of glaciation and < 560 ppm for a continental-scale ice sheet reaching into West Antarc- tica. For the Southern ocean heat transport an intermediate state between a subpolar gyre and an Antarctic Circumpolar Current (ACC) regime is modelled. West Antarc- tic temperatures are several degrees lower compared to proxy data but agree with other modelled temperatures. Summer air temperatures are between 95 − 5◦C. Summer sea surface temperature (SST) ranges within 91 − 5◦C and allow only few summer sea ice. The modelled EOT climate is several degrees warmer than the pre-industrial (PI) cli- mate on all latitudes. The global annual mean air temperature lies almost 5◦C above the reference PI simulation. With 18.0◦C it is relatively low compared to other modelled temperatures. Global vegetation known from proxy data can partly be resolved by the model. Overall, this model supports an ice free West Antarctic during the EOT found in Klages et al., under review and provides a detailed framework for Antarctic ice in global EOT climate dynamics. The largely good agreement with EOT proxy data encourages deep time modelling with AWI-ESM-2.1. Thesis Antarc* Antarctic Ice Sheet Sea ice Southern Ocean Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center) Antarctic Southern Ocean The Antarctic
institution Open Polar
collection Alfred Wegener Institute for Polar- and Marine Research (AWI): ePIC (electronic Publication Information Center)
op_collection_id ftawi
language unknown
description The Eocene-Oligocene-Transition (EOT) marks the significant change from a ”Green- house” to an ”Icehouse” climate during the Cenozoic (Bohaty et al., 2012). This work presents modelled climate conditions during the EOT and contributes to the discussion about Antarctic glaciation. The strength of this work lies in the use of a modern fully- coupled Earth System Model (ESM), the high resolution applied to the polar regions and the strong comparison to proxy data. The model results combined with new West Antarctic proxy data from Klages et al., under review strongly support the hypothesis of an asymmetric Antarctic Ice Sheet (AIS) and West Antarctic deciduous forest vege- tation. Observed CO2 thresholds for Antarctic glaciation are > 840 ppm for the onset of glaciation and < 560 ppm for a continental-scale ice sheet reaching into West Antarc- tica. For the Southern ocean heat transport an intermediate state between a subpolar gyre and an Antarctic Circumpolar Current (ACC) regime is modelled. West Antarc- tic temperatures are several degrees lower compared to proxy data but agree with other modelled temperatures. Summer air temperatures are between 95 − 5◦C. Summer sea surface temperature (SST) ranges within 91 − 5◦C and allow only few summer sea ice. The modelled EOT climate is several degrees warmer than the pre-industrial (PI) cli- mate on all latitudes. The global annual mean air temperature lies almost 5◦C above the reference PI simulation. With 18.0◦C it is relatively low compared to other modelled temperatures. Global vegetation known from proxy data can partly be resolved by the model. Overall, this model supports an ice free West Antarctic during the EOT found in Klages et al., under review and provides a detailed framework for Antarctic ice in global EOT climate dynamics. The largely good agreement with EOT proxy data encourages deep time modelling with AWI-ESM-2.1.
author2 Lohmann, Gerrit
Klages, Johann
Gierz, Paul
format Thesis
author Knahl, Hanna Sophie
spellingShingle Knahl, Hanna Sophie
The Climate of the Eocene-Oligocene-Transition during the Antarctic Ice Sheet Buildup: Modern Climate Model Simulations
author_facet Knahl, Hanna Sophie
author_sort Knahl, Hanna Sophie
title The Climate of the Eocene-Oligocene-Transition during the Antarctic Ice Sheet Buildup: Modern Climate Model Simulations
title_short The Climate of the Eocene-Oligocene-Transition during the Antarctic Ice Sheet Buildup: Modern Climate Model Simulations
title_full The Climate of the Eocene-Oligocene-Transition during the Antarctic Ice Sheet Buildup: Modern Climate Model Simulations
title_fullStr The Climate of the Eocene-Oligocene-Transition during the Antarctic Ice Sheet Buildup: Modern Climate Model Simulations
title_full_unstemmed The Climate of the Eocene-Oligocene-Transition during the Antarctic Ice Sheet Buildup: Modern Climate Model Simulations
title_sort climate of the eocene-oligocene-transition during the antarctic ice sheet buildup: modern climate model simulations
publishDate 2022
url https://epic.awi.de/id/eprint/57933/
https://epic.awi.de/id/eprint/57933/1/Masterthesis-Knahl-EOTclimateandAIS.pdf
https://hdl.handle.net/10013/epic.8059c24b-0298-4787-b20d-929b3318c531
geographic Antarctic
Southern Ocean
The Antarctic
geographic_facet Antarctic
Southern Ocean
The Antarctic
genre Antarc*
Antarctic
Ice Sheet
Sea ice
Southern Ocean
genre_facet Antarc*
Antarctic
Ice Sheet
Sea ice
Southern Ocean
op_source EPIC3
op_relation https://epic.awi.de/id/eprint/57933/1/Masterthesis-Knahl-EOTclimateandAIS.pdf
Knahl, H. S. orcid:0009-0009-3315-7825 (2022) The Climate of the Eocene-Oligocene-Transition during the Antarctic Ice Sheet Buildup: Modern Climate Model Simulations / G. Lohmann , J. Klages and P. Gierz (editors) Master thesis, hdl:10013/epic.8059c24b-0298-4787-b20d-929b3318c531
_version_ 1778517868429705216

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