abrupt changes in arctic sea ice
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Abrupt Changes in Arctic Sea Ice. Marika Holland NCAR. Outline. Why sea ice? Present-day observed conditions and change An example of simulated abrupt transitions Future climate projections Application to paleo-climate conditions? Considerations when using models to study Arctic change. - PowerPoint PPT PresentationTRANSCRIPT
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Abrupt Changes in Arctic Sea Ice
Marika Holland
NCAR
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Outline• Why sea ice?
• Present-day observed conditions and change
• An example of simulated abrupt transitions
• Future climate projections
• Application to paleo-climate conditions?
• Considerations when using models to study Arctic change
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Why sea ice?Influence of sea ice on climate
• Modifies surface energy budget• Albedo effects
• Ice/snow albedo of 0.6-0.8 compared to ocean albedo of ~0.1
• Insulates atmosphere from ocean• Modifies heat and water transfer
• Affects ocean freshwater distribution• Salinity rejected during ice growth• Freshwater released during ice melt• Transport of sea ice redistributes water
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Role of sea ice as an “amplifier”
• Surface albedo feedback amplifies climate perturbations• Ice/snow albedo of 0.6-0.8 vs ocean albedo of ~0.1
(From Hall, 2004)
VA=variable albedoFA=fixed albedo
(DJF SAT)
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Role of sea ice as an “amplifier”
From Li et al., 2005
Insulating effect of sea ice contributes to large atmospheric response to sea ice changes.
SST SST
LGM ReducedIce
SAT Difference
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Processes Involving ice/ocean FW exchange
In warmer climate, increased ice growth due to loss of insulating ice cover results in
• Increased ocean ventilation
• Ocean circulation changes
• Transient response
Change in Ice growth rates at 2XCO2
Change in Ideal age at 2XCO2
From Bitz et al., 2006
Change in Ocean Circulation
Yr: 40-60
Change in Ideal Age at 2XCO2
cm
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Observed Arctic Conditions
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Sea ice concentration
(NSIDC, 2005)
(Perovich, 2000)
Fowler, 2003
Observed thicknessLaxon et al., 2003
The observed Arctic sea ice
June 6, 2005
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Observations indicate large changes in Arctic summer
sea ice cover
From Stroeve et al., 2005
2002 2003 2004
1980 2000
Sept Ice Extent
Trend = 7.7% per decade
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Suggestions that ice has thinned…
Rothrock et al., 1999
Ice draft change 1990s minus (1958-1976)
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Indications that Arctic Ocean is warming
Polyakov et al., 2005 1900 2000
Atlantic Layer Temperature
• “Pulse-like” warming events entering and tracked around the Arctic
• General warming of the Atlantic layer
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North Atlantic Oscillation Positive Phase
(From University of Reading webpage)
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Timeseries of JFM NAO Index
Maybe it is not all the NAO/AO?
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Have led to suggestions that:
“Researchers estimate that in as little as 15 years, the Arctic could be ice free in the summer”
J Climate, 2005
Overpeck et al., 2005
“There is no paleoclimate evidence for a seasonally ice free Arctic during the last 800 millennia”
Overpeck et al.
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Future ProjectionsWhat can models tell us?
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Future climate scenarios
Meehl et al, 2005Wigley, 2000
• Relatively gradual forcing. • Relatively gradual response in global air temperature
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September Sea Ice Conditions
ObservationsSimulated5-year running mean
• Gradual forcing results in abrupt Sept ice transitions
• Extent from 80 to 20% coverage in 10 years.
• Winter maximum shows • Smaller, gradual decreases• Largely due to decreases in
the north atlantic/pacific
“Abrupt”transition
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Forcing of the Abrupt Change
• Change thermodynamically driven
• Dynamics plays a small stabilizing role
Change in ice area over melt season
Thermodynamic
Dynamic
• Ice melt rates directly modify the ice thickness
• Ice thickness shows large drop associated w/abrupt event
• However, change is not “remarkable”
MarchIce Thickness
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Processes contributing to abrupt change
Increased efficiency of OW production for a given ice melt rate
• As ice thins, vertical melting is more efficient at producing open water
• Relationship with ice thickness is non-linear
% O
W f
orm
atio
n pe
r cm
ice
mel
t
March Arctic Avg Ice Thickness (m)
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Basal Melt
Surface Melt
Total Melt
Processes contributing to abrupt change
Albedo Feedback
• Increases in basal melt occur during transitions
• Driven in part by increases in solar radiation absorbed in the ocean as the ice recedes
cm/d
ayW
m-2
SW Absorbed in OML5 Year Running Mean
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Processes contributing to abrupt changeIncreasing ocean heat transport to the Arctic
Ocean Heat Transport to
Arctic
Increases in ocean heat transport occur during the abrupt transition.
Contributes to increased melting and provides a “trigger” for the event.
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Changes in Ocean Heat Transport
Ocean Heat Transport to Arctic
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FramStrait
Sib
eria
n S
helf
Arctic
Arctic Ocean Circulation Changes
2040-2049Minus
1980-1999
Sib
eria
n S
helf
FramStrait Arctic
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Processes Involving ice/ocean FW exchange
In warmer climate, increased ice growth due to loss of insulating ice cover results in
• Increased ocean ventilation
• Ocean circulation changes
• Transient response
Change in Ice growth rates at 2XCO2
Change in Ideal age at 2XCO2
From Bitz et al., 2006
Change in Ocean Circulation
Yr: 40-60
Change in Ideal Age at 2XCO2
cm
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Both trend and shorter-timescale variations in OHT appear important
OHT “natural” variations partially wind driven.
Correlated to an NAO-type pattern in SLP
Ocean Heat Transport to
Arctic
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Mechanisms Driving Abrupt Transition
1. Transition of ice to a more vulnerable state
• thinning of the ice
2. A Trigger - rapid increases in ocean heat transport.
• Other “natural” variations could potentially play the same “triggering” role?
3. Positive feedbacks that accelerate the retreat
• Surface albedo feedback
• OHT feedbacks associated with changing ice conditions
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Impacts of Abrupt Ice Transitions on Other Aspects of the Climate
System
Using the model to assess
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Associated atmospheric conditions
Winter air temperature increases rapidly during abrupt ice change
Arctic region warms ~5C in 10 years in December
Changes are particularly large along the Eurasian coast
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Precipitation Changes
• Precipitation generally increases over the 20th-21st centuries
• Rate of increase is largest during the abrupt sea ice transition
2040-2049 minus 1990-1999
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Projections of Near-surface Permafrost
Courtesy of Dave Lawrence, NCAR
(Lawrence and Slater, 2005)
Ice E
xte
nt
10
6 k
m2
Permafrost (CCSM)Sept. sea-ice (CCSM)Sept. sea-ice (Observed)
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How common are abrupt transitions?
Transitions defined as years when ice loss exceeds 0.5 million km2 in a year
ObsSimulated5yr running mean
September Ice Extent
“Abrupt”transition
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How common are forcing mechanisms?
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How common are effects?Lagged composites relative to initiation of abrupt sea-ice retreat event
Courtesy of David Lawrence, NCAR
Arctic Land Area
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-44
-40
-36
-32
0 10 20 30 40 50 60 70
x1000 years ago
18O
(p
er
mil
SM
OW
)
Heinrich events
Dansgaard/Oeschger oscillations
Younger Dryas
8.2 k event
-30
-40
-50
-60
Te
mp
era
ture
(C
)
GISP2, Greenland
Role of sea ice for abrupt transitions in a paleoclimate context?
(slide courtesy of Carrie Morrill)
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Simulated abrupt transitions in sea iceabrupt forcing (freshwater hosing) can result in abrupt ice changes
• Sea ice changes amplify climate response• Global teleconnections can result• Longevity of these changes are an issue
Sea ice change SAT Change
(From Vellinga and Wood, 2002; Vellinga et al, 2002)
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Some Cautions in Using Models to Examine these (and other) issues…
Biases in simulated control state can affect feedback strength
Uncertainties in model physics/response
Acknowledgement that model physics matters for simulated feedbacks
Models provide a wonderful tool for examining climate feedbacks, mechanisms, etc BUT…
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ITD Influence on Albedo Feedback
• Model physics influences simulated feedbacks• Getting the processes by which sea ice amplifies a climate signal
“right” can be important for our ability to simulate abrupt change
ITD (5 cat)1 cat.
1cat tuned“Strength” of albedo
feedback in climate
change runs
(Holland et al., 2006)
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Feedbacks contribute to Arctic amplification
But, that amplification varies considerably
among models
(Holland and Bitz, 2003)
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Sea ice in fully coupled GCMs
IPCC AR4
1980-1999 ice
thickness
Red line marks
observed extent
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Importance of sea ice state for the magnitude of polar amplification
• Magnitude of polar amplification is related to initial ice thickness• With thinner initial ice, melting translates more directly into open
water formation and consequent albedo changes
(From Holland and Bitz, 2003)
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SAT Change at end of 21st century
From A1B scenario
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Aspects of the Model’s Internal Variability
ModelStandard Deviation
Model 1 1.93
Model 2 1.90
Model 3 1.72
Model 4 1.68
Model 5 0.42
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Summary• Sea ice plays an important role in the climate system and is an
effective amplifier of climate perturbations: • due to surface albedo changes• due to ice/ocean/atm exchange processes, OHT changes
• Observations indicate recent changes in the Arctic system
• Climate models indicate continued change into the foreseeable future and suggest abrupt reductions in the Arctic ice cover
• These studies have possible implications for paleo-climate transitions
• Climate models are a useful tool for exploring the mechanisms that may contribute to rapid climate transitions, but need to be used with some caution
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Importance of sea ice state for location of warming
• Models with more extensive ice cover obtain warming at lower latitudes
• The location of warming can modify the influence of changes on remote locations
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20th Century
21st Century
• Increased Arctic Ocean heat transport occurs even while the Atlantic MOC weakens
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Do other models have abrupt transitions?Some do…
Data from IPCC AR4 Archive at PCMDI
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Processes involving ice/ocean FW exchange
Change in poleward ocean heat transport at 2XCO2 conditions
Yr 40-60
V’T
VT’
(Bitz et al., 2006)
Change in Arctic OHT
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By end of 21st century
•SAT consistently warms
•SLP changes are evident
Meehl et al, 2005
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OHT and polar amplification
Change in poleward ocean heat transport at 2XCO2 conditions
Both control state and change in OHT are correlated to polar
amplification
OHT
(From Holland and Bitz, 2003)
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Sea ice representation in GCMs
• Motionless Slab of uniform thickness• Slab of uniform thickness in motion• A thickness distribution of slabs in motion, ridging/rafting
parameterized
SW
Basal heat flux
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Changes in sea ice model representation over last 5 Years
0
10
20
30
40
50
60
70
80
90
ThermoOnly
FreeDrift
Rheo-logy
ITD
IPCC TARIPCC AR4
%