Lower Tropospheric Temperatures 1978-2016: The Role Played By Anthropogenic Global Warming

The slowdown in tropospheric temperature increase between 1997-2016 led some commentators in Australia (and elsewhere) to repeat earlier assertions that there is an absence of any relationship between anthropogenic carbon dioxide increase and global air temperature. Here we test the null hypothesis...

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Veröffentlicht in:	Journal of Southern Hemisphere earth systems science 2017, Vol.67 (1), p.2
1. Verfasser:	Ayers, G. P.
Format:	Artikel
Sprache:	eng
Schlagworte:	Air temperature Anthropogenic factors Carbon dioxide Climate Climate change Climate system Climate variability Gases Global temperatures Global warming Greenhouse effect Greenhouse gases Satellites Temperature Troposphere Variability Variance analysis
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container_title	Journal of Southern Hemisphere earth systems science
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creator	Ayers, G. P.
description	The slowdown in tropospheric temperature increase between 1997-2016 led some commentators in Australia (and elsewhere) to repeat earlier assertions that there is an absence of any relationship between anthropogenic carbon dioxide increase and global air temperature. Here we test the null hypothesis that anthropogenic greenhouse forcing makes no contribution to global mean tropospheric temperature by analysing a satellite-derived lower tropospheric temperature record since 1978. A well-known heuristic model that separates variance in air temperature into components from different sources of climate variability is employed to determine what contribution anthropogenic greenhouse gases made to satellite-measured lower tropospheric temperature. Over the satellite record from December 1978 to the January 2016 the anthropogenic contribution to lower tropospheric temperature is estimated to be between +0.29 and +0.34K. Over the shorter segment of the record from December 1997 to January 2016 an anthropogenic contribution of +0.15K to the satellite-derived lower tropospheric air temperature was found. The slowdown in rate of temperature increase in that period is found simply to be a consequence of internal climate system variability that at other times has the opposite effect. The null hypothesis of no relationship between lower troposphere temperature and greenhouse gas increase is rejected.
doi_str_mv	10.1071/ES17002
format	Article
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P.</creator><creatorcontrib>Ayers, G. P.</creatorcontrib><description>The slowdown in tropospheric temperature increase between 1997-2016 led some commentators in Australia (and elsewhere) to repeat earlier assertions that there is an absence of any relationship between anthropogenic carbon dioxide increase and global air temperature. Here we test the null hypothesis that anthropogenic greenhouse forcing makes no contribution to global mean tropospheric temperature by analysing a satellite-derived lower tropospheric temperature record since 1978. A well-known heuristic model that separates variance in air temperature into components from different sources of climate variability is employed to determine what contribution anthropogenic greenhouse gases made to satellite-measured lower tropospheric temperature. Over the satellite record from December 1978 to the January 2016 the anthropogenic contribution to lower tropospheric temperature is estimated to be between +0.29 and +0.34K. 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A well-known heuristic model that separates variance in air temperature into components from different sources of climate variability is employed to determine what contribution anthropogenic greenhouse gases made to satellite-measured lower tropospheric temperature. Over the satellite record from December 1978 to the January 2016 the anthropogenic contribution to lower tropospheric temperature is estimated to be between +0.29 and +0.34K. Over the shorter segment of the record from December 1997 to January 2016 an anthropogenic contribution of +0.15K to the satellite-derived lower tropospheric air temperature was found. The slowdown in rate of temperature increase in that period is found simply to be a consequence of internal climate system variability that at other times has the opposite effect. 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subjects	Air temperature Anthropogenic factors Carbon dioxide Climate Climate change Climate system Climate variability Gases Global temperatures Global warming Greenhouse effect Greenhouse gases Satellites Temperature Troposphere Variability Variance analysis
title	Lower Tropospheric Temperatures 1978-2016: The Role Played By Anthropogenic Global Warming
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