Substantial Climate Response outside the Target Area in an Idealized Experiment of Regional Radiation Management

Radiation management (RM) has been proposed as a conceivable climate engineering (CE) intervention to mitigate global warming. In this study, we used a coupled climate model (MPI-ESM) with a very idealized setup to investigate the efficacy and risks of CE at a local scale in space and time (regional...

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Published in:Climate
Main Authors: Dipu, Sudhakar, Quaas, Johannes, Quaas, Martin, Rickels, Wilfried, Mülmenstädt, Johannes, Boucher, Olivier
Format: Article in Journal/Newspaper
Language:English
Published: Basel: MDPI 2021
Subjects:
ddc:330
regional radiation management
climate engineering
radiative forcing
Arctic
Pacific
Global warming
Online Access:http://hdl.handle.net/10419/240193
https://doi.org/10.3390/cli9040066
id ftzbwkiel:oai:econstor.eu:10419/240193
record_format openpolar
spelling ftzbwkiel:oai:econstor.eu:10419/240193 2023-12-10T09:46:00+01:00 Substantial Climate Response outside the Target Area in an Idealized Experiment of Regional Radiation Management Dipu, Sudhakar Quaas, Johannes Quaas, Martin Rickels, Wilfried Mülmenstädt, Johannes Boucher, Olivier 2021 http://hdl.handle.net/10419/240193 https://doi.org/10.3390/cli9040066 eng eng Basel: MDPI Journal: Climate ISSN: 2225-1154 Volume: 9 Year: 2021 Issue: 4 Basel: MDPI doi:10.3390/cli9040066 http://hdl.handle.net/10419/240193 RePEc:zbw:ifwkie:240193 http://www.econstor.eu/dspace/Nutzungsbedingungen https://creativecommons.org/licenses/by/4.0/ ddc:330 regional radiation management climate engineering radiative forcing doc-type:article 2021 ftzbwkiel https://doi.org/10.3390/cli9040066 2023-11-13T00:42:34Z Radiation management (RM) has been proposed as a conceivable climate engineering (CE) intervention to mitigate global warming. In this study, we used a coupled climate model (MPI-ESM) with a very idealized setup to investigate the efficacy and risks of CE at a local scale in space and time (regional radiation management, RRM) assuming that cloud modification is technically possible. RM is implemented in the climate model by the brightening of low-level clouds (solar radiation management, SRM) and thinning of cirrus (terrestrial radiation management, TRM). The region chosen is North America, and we simulated a period of 30 years. The implemented sustained RM resulted in a net local radiative forcing of −9.8 Wm−2 and a local cooling of −0.8 K. Surface temperature (SAT) extremes (90th and 10th percentiles) show negative anomalies in the target region. However, substantial climate impacts were also simulated outside the target area, with warming in the Arctic and pronounced precipitation change in the eastern Pacific. As a variant of RRM, a targeted intervention to suppress heat waves (HW) was investigated in further simulations by implementing intermittent cloud modification locally, prior to the simulated HW situations. In most cases, the intermittent RRM results in a successful reduction of temperatures locally, with substantially smaller impacts outside the target area compared to the sustained RRM. Article in Journal/Newspaper Arctic Global warming EconStor (German National Library of Economics, ZBW) Arctic Pacific Climate 9 4 66
institution Open Polar
collection EconStor (German National Library of Economics, ZBW)
op_collection_id ftzbwkiel
language English
topic ddc:330
regional radiation management
climate engineering
radiative forcing
spellingShingle ddc:330
regional radiation management
climate engineering
radiative forcing
Dipu, Sudhakar
Quaas, Johannes
Quaas, Martin
Rickels, Wilfried
Mülmenstädt, Johannes
Boucher, Olivier
Substantial Climate Response outside the Target Area in an Idealized Experiment of Regional Radiation Management
topic_facet ddc:330
regional radiation management
climate engineering
radiative forcing
description Radiation management (RM) has been proposed as a conceivable climate engineering (CE) intervention to mitigate global warming. In this study, we used a coupled climate model (MPI-ESM) with a very idealized setup to investigate the efficacy and risks of CE at a local scale in space and time (regional radiation management, RRM) assuming that cloud modification is technically possible. RM is implemented in the climate model by the brightening of low-level clouds (solar radiation management, SRM) and thinning of cirrus (terrestrial radiation management, TRM). The region chosen is North America, and we simulated a period of 30 years. The implemented sustained RM resulted in a net local radiative forcing of −9.8 Wm−2 and a local cooling of −0.8 K. Surface temperature (SAT) extremes (90th and 10th percentiles) show negative anomalies in the target region. However, substantial climate impacts were also simulated outside the target area, with warming in the Arctic and pronounced precipitation change in the eastern Pacific. As a variant of RRM, a targeted intervention to suppress heat waves (HW) was investigated in further simulations by implementing intermittent cloud modification locally, prior to the simulated HW situations. In most cases, the intermittent RRM results in a successful reduction of temperatures locally, with substantially smaller impacts outside the target area compared to the sustained RRM.
format Article in Journal/Newspaper
author Dipu, Sudhakar
Quaas, Johannes
Quaas, Martin
Rickels, Wilfried
Mülmenstädt, Johannes
Boucher, Olivier
author_facet Dipu, Sudhakar
Quaas, Johannes
Quaas, Martin
Rickels, Wilfried
Mülmenstädt, Johannes
Boucher, Olivier
author_sort Dipu, Sudhakar
title Substantial Climate Response outside the Target Area in an Idealized Experiment of Regional Radiation Management
title_short Substantial Climate Response outside the Target Area in an Idealized Experiment of Regional Radiation Management
title_full Substantial Climate Response outside the Target Area in an Idealized Experiment of Regional Radiation Management
title_fullStr Substantial Climate Response outside the Target Area in an Idealized Experiment of Regional Radiation Management
title_full_unstemmed Substantial Climate Response outside the Target Area in an Idealized Experiment of Regional Radiation Management
title_sort substantial climate response outside the target area in an idealized experiment of regional radiation management
publisher Basel: MDPI
publishDate 2021
url http://hdl.handle.net/10419/240193
https://doi.org/10.3390/cli9040066
geographic Arctic
Pacific
geographic_facet Arctic
Pacific
genre Arctic
Global warming
genre_facet Arctic
Global warming
op_relation Journal: Climate
ISSN: 2225-1154
Volume: 9
Year: 2021
Issue: 4
Basel: MDPI
doi:10.3390/cli9040066
http://hdl.handle.net/10419/240193
RePEc:zbw:ifwkie:240193
op_rights http://www.econstor.eu/dspace/Nutzungsbedingungen
https://creativecommons.org/licenses/by/4.0/
op_doi https://doi.org/10.3390/cli9040066
container_title Climate
container_volume 9
container_issue 4
container_start_page 66
_version_ 1784889320030601216

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