The magnitude of regional cooling across Southern Patagonia during the Antarctic Cold Reversal and Younger Dryas determined by glacier modelling

Determining the magnitude, timing and regional extent of past abrupt climate change events is crucial to resolve the spatial patterns and determine mechanism that drive rapid climate fluctuations. This thesis presents glacier model based quantitative paleotemperature reconstructions from two mountai...

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Main Author:	Ruby Muir
Format:	Thesis
Language:	unknown
Published:	2022
Subjects:	Glaciology Palaeoclimatology Glacier modelling Antarctic Cold Reversal Paleoclimate reconstruction School: School of Geography Environment and Earth Sciences Unit: Antarctic Research Centre 040602 Glaciology 040605 Palaeoclimatology 190599 Understanding climate change not elsewhere classified Degree Discipline: Physical Geography Degree Level: Masters Degree Name: Master of Science Antarctic New Zealand Pacific Patagonia The Antarctic Antarc* Antarctica
Online Access:	https://doi.org/10.26686/wgtn.21128218 https://figshare.com/articles/thesis/The_magnitude_of_regional_cooling_across_Southern_Patagonia_during_the_Antarctic_Cold_Reversal_and_Younger_Dryas_determined_by_glacier_modelling/21128218

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spelling	ftvictoriauwfig:oai:figshare.com:article/21128218 2023-05-15T14:08:45+02:00 The magnitude of regional cooling across Southern Patagonia during the Antarctic Cold Reversal and Younger Dryas determined by glacier modelling Ruby Muir 2022-09-16T00:00:00Z https://doi.org/10.26686/wgtn.21128218 https://figshare.com/articles/thesis/The_magnitude_of_regional_cooling_across_Southern_Patagonia_during_the_Antarctic_Cold_Reversal_and_Younger_Dryas_determined_by_glacier_modelling/21128218 unknown doi:10.26686/wgtn.21128218 https://figshare.com/articles/thesis/The_magnitude_of_regional_cooling_across_Southern_Patagonia_during_the_Antarctic_Cold_Reversal_and_Younger_Dryas_determined_by_glacier_modelling/21128218 Author Retains Copyright Glaciology Palaeoclimatology Glacier modelling Antarctic Cold Reversal Paleoclimate reconstruction School: School of Geography Environment and Earth Sciences Unit: Antarctic Research Centre 040602 Glaciology 040605 Palaeoclimatology 190599 Understanding climate change not elsewhere classified Degree Discipline: Physical Geography Degree Level: Masters Degree Name: Master of Science Text Thesis 2022 ftvictoriauwfig https://doi.org/10.26686/wgtn.21128218 2023-03-16T00:13:52Z Determining the magnitude, timing and regional extent of past abrupt climate change events is crucial to resolve the spatial patterns and determine mechanism that drive rapid climate fluctuations. This thesis presents glacier model based quantitative paleotemperature reconstructions from two mountain glaciers in Southern Patagoniathat encompass the Late Glacial (c. 14.6–12.8 ka). Temperature anomalies resolved across a series of closely spaced Antarctic Cold Reversal (ACR; c. 14.5-12.9 ka) moraines were -3.0--2.6 °C at 47°S and -2.7--2.4 °C at 44°S. In both locations this was followed by either a precipitation reduction of 15-20 %, or a warming of +0.3°C from the Antarctic Cold Reversal moraines to moraines dated to the Younger Dryas (c. 12.9-11.7 ka). These anomalies show a shared, regional response across this latitude range in Patagonia, that follows the Antarctica temperature record. Further, the anomalies determined are a similar magnitude to glacier model based Antarctic Cold Reversal temperatures in New Zealand across the latitudes of 39-44 °S. This is evidence for a shared trans-Pacific climate response across the mid to high latitudes (47-39 °S) throughout the Late Glacial, that is best explained by a northward expansion of the southern westerly winds during the Antarctic Cold Reversal. These reconstructions were produced using globally available, remote sensing-based glacier datasets, and global reanalysis climate datasets. The methodology applied presents an efficient paleoclimate reconstruction approach, which could be applied to the growing database of dated glacial moraines to produce a consistent, globally distributed, paleotemperature dataset. Thesis Antarc* Antarctic Antarctica Open Access Victoria University of Wellington / Te Herenga Waka Antarctic New Zealand Pacific Patagonia The Antarctic
institution	Open Polar
collection	Open Access Victoria University of Wellington / Te Herenga Waka
op_collection_id	ftvictoriauwfig
language	unknown
topic	Glaciology Palaeoclimatology Glacier modelling Antarctic Cold Reversal Paleoclimate reconstruction School: School of Geography Environment and Earth Sciences Unit: Antarctic Research Centre 040602 Glaciology 040605 Palaeoclimatology 190599 Understanding climate change not elsewhere classified Degree Discipline: Physical Geography Degree Level: Masters Degree Name: Master of Science
spellingShingle	Glaciology Palaeoclimatology Glacier modelling Antarctic Cold Reversal Paleoclimate reconstruction School: School of Geography Environment and Earth Sciences Unit: Antarctic Research Centre 040602 Glaciology 040605 Palaeoclimatology 190599 Understanding climate change not elsewhere classified Degree Discipline: Physical Geography Degree Level: Masters Degree Name: Master of Science Ruby Muir The magnitude of regional cooling across Southern Patagonia during the Antarctic Cold Reversal and Younger Dryas determined by glacier modelling
topic_facet	Glaciology Palaeoclimatology Glacier modelling Antarctic Cold Reversal Paleoclimate reconstruction School: School of Geography Environment and Earth Sciences Unit: Antarctic Research Centre 040602 Glaciology 040605 Palaeoclimatology 190599 Understanding climate change not elsewhere classified Degree Discipline: Physical Geography Degree Level: Masters Degree Name: Master of Science
description	Determining the magnitude, timing and regional extent of past abrupt climate change events is crucial to resolve the spatial patterns and determine mechanism that drive rapid climate fluctuations. This thesis presents glacier model based quantitative paleotemperature reconstructions from two mountain glaciers in Southern Patagoniathat encompass the Late Glacial (c. 14.6–12.8 ka). Temperature anomalies resolved across a series of closely spaced Antarctic Cold Reversal (ACR; c. 14.5-12.9 ka) moraines were -3.0--2.6 °C at 47°S and -2.7--2.4 °C at 44°S. In both locations this was followed by either a precipitation reduction of 15-20 %, or a warming of +0.3°C from the Antarctic Cold Reversal moraines to moraines dated to the Younger Dryas (c. 12.9-11.7 ka). These anomalies show a shared, regional response across this latitude range in Patagonia, that follows the Antarctica temperature record. Further, the anomalies determined are a similar magnitude to glacier model based Antarctic Cold Reversal temperatures in New Zealand across the latitudes of 39-44 °S. This is evidence for a shared trans-Pacific climate response across the mid to high latitudes (47-39 °S) throughout the Late Glacial, that is best explained by a northward expansion of the southern westerly winds during the Antarctic Cold Reversal. These reconstructions were produced using globally available, remote sensing-based glacier datasets, and global reanalysis climate datasets. The methodology applied presents an efficient paleoclimate reconstruction approach, which could be applied to the growing database of dated glacial moraines to produce a consistent, globally distributed, paleotemperature dataset.
format	Thesis
author	Ruby Muir
author_facet	Ruby Muir
author_sort	Ruby Muir
title	The magnitude of regional cooling across Southern Patagonia during the Antarctic Cold Reversal and Younger Dryas determined by glacier modelling
title_short	The magnitude of regional cooling across Southern Patagonia during the Antarctic Cold Reversal and Younger Dryas determined by glacier modelling
title_full	The magnitude of regional cooling across Southern Patagonia during the Antarctic Cold Reversal and Younger Dryas determined by glacier modelling
title_fullStr	The magnitude of regional cooling across Southern Patagonia during the Antarctic Cold Reversal and Younger Dryas determined by glacier modelling
title_full_unstemmed	The magnitude of regional cooling across Southern Patagonia during the Antarctic Cold Reversal and Younger Dryas determined by glacier modelling
title_sort	magnitude of regional cooling across southern patagonia during the antarctic cold reversal and younger dryas determined by glacier modelling
publishDate	2022
url	https://doi.org/10.26686/wgtn.21128218 https://figshare.com/articles/thesis/The_magnitude_of_regional_cooling_across_Southern_Patagonia_during_the_Antarctic_Cold_Reversal_and_Younger_Dryas_determined_by_glacier_modelling/21128218
geographic	Antarctic New Zealand Pacific Patagonia The Antarctic
geographic_facet	Antarctic New Zealand Pacific Patagonia The Antarctic
genre	Antarc* Antarctic Antarctica
genre_facet	Antarc* Antarctic Antarctica
op_relation	doi:10.26686/wgtn.21128218 https://figshare.com/articles/thesis/The_magnitude_of_regional_cooling_across_Southern_Patagonia_during_the_Antarctic_Cold_Reversal_and_Younger_Dryas_determined_by_glacier_modelling/21128218
op_rights	Author Retains Copyright
op_doi	https://doi.org/10.26686/wgtn.21128218
_version_	1766280786215960576

The magnitude of regional cooling across Southern Patagonia during the Antarctic Cold Reversal and Younger Dryas determined by glacier modelling

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