The Moist Adiabat, Key of the Climate Response to Anthropogenic Forcing

A straightforward mechanism based on properties of the moist adiabat is proposed to construe the observed latitudinal and longitudinal distribution of the anthropogenic forcing efficiency. Considering precipitation patterns at the planetary scale, idealized environmental adiabats leading to low-pres...

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Published in:Climate
Main Author: Jean-Louis Pinault
Format: Text
Language:English
Published: Multidisciplinary Digital Publishing Institute 2020
Subjects:
anthropogenic forcing efficiency
moist adiabat
saturated absorption band of water vapor
outgoing longwave radiation
Arctic amplification
Arctic
Online Access:https://doi.org/10.3390/cli8030045
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spelling ftmdpi:oai:mdpi.com:/2225-1154/8/3/45/ 2023-08-20T04:04:23+02:00 The Moist Adiabat, Key of the Climate Response to Anthropogenic Forcing Jean-Louis Pinault agris 2020-03-16 application/pdf https://doi.org/10.3390/cli8030045 EN eng Multidisciplinary Digital Publishing Institute https://dx.doi.org/10.3390/cli8030045 https://creativecommons.org/licenses/by/4.0/ Climate; Volume 8; Issue 3; Pages: 45 anthropogenic forcing efficiency moist adiabat saturated absorption band of water vapor outgoing longwave radiation Arctic amplification Text 2020 ftmdpi https://doi.org/10.3390/cli8030045 2023-07-31T23:14:46Z A straightforward mechanism based on properties of the moist adiabat is proposed to construe the observed latitudinal and longitudinal distribution of the anthropogenic forcing efficiency. Considering precipitation patterns at the planetary scale, idealized environmental adiabats leading to low-pressure systems are deduced. When the climate system responds to a small perturbation, which reflects radiative forcing that follows increasing anthropogenic emissions, the dry and moist adiabatic lapse rates move away from each other as the temperature of the moist adiabat at the altitude z = 0 increases. When the atmosphere becomes unstable, under the influence of the perturbation, a positive feedback loop occurs because of a transient change in the emission level height of outgoing longwave radiation in the saturated absorption bands of water vapor. During these periods of instability, the perturbation of the climate system is exerted with the concomitant warming of the surface temperature. In contrast, the return of the surface temperature to its initial value before the development of the cyclonic system is very slow because heat exchanges are mainly ruled by latent and sensible heat fluxes. Consequently, the mean surface temperature turns out to result from successive events with asymmetrical surface–atmosphere heat exchanges. The forcing efficiency differs according to whether atmospheric instability has a continental or oceanic origin. Hence the rendition of the latitudinal and longitudinal distribution of the observed surface temperature response to anthropogenic forcing, which specifies in detail the mechanisms involved in the various climate systems, including the Arctic amplification. Text Arctic MDPI Open Access Publishing Arctic Climate 8 3 45
institution Open Polar
collection MDPI Open Access Publishing
op_collection_id ftmdpi
language English
topic anthropogenic forcing efficiency
moist adiabat
saturated absorption band of water vapor
outgoing longwave radiation
Arctic amplification
spellingShingle anthropogenic forcing efficiency
moist adiabat
saturated absorption band of water vapor
outgoing longwave radiation
Arctic amplification
Jean-Louis Pinault
The Moist Adiabat, Key of the Climate Response to Anthropogenic Forcing
topic_facet anthropogenic forcing efficiency
moist adiabat
saturated absorption band of water vapor
outgoing longwave radiation
Arctic amplification
description A straightforward mechanism based on properties of the moist adiabat is proposed to construe the observed latitudinal and longitudinal distribution of the anthropogenic forcing efficiency. Considering precipitation patterns at the planetary scale, idealized environmental adiabats leading to low-pressure systems are deduced. When the climate system responds to a small perturbation, which reflects radiative forcing that follows increasing anthropogenic emissions, the dry and moist adiabatic lapse rates move away from each other as the temperature of the moist adiabat at the altitude z = 0 increases. When the atmosphere becomes unstable, under the influence of the perturbation, a positive feedback loop occurs because of a transient change in the emission level height of outgoing longwave radiation in the saturated absorption bands of water vapor. During these periods of instability, the perturbation of the climate system is exerted with the concomitant warming of the surface temperature. In contrast, the return of the surface temperature to its initial value before the development of the cyclonic system is very slow because heat exchanges are mainly ruled by latent and sensible heat fluxes. Consequently, the mean surface temperature turns out to result from successive events with asymmetrical surface–atmosphere heat exchanges. The forcing efficiency differs according to whether atmospheric instability has a continental or oceanic origin. Hence the rendition of the latitudinal and longitudinal distribution of the observed surface temperature response to anthropogenic forcing, which specifies in detail the mechanisms involved in the various climate systems, including the Arctic amplification.
format Text
author Jean-Louis Pinault
author_facet Jean-Louis Pinault
author_sort Jean-Louis Pinault
title The Moist Adiabat, Key of the Climate Response to Anthropogenic Forcing
title_short The Moist Adiabat, Key of the Climate Response to Anthropogenic Forcing
title_full The Moist Adiabat, Key of the Climate Response to Anthropogenic Forcing
title_fullStr The Moist Adiabat, Key of the Climate Response to Anthropogenic Forcing
title_full_unstemmed The Moist Adiabat, Key of the Climate Response to Anthropogenic Forcing
title_sort moist adiabat, key of the climate response to anthropogenic forcing
publisher Multidisciplinary Digital Publishing Institute
publishDate 2020
url https://doi.org/10.3390/cli8030045
op_coverage agris
geographic Arctic
geographic_facet Arctic
genre Arctic
genre_facet Arctic
op_source Climate; Volume 8; Issue 3; Pages: 45
op_relation https://dx.doi.org/10.3390/cli8030045
op_rights https://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.3390/cli8030045
container_title Climate
container_volume 8
container_issue 3
container_start_page 45
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