2001a: Ensemble simulations of twenty-first-century climate changes: Business as usual versus CO2 stabilization

Natural variability of the climate system imposes a large uncertainty on future climate change signals simulated by a single integration of any coupled ocean–atmosphere model. This is especially true for regional precipitation changes. Here, these uncertainties are reduced by using results from two...

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Main Authors: Aiguo Dai, Tom M. L. Wigley, Julie M. Arblaster
Other Authors: The Pennsylvania State University CiteSeerX Archives
Format: Text
Language:English
Subjects:
2
North Atlantic
Online Access:http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.198.2078
http://www.cgd.ucar.edu/ccr/publications/dai_bau.pdf
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spelling ftciteseerx:oai:CiteSeerX.psu:10.1.1.198.2078 2023-05-15T17:33:55+02:00 2001a: Ensemble simulations of twenty-first-century climate changes: Business as usual versus CO2 stabilization Aiguo Dai Tom M. L. Wigley Julie M. Arblaster The Pennsylvania State University CiteSeerX Archives application/pdf http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.198.2078 http://www.cgd.ucar.edu/ccr/publications/dai_bau.pdf en eng http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.198.2078 http://www.cgd.ucar.edu/ccr/publications/dai_bau.pdf Metadata may be used without restrictions as long as the oai identifier remains attached to it. http://www.cgd.ucar.edu/ccr/publications/dai_bau.pdf 2 text ftciteseerx 2016-01-07T17:12:30Z Natural variability of the climate system imposes a large uncertainty on future climate change signals simulated by a single integration of any coupled ocean–atmosphere model. This is especially true for regional precipitation changes. Here, these uncertainties are reduced by using results from two ensembles of five integrations of a coupled ocean– atmosphere model forced by projected future greenhouse gas and sulfate aerosol changes. Under a business-as-usual scenario, the simulations show a global warming of ~1.9°C over the twenty-first century (continuing the trend observed since the late 1970s), accompanied by a ~3 % increase in global precipitation. Stabilizing the CO 2 level at 550 ppm reduces the warming only moderately (by ~0.4°C in 2100). The patterns of seasonal-mean temperature and precipitation change in the two cases are highly correlated (r ≈ 0.99 for temperature and r ≈ 0.93 for precipitation). Over the midlatitude North Atlantic Ocean, the model produces a moderate surface cooling (1°–2°C, mostly in winter) over the twenty-first century. This cooling is accompanied by changes in atmospheric lapse rates over the region (i.e., larger warming in the free troposphere than at the surface), which stabilizes the surface ocean. The resultant reduction in local oceanic convection contributes to a 20 % slowdown in the thermohaline circulation. 1. Text North Atlantic Unknown
institution Open Polar
collection Unknown
op_collection_id ftciteseerx
language English
topic 2
spellingShingle 2
Aiguo Dai
Tom M. L. Wigley
Julie M. Arblaster
2001a: Ensemble simulations of twenty-first-century climate changes: Business as usual versus CO2 stabilization
topic_facet 2
description Natural variability of the climate system imposes a large uncertainty on future climate change signals simulated by a single integration of any coupled ocean–atmosphere model. This is especially true for regional precipitation changes. Here, these uncertainties are reduced by using results from two ensembles of five integrations of a coupled ocean– atmosphere model forced by projected future greenhouse gas and sulfate aerosol changes. Under a business-as-usual scenario, the simulations show a global warming of ~1.9°C over the twenty-first century (continuing the trend observed since the late 1970s), accompanied by a ~3 % increase in global precipitation. Stabilizing the CO 2 level at 550 ppm reduces the warming only moderately (by ~0.4°C in 2100). The patterns of seasonal-mean temperature and precipitation change in the two cases are highly correlated (r ≈ 0.99 for temperature and r ≈ 0.93 for precipitation). Over the midlatitude North Atlantic Ocean, the model produces a moderate surface cooling (1°–2°C, mostly in winter) over the twenty-first century. This cooling is accompanied by changes in atmospheric lapse rates over the region (i.e., larger warming in the free troposphere than at the surface), which stabilizes the surface ocean. The resultant reduction in local oceanic convection contributes to a 20 % slowdown in the thermohaline circulation. 1.
author2 The Pennsylvania State University CiteSeerX Archives
format Text
author Aiguo Dai
Tom M. L. Wigley
Julie M. Arblaster
author_facet Aiguo Dai
Tom M. L. Wigley
Julie M. Arblaster
author_sort Aiguo Dai
title 2001a: Ensemble simulations of twenty-first-century climate changes: Business as usual versus CO2 stabilization
title_short 2001a: Ensemble simulations of twenty-first-century climate changes: Business as usual versus CO2 stabilization
title_full 2001a: Ensemble simulations of twenty-first-century climate changes: Business as usual versus CO2 stabilization
title_fullStr 2001a: Ensemble simulations of twenty-first-century climate changes: Business as usual versus CO2 stabilization
title_full_unstemmed 2001a: Ensemble simulations of twenty-first-century climate changes: Business as usual versus CO2 stabilization
title_sort 2001a: ensemble simulations of twenty-first-century climate changes: business as usual versus co2 stabilization
url http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.198.2078
http://www.cgd.ucar.edu/ccr/publications/dai_bau.pdf
genre North Atlantic
genre_facet North Atlantic
op_source http://www.cgd.ucar.edu/ccr/publications/dai_bau.pdf
op_relation http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.198.2078
http://www.cgd.ucar.edu/ccr/publications/dai_bau.pdf
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