4. Models of the climate system. Earth’s Climate System Sun IceOceanLand Sub-surface Earth...
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Transcript of 4. Models of the climate system. Earth’s Climate System Sun IceOceanLand Sub-surface Earth...
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4. Models of the climate system
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Earth’s ClimateSystem
Sun
IceOceanLand
Sub-surface Earth
AtmosphereClimatemodel
components
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Atmosphere
Composition (in particular the greenhouse gases and aerosols) determine radiative and thermodynamic properties
Passage and absorption of radiation (energy from Sun and back into space) crucial
Conservation of mass, momentum, energy, and equation of state: general circulation
Hydrological cycle (evaporation, clouds, rainfall, runoff…)
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Ocean Surface circulation driven by wind: large scale
ocean basin gyres Deep overturning circulation driven by
‘thermohaline circulation’ – competing influences of heat and salt on sea-water density
Oceans transport ~50% of heat from equator to pole (atmosphere other 50%)
Most of the climate system’s stored heat is in the ocean – it acts as a big flywheel – making the climate system respond over much longer time periods (decades) than if the Earth’s surface were all land
Ocean and atmosphere closely coupled
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Cryosphere - Ice Mass balance of ice sheets: snow adds
material, evaporation/sublimation, ablation, and melting removes
Rising temperatures don’t necessarily imply shrinking ice sheets, as it may mean increased precipitation (snowfall)
Ice dynamics (e.g. glacier flow rates) important
Ice albedo – clean snow vs. dirty snow Close interaction of ice with atmosphere and
oceans
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Biosphere Models have simplified representations of land and
ocean carbon cycles Only ½ the emitted CO2 ends up in the atmosphere –
the other ½ is taken up by the oceans and vegetation CO2 uptake by ocean causes acidification:
CO2(g) + H2O(aq)↔ H2CO3(aq)
↔ H+ + HCO3-
↔ 2H+ + CO32-
With potential impacts on marine biota – harder to form a calcium carbonate skeleton – high uncertainties
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Coupled atmosphere / ocean climate model
Radiation
Atmosphere: DensityMotionWater
HeatExchange of: Momentum
Water
Ocean: Density (inc. Salinity)Motion
SeaIce
Land
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Typical resolution of weather forecast model – ‘nested’ high resolution region
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19 levels in atmosphere
20 levelsin ocean
2.5lat 3.75
long
1.251.25
The HadleyCentrethirdcoupledmodel -HadCM3
30km
-5km
Hadley Centre
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The Development of Climate models, Past, Present and Future
Atmosphere Atmosphere Atmosphere Atmosphere Atmosphere Atmosphere
Land surfaceLand surfaceLand surfaceLand surfaceLand surface
Ocean & sea-ice Ocean & sea-ice Ocean & sea-ice Ocean & sea-ice
Sulphateaerosol
Sulphateaerosol
Sulphateaerosol
Non-sulphateaerosol
Non-sulphateaerosol
Carbon cycle Carbon cycle
Atmosphericchemistry
Ocean & sea-icemodel
Sulphurcycle model
Non-sulphateaerosols
Carboncycle model
Land carboncycle model
Ocean carboncycle model
Atmosphericchemistry
Atmosphericchemistry
Off-linemodeldevelopment
Strengthening coloursdenote improvementsin models
Mid 1970s Mid 1980s Early 1990s Late 1990s Present day Early 2000s
Climate models → Earth System Models
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The Enhanced Greenhouse EffectSolar (S) and longwave (L) radiation in Wm2 at the top of the atmosphere
S L
236 236
T = 18°C
S L
236 232
CO2 x 2
S L
236 236
CO2 x 2
S L
236 236
CO2 x 2+ Feedbacks
H2O (+60%)
Ice/Albedo (+20%)
Cloud?
Ocean?
TS = 15°C TS = 15°C TS ~ 1.2K TS ~ 2.5K
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Feedbacks There are many important feedbacks in the climate
system that can either amplify (positive feedback) or dampen (negative feedback) forcings
Examples: + Water vapour – a warmer atmosphere holds more
water, which is a greenhouse gas + Ice albedo – a warmer atmosphere has less ice cover,
and reduces albedo +/- Clouds – a more cloudy atmosphere tends to be
warmer at night, but cooler during the day. Cloud height is also important
Uncertainties in feedbacks lead to uncertainties in future predictions – currently the main source of uncertainty
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Greenhouse gases
Aerosols
Solar forcing
Volcanic forcing
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Climate simulations 1860-2000
Including natural andanthropogenic forcingsmakes the model producethe best simulation of20th century climate
Model in greyobservationsin red
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Attribution
• are observed changes consistent with
expected responses to forcings
inconsistent with alternative explanations
Observations
All forcing
Solar+volcanic
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Understanding and Attributing Climate Change
Continental warming
likely shows a significant anthropogenic contribution over the past 50 years
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Summary (4. Climate models)
Climate models represent the main components of the climate system, and their interactions and feedbacks
Climate models have some skill at simulating present-day climate, and also the trend over the 20th century
This gives us some confidence that they can predict the future…