01-12-20001 Towards predicting climate system changes and diagnosing feedbacks from observations...
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Transcript of 01-12-20001 Towards predicting climate system changes and diagnosing feedbacks from observations...
![Page 1: 01-12-20001 Towards predicting climate system changes and diagnosing feedbacks from observations Gabi Hegerl, GeoSciences, U Edinburgh Thanks to: Reto.](https://reader035.fdocuments.us/reader035/viewer/2022070306/5515e33355034638038b4d00/html5/thumbnails/1.jpg)
01-12-2000 1
Towards predicting climate Towards predicting climate system changes and diagnosing system changes and diagnosing
feedbacks from observationsfeedbacks from observations
Gabi Hegerl, GeoSciences, U EdinburghGabi Hegerl, GeoSciences, U Edinburgh
Thanks to: Reto Knutti, Thanks to: Reto Knutti, Simone Morak, Susan Simone Morak, Susan
Solomon, Xuebin Solomon, Xuebin Zhang, Francis Zwiers Zhang, Francis Zwiers
Photo credits: Tagesschau/NCDC
![Page 2: 01-12-20001 Towards predicting climate system changes and diagnosing feedbacks from observations Gabi Hegerl, GeoSciences, U Edinburgh Thanks to: Reto.](https://reader035.fdocuments.us/reader035/viewer/2022070306/5515e33355034638038b4d00/html5/thumbnails/2.jpg)
01-12-2000 2
Estimating climate feedbacks and predicting future changes
Modelling approach: Model as well as possible based on mechanisms
Inverse / top-down approach: Diagnosing responses and with it feedbacks from observed changes– How to do it– Findings– Interpretation
![Page 3: 01-12-20001 Towards predicting climate system changes and diagnosing feedbacks from observations Gabi Hegerl, GeoSciences, U Edinburgh Thanks to: Reto.](https://reader035.fdocuments.us/reader035/viewer/2022070306/5515e33355034638038b4d00/html5/thumbnails/3.jpg)
01-12-2000 3
Needed1. Observations y with well-estimated
uncertainties
2. Estimate of climate variability (to assess which observed changes can be explained without forcing); (observations; or climate models checked against observed / palaeo reconstructed long-term variability).
3. Fingerprints for external forcing X=(xi),i=1..n ; models of any complexity that is appropriate for problem
![Page 4: 01-12-20001 Towards predicting climate system changes and diagnosing feedbacks from observations Gabi Hegerl, GeoSciences, U Edinburgh Thanks to: Reto.](https://reader035.fdocuments.us/reader035/viewer/2022070306/5515e33355034638038b4d00/html5/thumbnails/4.jpg)
01-12-2000 4
Transient climate response relates directly to observed attributable warming
• Estimated warming at the time of CO2 doubling in response to a 1% per year increase in CO2
Separate the greenhouse gas fingerprint from
response to natural forcings and response to other anthropogenic forcing (aerosol direct and indirect, ozone trop. And strat.)
Estimate scaling factors ai
u,v: noise residualvuxay ii )(
![Page 5: 01-12-20001 Towards predicting climate system changes and diagnosing feedbacks from observations Gabi Hegerl, GeoSciences, U Edinburgh Thanks to: Reto.](https://reader035.fdocuments.us/reader035/viewer/2022070306/5515e33355034638038b4d00/html5/thumbnails/5.jpg)
01-12-2000 5
Attributable warming….
Scaling factors for greenhouse gas, other anthropogenic and natural fingerprints
Translated into estimate of attributable warming
![Page 6: 01-12-20001 Towards predicting climate system changes and diagnosing feedbacks from observations Gabi Hegerl, GeoSciences, U Edinburgh Thanks to: Reto.](https://reader035.fdocuments.us/reader035/viewer/2022070306/5515e33355034638038b4d00/html5/thumbnails/6.jpg)
01-12-2000 6
Fig 9.21
=> overall estimate based on rescaling diverse individual model-based estimates
Figure: from Hegerl et al., 2007 after Stott et al. 2006
Yields an estimate of transient climate response
![Page 7: 01-12-20001 Towards predicting climate system changes and diagnosing feedbacks from observations Gabi Hegerl, GeoSciences, U Edinburgh Thanks to: Reto.](https://reader035.fdocuments.us/reader035/viewer/2022070306/5515e33355034638038b4d00/html5/thumbnails/7.jpg)
01-12-2000 7
Equilibrium climate sensitivity
Does not relate in a simple way to observed warming rate, but needs estimate of ocean heat uptake with uncertainty;
Example: last millennium
Comparison of several reconstructions with amplitude uncertainties (dotted) with energy balance model simulation
Hegerl et al., 2006
![Page 8: 01-12-20001 Towards predicting climate system changes and diagnosing feedbacks from observations Gabi Hegerl, GeoSciences, U Edinburgh Thanks to: Reto.](https://reader035.fdocuments.us/reader035/viewer/2022070306/5515e33355034638038b4d00/html5/thumbnails/8.jpg)
01-12-2000 8
Estimating ECS
Run EBM with > 1000 model simulations, varying equilibrium climate sensitivity, effective ocean diffusivity, and aerosol forcing
Estimate likelyhood that residual between reconstruction and range of EBM simulations is indistinguishable from best fit residual
Var(Res-resmin ) ~ F(k,l) ( ., 2001)after Forest et al
Account for uncertainties:
•Calibration uncertainty of reconstruction•Data noise and internal variability•Uncertainty in magnitude of past solar and volcanic forcing
![Page 9: 01-12-20001 Towards predicting climate system changes and diagnosing feedbacks from observations Gabi Hegerl, GeoSciences, U Edinburgh Thanks to: Reto.](https://reader035.fdocuments.us/reader035/viewer/2022070306/5515e33355034638038b4d00/html5/thumbnails/9.jpg)
01-12-2000 9
Result:20th century forward modeling most other results are top-down (asking what model parameters yield simulations consistent with data)
Knutti and Hegerl, 2008
remaining uncertainties ranging from large to small`
![Page 10: 01-12-20001 Towards predicting climate system changes and diagnosing feedbacks from observations Gabi Hegerl, GeoSciences, U Edinburgh Thanks to: Reto.](https://reader035.fdocuments.us/reader035/viewer/2022070306/5515e33355034638038b4d00/html5/thumbnails/10.jpg)
01-12-2000 10
Conclusions for large scales
Top down/inverse approaches indicate consistent estimates as forward modelling, but larger uncertainties
Similar approaches can be applied to constrain carbon cycle sensitivity (Frank et al., 2010)
And have been applied to estimate aerosol effects on temperature yielding recently ~ consistent estimates
Regional changes and their effect on feedbacks, for example, through vegetation, are another matter…
Depend on seasonal changes in temperature distribution, and precipitation
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01-12-2000 11
Change in temperature distribution Eastern North
America 1950-2006: change in vegetation?
(Portmann et al., PNAS 2009)
similarly: Eastern Asia – aerosols? (from Morak)
TN90Expected from Tmin Expected from Tmax
![Page 12: 01-12-20001 Towards predicting climate system changes and diagnosing feedbacks from observations Gabi Hegerl, GeoSciences, U Edinburgh Thanks to: Reto.](https://reader035.fdocuments.us/reader035/viewer/2022070306/5515e33355034638038b4d00/html5/thumbnails/12.jpg)
01-12-2000 12
Regional: circulation
can be important
Gillett et al., NGEO, 2008 => attributable human influence
SAM congruent
residual
modelobservation
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01-12-2000 13
Fig. SPM-6
IPCC SPM
Feedbacks will depend on precipitation change
Mechanism: Clausius Clapeyron => wetter when warmer
Longwave forcing suppresses some of the response
Dynamics and circulation have major influence Allen and Ingram, 2002
Equ. 2xCO2 models
Transient change
![Page 14: 01-12-20001 Towards predicting climate system changes and diagnosing feedbacks from observations Gabi Hegerl, GeoSciences, U Edinburgh Thanks to: Reto.](https://reader035.fdocuments.us/reader035/viewer/2022070306/5515e33355034638038b4d00/html5/thumbnails/14.jpg)
01-12-2000 14
Estimate from observations
Santer et al., 2010: detectable changes in water vapour
Zhang et al., 2007: detectable changes in land precipitation
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01-12-2000 15
Fingerprint detection and
attribution study
Detectable signal, but larger than simulated!
(scaling > 0 but also >1!)
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01-12-2000 16
Similar problems may occur in response to shortwave forcing
Photo: NASA after Trenberth et al., GRL, 2007
Similarly, attributable change in Arctic precipitation (Min et al., 2009) is significantly larger than simulated
![Page 17: 01-12-20001 Towards predicting climate system changes and diagnosing feedbacks from observations Gabi Hegerl, GeoSciences, U Edinburgh Thanks to: Reto.](https://reader035.fdocuments.us/reader035/viewer/2022070306/5515e33355034638038b4d00/html5/thumbnails/17.jpg)
01-12-2000 17
Shortwave Geoengineering: We should be very worried, and not trust model simulated impacts!
(Hegerl and Solomon, 2009)
Global land precipitation: Observed vs models
(5-yr smoothed)
(from Hegerl et al., 2007; adapted from Lambert et al., 2005)
![Page 18: 01-12-20001 Towards predicting climate system changes and diagnosing feedbacks from observations Gabi Hegerl, GeoSciences, U Edinburgh Thanks to: Reto.](https://reader035.fdocuments.us/reader035/viewer/2022070306/5515e33355034638038b4d00/html5/thumbnails/18.jpg)
01-12-2000 18
Conclusions
Changes in temperature distribution may point at missing processes on regional scale
Precipitation shows a detectable human influence, but the observed changes are larger than simulated!
Errors in models (missing / erroneous feedbacks), forcings, observations or all of this?
Missing local processes and feedbacks as well as problems in precipitation changes will affect simulations of earth system feedbacks
Top down estimates provide important evaluation of modelled feedbacks, and point at problems for regional changes and precipitation