Mi#gaon(of(Projected(21 (Century( Antarc#c(SeaIce(Loss(by...
Transcript of Mi#gaon(of(Projected(21 (Century( Antarc#c(SeaIce(Loss(by...
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Mi#ga#on of Projected 21st Century Antarc#c Sea Ice Loss by Ozone
Recovery
Karen L. Smith1, Lorenzo M. Polvani1,2 Daniel R. Marsh3
1Lamont-‐Doherty Earth Observatory, Palisades, NY, USA 2Applied Physics and Applied Mathema#cs Department,
Columbia University, New York, NY, USA 3Atmospheric Chemistry Division, NCAR, Boulder, CO, USA
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Antarc#c Climate Change
• Antarc#c climate change over the past several decades has been dominated by the effects of stratospheric ozone deple#on
Thompson et al. 2011; Thompson and Solomon 2002
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Antarc#c Sea Ice Trends
Observed trend in 1979-‐2007 Antarc#c sea ice is posi#ve and sta#s#cally significant at 0.97% / dec.
• Arc#c trend: -‐2.4% / dec
Turner et al. 2009
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Is there a connec#on between trends in stratospheric ozone, the SAM and Antarc#c sea ice?
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Lack of Consensus
• Lefebvre and Goosse (2004, 2005) – ocean-‐sea ice model forced with NCEP winds and temperatures
from 1948-‐1999. – +SAM is associated with more sea ice in Ross Sea region due to
deepening of Amundsen Low.
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Lack of Consensus
• Lefebvre and Goosse (2004, 2005) – ocean-‐sea ice model forced with NCEP winds and temperatures
from 1948-‐1999. – +SAM is associated with more sea ice in Ross Sea region due to
deepening of Amundsen Low. • Turner et al. (2009)
– reanalysis and AR4 data to show that trend in Amundsen Low and is consistent with LG04 argument.
– +SAM trend due to ozone deple#on is responsible for +Antarc#c sea ice trend.
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Lack of Consensus
• Lefebvre and Goosse (2004, 2005) – ocean-‐sea ice model forced with NCEP winds and temperatures
from 1948-‐1999. – +SAM is associated with more sea ice in Ross Sea region due to
deepening of Amundsen Low. • Turner et al. (2009)
– reanalysis and AR4 data to show that trend in Amundsen Low and is consistent with LG04 argument.
– +SAM trend due to ozone deple#on is responsible for +Antarc#c sea-‐ice trend.
• Sigmond and Fyfe (2010) – Two 3-‐member, 100-‐year CMAM ensembles with and without
an ozone hole. – ensemble with ozone hole had less Antarc#c sea ice. – stratospheric ozone deple#on cannot explain observed trends in
sea ice
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Antarc#c Sea Ice and Ozone
Sigmond and Fyfe 2010
-‐3.5%
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Methodology
• GCM simula#ons using Whole Atmosphere Community Climate Model Version 4 (WACCM4; Marsh et al. 2012) – 1.9 x 2.5° horizontal resolu#on – 66 ver#cal levels up to 140 km – coupled middle atmosphere chemistry – coupled ocean and sea ice components
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Methodology
• GCM simula#ons using Whole Atmosphere Community Climate Model Version 4 (WACCM4; Marsh et al. 2012). – 1.9 x 2.5° horizontal resolu#on – 66 ver#cal levels up to 140 km – coupled middle atmosphere chemistry – coupled ocean and sea ice components
• Two 3-‐member ensembles of 21st century (2001-‐2065) integra#ons with and without ozone recovery. – 1st Ensemble, RCP4.5: Standard RCP 4.5 including ozone
recovery. – 2nd Ensemble, FixODS: RCP 4.5 with surface ozone-‐deple#ng
substances fixed at year 2000 levels. – Response is ensemble mean FixODS – RCP4.5 averaged over last
10 years of integra#on.
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Antarc#c Sea Ice Extent (SIE) and the SAM
Correla#on between detrended Summer SAM and Monthly SIE
RCP4.5
FixODS
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Antarc#c Sea Ice and SAM Trends
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Monthly Sea Ice Response
Absolute Difference Rela#ve Difference
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Monthly Sea Ice Response
Absolute Difference Rela#ve Difference
Annual Mean Response to Fixed Ozone: ~-‐4%
Annual Mean Response to climate change in RCP4.5: ~-‐11%
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Monthly Sea Ice Response
Absolute Difference Rela#ve Difference
Ozone recovery decreases magnitude of SIE loss by: ~33%
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Zonal Mean Zonal Wind Response Summer Zonal Mean Zonal Wind Response
Contour interval is 1 m/s. Gray shading indicates 95% sta#s#cal significance.
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Surface Wind Stress, Temperature and Sea Ice Concentra#on Response
• Sea ice concentra#on response (%; shading),
• Surface wind stress (magenta vectors; only vectors greater than 0.01 N m2 are displayed),
• Surface temperature (black curves; contour interval in K is [-‐0.75, -‐0.5, 0, 0.5, 0.75, 1, 1.25,…])
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Zonal Mean Temperature and MOC Response
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Conclusions
• Transient GCM simula#ons show greater 21st century Antarc#c sea ice loss when ozone recovery is excluded. – This is primarily due to warming of the upper ocean and a
retreat of the ice edge.
• Findings are qualita#vely similar to Sigmond and Fyfe 2010 despite using a different GCM and including transient GHG forcing. – Also similar to a new study by Bitz and Polvani using CCSM3
with a 0.1° ocean model.
• The regula#on of CFC’s has implica#ons well beyond the reduc#on of harmful UV.
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Thank you!
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Interannual Antarc#c Sea Ice Variability
Regressions on the SAM of sea ice extent (SIE) lagged by 1-‐month for (a) Jan-‐Feb-‐Mar-‐Apr and (b) Jun-‐Jul-‐Aug-‐Sep.
***Regression is posi#ve in most regions in summer/early fall. ***Highly regional pauern in late fall/winter.
Sen Gupta and England 2006
(a) (b)
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Trend in Amundsen Low
• Trend in ECMWF 500 hPa height for 1979-‐2006 (m/dec)
• Deepening of the Amundsen Low
Turner et al. 2009
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Bitz and Polvani (2012)
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Antarc#c Sea Ice Extent (SIE) and the SAM
SAM-‐April SIE correla#on as func#on of #me series length.
Correla#on between Summer SAM and April SIE breaks down as length of #me series increases.
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Sea Ice Thickness Response
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Simpkins et al. 2012
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Holland and Kwok 2012