A quantitative Late Quaternary temperature reconstruction from western Tasmania, Australia

Artículo de publicación ISI Late Quaternary temperature estimates from the mid latitudes of the Australian region suggest a breakdown in the tight coupling observed between oceanic and atmospheric temperatures over the recent past that has significant implications for our understanding of the respon...

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Bibliographic Details
Main Authors: Fletcher, Michael-Shawn, Thomas, Ian
Format: Article in Journal/Newspaper
Language:English
Published: PERGAMON-ELSEVIER SCIENCE LTD 2010
Subjects:
HOLOCENE VEGETATION HISTORY
LAST GLACIAL CYCLE
SEA-SURFACE TEMPERATURE
VOSTOK ICE-CORE
NEW-ZEALAND
SOUTHERN-HEMISPHERE
CLIMATE-CHANGE
SOUTHWEST TASMANIA
SPATIAL AUTOCORRELATION
KING VALLEY
Isi
King Valley
New Zealand
ice core
Online Access:http://www.captura.uchile.cl/handle/2250/13972
id ftunivchilecap:oai:www.captura.uchile.cl:2250/13972
record_format openpolar
spelling ftunivchilecap:oai:www.captura.uchile.cl:2250/13972 2023-05-15T16:39:19+02:00 A quantitative Late Quaternary temperature reconstruction from western Tasmania, Australia Fletcher, Michael-Shawn Thomas, Ian 2010-06-04 http://www.captura.uchile.cl/handle/2250/13972 en eng PERGAMON-ELSEVIER SCIENCE LTD HOLOCENE VEGETATION HISTORY LAST GLACIAL CYCLE SEA-SURFACE TEMPERATURE VOSTOK ICE-CORE NEW-ZEALAND SOUTHERN-HEMISPHERE CLIMATE-CHANGE SOUTHWEST TASMANIA SPATIAL AUTOCORRELATION KING VALLEY Artículo de Revista 2010 ftunivchilecap 2013-12-20T10:27:06Z Artículo de publicación ISI Late Quaternary temperature estimates from the mid latitudes of the Australian region suggest a breakdown in the tight coupling observed between oceanic and atmospheric temperatures over the recent past that has significant implications for our understanding of the response of the Earth’s climate system to global climate change and orbital forcing. Here, we present a pollen-based quantitative temperature reconstruction from the mid latitudes of Australia that spans the last 135 000 years, enabling us to address this critical issue. Gradient analysis of a pollen dataset inclusive of over 1100 Quaternary and modern pollen spectra demonstrates the dominant influence of temperature over Quaternary pollen composition and vegetation change in western Tasmania, Australia. We develop and apply a transfer function for average annual temperature that performs excellently under cross-validation (r2 ¼ 0.76; RMSEP 1 C), is not influenced by spatial autocorrelation and that reveals a remarkably close correlation between oceanic and atmospheric temperature change over the last 135 000 years. Significantly, we report a substantially lower degree of cooling during the LGM/MIS 2 (3.7e4.2 C below present) than previously estimated; a similar degree of cooling during MIS 4 as the LGM (ca 4 C); and a 1 C warming during the Last Interglacial relative to today. We conclude that atmospheric and oceanic temperature changes in this region have remained coupled throughout the substantial climatic shifts associated with glacialeinterglacial cycles over the last 135 000 years.Western Tasmanian pollen records have great potential as a Southern Hemisphere terrestrial palaeothermometer and are critically located to provide significant input in to debates over the occurrence and influence of regional and global climatic episodes in the Southern Hemisphere. Article in Journal/Newspaper ice core Universidad de Chile: Captura Isi ENVELOPE(-38.550,-38.550,65.617,65.617) King Valley ENVELOPE(162.050,162.050,-77.617,-77.617) New Zealand
institution Open Polar
collection Universidad de Chile: Captura
op_collection_id ftunivchilecap
language English
topic HOLOCENE VEGETATION HISTORY
LAST GLACIAL CYCLE
SEA-SURFACE TEMPERATURE
VOSTOK ICE-CORE
NEW-ZEALAND
SOUTHERN-HEMISPHERE
CLIMATE-CHANGE
SOUTHWEST TASMANIA
SPATIAL AUTOCORRELATION
KING VALLEY
spellingShingle HOLOCENE VEGETATION HISTORY
LAST GLACIAL CYCLE
SEA-SURFACE TEMPERATURE
VOSTOK ICE-CORE
NEW-ZEALAND
SOUTHERN-HEMISPHERE
CLIMATE-CHANGE
SOUTHWEST TASMANIA
SPATIAL AUTOCORRELATION
KING VALLEY
Fletcher, Michael-Shawn
Thomas, Ian
A quantitative Late Quaternary temperature reconstruction from western Tasmania, Australia
topic_facet HOLOCENE VEGETATION HISTORY
LAST GLACIAL CYCLE
SEA-SURFACE TEMPERATURE
VOSTOK ICE-CORE
NEW-ZEALAND
SOUTHERN-HEMISPHERE
CLIMATE-CHANGE
SOUTHWEST TASMANIA
SPATIAL AUTOCORRELATION
KING VALLEY
description Artículo de publicación ISI Late Quaternary temperature estimates from the mid latitudes of the Australian region suggest a breakdown in the tight coupling observed between oceanic and atmospheric temperatures over the recent past that has significant implications for our understanding of the response of the Earth’s climate system to global climate change and orbital forcing. Here, we present a pollen-based quantitative temperature reconstruction from the mid latitudes of Australia that spans the last 135 000 years, enabling us to address this critical issue. Gradient analysis of a pollen dataset inclusive of over 1100 Quaternary and modern pollen spectra demonstrates the dominant influence of temperature over Quaternary pollen composition and vegetation change in western Tasmania, Australia. We develop and apply a transfer function for average annual temperature that performs excellently under cross-validation (r2 ¼ 0.76; RMSEP 1 C), is not influenced by spatial autocorrelation and that reveals a remarkably close correlation between oceanic and atmospheric temperature change over the last 135 000 years. Significantly, we report a substantially lower degree of cooling during the LGM/MIS 2 (3.7e4.2 C below present) than previously estimated; a similar degree of cooling during MIS 4 as the LGM (ca 4 C); and a 1 C warming during the Last Interglacial relative to today. We conclude that atmospheric and oceanic temperature changes in this region have remained coupled throughout the substantial climatic shifts associated with glacialeinterglacial cycles over the last 135 000 years.Western Tasmanian pollen records have great potential as a Southern Hemisphere terrestrial palaeothermometer and are critically located to provide significant input in to debates over the occurrence and influence of regional and global climatic episodes in the Southern Hemisphere.
format Article in Journal/Newspaper
author Fletcher, Michael-Shawn
Thomas, Ian
author_facet Fletcher, Michael-Shawn
Thomas, Ian
author_sort Fletcher, Michael-Shawn
title A quantitative Late Quaternary temperature reconstruction from western Tasmania, Australia
title_short A quantitative Late Quaternary temperature reconstruction from western Tasmania, Australia
title_full A quantitative Late Quaternary temperature reconstruction from western Tasmania, Australia
title_fullStr A quantitative Late Quaternary temperature reconstruction from western Tasmania, Australia
title_full_unstemmed A quantitative Late Quaternary temperature reconstruction from western Tasmania, Australia
title_sort quantitative late quaternary temperature reconstruction from western tasmania, australia
publisher PERGAMON-ELSEVIER SCIENCE LTD
publishDate 2010
url http://www.captura.uchile.cl/handle/2250/13972
long_lat ENVELOPE(-38.550,-38.550,65.617,65.617)
ENVELOPE(162.050,162.050,-77.617,-77.617)
geographic Isi
King Valley
New Zealand
geographic_facet Isi
King Valley
New Zealand
genre ice core
genre_facet ice core
_version_ 1766029658224066560

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