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    The Reversibility of Sea Level Rise

    Source: Journal of Climate:;2012:;volume( 026 ):;issue: 008::page 2502
    Author:
    Bouttes, N.
    ,
    Gregory, J. M.
    ,
    Lowe, J. A.
    DOI: 10.1175/JCLI-D-12-00285.1
    Publisher: American Meteorological Society
    Abstract: uring the last century, global climate has been warming, and projections indicate that such a warming is likely to continue over coming decades. Most of the extra heat is stored in the ocean, resulting in thermal expansion of seawater and global mean sea level rise. Previous studies have shown that after CO2 emissions cease or CO2 concentration is stabilized, global mean surface air temperature stabilizes or decreases slowly, but sea level continues to rise. Using idealized CO2 scenario simulations with a hierarchy of models including an AOGCM and a step-response model, the authors show how the evolution of thermal expansion can be interpreted in terms of the climate energy balance and the vertical profile of ocean warming. Whereas surface temperature depends on cumulative CO2 emissions, sea level rise due to thermal expansion depends on the time profile of emissions. Sea level rise is smaller for later emissions, implying that targets to limit sea level rise would need to refer to the rate of emissions, not only to the time integral. Thermal expansion is in principle reversible, but to halt or reverse it quickly requires the radiative forcing to be reduced substantially, which is possible on centennial time scales only by geoengineering. If it could be done, the results indicate that heat would leave the ocean more readily than it entered, but even if thermal expansion were returned to zero, the geographical pattern of sea level would be altered. Therefore, despite any aggressive CO2 mitigation, regional sea level change is inevitable.
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      The Reversibility of Sea Level Rise

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    contributor authorBouttes, N.
    contributor authorGregory, J. M.
    contributor authorLowe, J. A.
    date accessioned2017-06-09T17:06:38Z
    date available2017-06-09T17:06:38Z
    date copyright2013/04/01
    date issued2012
    identifier issn0894-8755
    identifier otherams-79525.pdf
    identifier urihttp://onlinelibrary.yabesh.ir/handle/yetl/4222315
    description abstracturing the last century, global climate has been warming, and projections indicate that such a warming is likely to continue over coming decades. Most of the extra heat is stored in the ocean, resulting in thermal expansion of seawater and global mean sea level rise. Previous studies have shown that after CO2 emissions cease or CO2 concentration is stabilized, global mean surface air temperature stabilizes or decreases slowly, but sea level continues to rise. Using idealized CO2 scenario simulations with a hierarchy of models including an AOGCM and a step-response model, the authors show how the evolution of thermal expansion can be interpreted in terms of the climate energy balance and the vertical profile of ocean warming. Whereas surface temperature depends on cumulative CO2 emissions, sea level rise due to thermal expansion depends on the time profile of emissions. Sea level rise is smaller for later emissions, implying that targets to limit sea level rise would need to refer to the rate of emissions, not only to the time integral. Thermal expansion is in principle reversible, but to halt or reverse it quickly requires the radiative forcing to be reduced substantially, which is possible on centennial time scales only by geoengineering. If it could be done, the results indicate that heat would leave the ocean more readily than it entered, but even if thermal expansion were returned to zero, the geographical pattern of sea level would be altered. Therefore, despite any aggressive CO2 mitigation, regional sea level change is inevitable.
    publisherAmerican Meteorological Society
    titleThe Reversibility of Sea Level Rise
    typeJournal Paper
    journal volume26
    journal issue8
    journal titleJournal of Climate
    identifier doi10.1175/JCLI-D-12-00285.1
    journal fristpage2502
    journal lastpage2513
    treeJournal of Climate:;2012:;volume( 026 ):;issue: 008
    contenttypeFulltext
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