1 Lecture, Summer term 2012, LMU München An Introduction to Global Atmospheric Modelling Lecture 7: International climate modelling activities Veronika Eyring DLR - Institut für Physik der Atmosphäre Oberpfaffenhofen Content: • WCRP Overview • Summary of IPCC AR4 climate assessment • Preparation for IPCC AR5 climate assessment: • Coupled Model Intercomparison Project (CMIP) • Representative Concentration Pathways (RCPs) • Geoengineering Model Intercomparison Project (GeoMip) Origin Stockholm Study Conference (1974) First World Climate Conference (1979) Sponsors World Meteorological Organisation (WMO,1980+) International Council of Scientific Unions (ICSU,1980+) Intergovernmental Oceanographic Commission (IOC/UNESCO,1992+) Objectives To determine the predictability of climate To determine the effect of human activities on climate WCRP Overview World Climate Research Programme WCRP Domains GEWEX CliC CLIVAR SPARC CliC SPARC GEWEX CLIVAR WCRP Projects: Global Energy and Water Cycle Experiment (GEWEX) Climate Variability and Predictability (CLIVAR) Climate and Cryosphere (CliC) Stratospheric Processes And their Role in Climate (SPARC) Surface Ocean-Lower Atmosphere Study (SOLAS) WCRP Working Groups, Examples • Working Group on Numerical Experimentation (WGNE) • Working Group on Surface Fluxes (WGSF) • Working Group on Coupled Modelling (WGCM) leads the development of coupled ocean/atmosphere/land models used for climate studies on longer time-scales. WGCM is also WCRP's link to the Earth system modelling in IGBP's Analysis, Integration and Modeling of the Earth System (AIMES) and to the Intergovernmental Panel on Climate Change (IPCC). http://www.clivar.org/organization/wgcm/wgcm.php Lecture 7: Climate modelling activities, page 5 Internationale wissenschaftliche Sachstandsberichte Multi-Modell Vorhersagen von Klima-Chemie-Modellen bzw. Klimamodellen sind eine wichtige Komponente der in regelmäßigen Abständen erstellten. WMO/UNEP Ozonberichte bzw. IPCC Klimaberichte • IPCC AR1 (1990) • IPCC AR2 (1997) • IPCC AR3 (2001) • IPCC AR4 (2007) CMIP3 • IPCC AR5 (2013) CMIP5 • WMO/UNEP (1985) • WMO/UNEP (1989) • WMO/UNEP (1991) • WMO/UNEP (1994) • WMO/UNEP (1998) • WMO/UNEP (2002) • WMO/UNEP (2006) CCMVal-1 • WMO/UNEP (2010) CCMVal-2 2007: Friedensnobelpreis für UN Klimarat (IPCC) und Al Gore 1995: Nobelpreis für Chemie an Crutzen, Molina und Rowland • Verständnis chemischer Prozesse der Bildung und des Abbaus von Ozon • warnende Vorhersage vor den Folgen einer ungehemmten Emission ozonzerstörender Gase. } } Evry, 19 Juin 2007 Greenhouse Gases and Radiative Forcing of the Last 10,000 years IPCC, AR4, 2007
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Lecture, Summer term 2012, LMU München
An Introduction to Global Atmospheric Modelling
Lecture 7: International climate modelling activities
Veronika EyringDLR - Institut für Physik der Atmosphäre
Oberpfaffenhofen
Content:
• WCRP Overview
• Summary of IPCC AR4 climate assessment
• Preparation for IPCC AR5 climate assessment:
• Coupled Model Intercomparison Project (CMIP)
• Representative Concentration Pathways (RCPs)
• Geoengineering Model Intercomparison Project (GeoMip)
Origin
Stockholm Study Conference (1974)
First World Climate Conference (1979)
Sponsors
World Meteorological Organisation (WMO,1980+)
International Council of Scientific Unions (ICSU,1980+)
To determine the effect of human activities on climate
WCRP OverviewWorld Climate Research Programme
WCRP Domains GEWEXCliC
CLIVARSPARC
CliC
SPARC
GEWEX
CLIVAR
WCRP Projects:Global Energy and Water Cycle Experiment (GEWEX)Climate Variability and Predictability (CLIVAR)Climate and Cryosphere (CliC)Stratospheric Processes And their Role in Climate (SPARC)Surface Ocean-Lower Atmosphere Study (SOLAS)
WCRP Working Groups, Examples
• Working Group on Numerical Experimentation (WGNE)
• Working Group on Surface Fluxes (WGSF)
• Working Group on Coupled Modelling (WGCM) leads the development of coupled ocean/atmosphere/land models used for climate studies on longer time-scales.
WGCM is also WCRP's link to the Earth system modelling in IGBP's Analysis, Integration and Modeling of the Earth System (AIMES) and to the Intergovernmental Panel on Climate Change (IPCC). http://www.clivar.org/organization/wgcm/wgcm.php
Lecture 7: Climate modelling activities, page 5Internationale wissenschaftliche SachstandsberichteMulti-Modell Vorhersagen von Klima-Chemie-Modellen bzw. Klimamodellensind eine wichtige Komponente der in regelmäßigen Abständen erstellten.
Warming trend over all continents (but Antarctica)Larger trend• over land than ocean• at high latitudes (NH)
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Evry, 19 Juin 2007Annual anomalies (%) over land from 1900 to 2005; other regions are dominated by variability.
Increases
Decreases
Land precipitation changes
IPCC, AR4, 2007
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Heat waves
Trend plus variability?Extreme Heat WaveEx. Summer 2003 Europe
IPCC, AR4, 2007
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Increased Glacier retreat since the early 1990s
Continental glaciers
IPCC, AR4, 2007
Le glacier d’Argentière
(Alpes)
1850
1960
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Greenland and Antarctic ice sheets
Antarctic ice sheet loses mass mostly through increased glacier flow
Greenland gains mass in the interior, but loses more at the margins
Evry, 19 Juin 2007Melt extent
Greenland ice sheet 2005
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Sea level Rise
Rate of sea level rise:
1960-2000 : 1.8 mm/yr
1993-2003 : 3.1 mm/yr
Contributions from :• thermal expansion• glaciers• Greenland and Antarctica
Relative to 1961-1990
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Questions are:
How do we know this is due to human activities ?
If yes, what are the future projections.
Need climate models to answer these questionsEvry, 19 Juin 2007
Climate models
U
t 2 U .
1) Attribution Process
• other GHGs• aerosols• volcanic• solar• natural internal
Model
Historical forcing
Greenhouse gases Aerosols
NaturalTotal anthropogenic
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Continental warming attribution
Fig. SPM-4
• Land vs. ocean contrast explained• Continental scale warming LIKELY due to increase in anthrop. GHG
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IPCC future socio-economic scenarios
A1: A world of rapid economic growth and rapid introductions of new and more efficienttechnologies
A2: A very heterogenous world with an emphasis on familiy values and local traditions
B1: A world of „dematerialization“ and introduction of clean technologies
B2: A world with an emphasis on local solutions to economic and environmental sustainability
IS92a „business as usual“ scenario (1992)
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IPCC future socio-economic scenarios
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Future projections
Observed climate change in unequivocal
Very likely due to human activity
Depending on SRES scenario future climate change ranges from :
1.8 [1.1 – 2.9] to 4.0 [2.4 –6.4]
In summary Work towards IPCC AR 5
Lecture 7: Climate modelling activities, page 29CMIP5 model simulationsTwo classes of models to address two time frames and two sets of science questions
Near-Term (2005-2030) high resolution (perhaps 0.5°), no carbon cycle, some chemistry and aerosols, single scenarioScience question: e.g. regional extremes
Longer term (to 2100 and beyond) lower resolution (roughly 1.5°), carbon cycle, specified or simple chemistry and aerosols, benchmark stabilization concentration scenarios; Science question: e.g. feedbacks.