[email protected] © university of reading 2010 1 richard allan department of meteorology,...
TRANSCRIPT
![Page 1: R.p.allan@reading.ac.uk © University of Reading 2010 1 Richard Allan Department of Meteorology, University of Reading Thanks to: Jim Haywood and Malcolm](https://reader035.vdocuments.us/reader035/viewer/2022062619/55160c9b55034694308b5132/html5/thumbnails/1.jpg)
[email protected]© University of Reading 20101
Richard AllanDepartment of Meteorology, University of Reading
Thanks to: Jim Haywood and Malcolm Brooks (Met Office)
Using Geostationary Earth Radiation Budget data to evaluate global models and radiative processes
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All-sky Clear-sky
Sh
ort
wav
eL
on
gw
ave
Radiative biases in Met Office global NWP model
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All-sky Clear-sky
Sh
ort
wav
eL
on
gw
ave
Convective cloud
Radiative biases in Met Office global NWP model
Convective outflow
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All-sky Clear-sky
Sh
ort
wav
eL
on
gw
ave
Convective cloud
Radiative biases in Met Office global NWP model
Convective outflow
Mineral dust
Surface albedo
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All-sky Clear-sky
Sh
ort
wav
eL
on
gw
ave
Convective cloud
Radiative biases in Met Office global NWP model
Convective outflow
Mineral dust
Surface albedo
Marine stratocumulus
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Marine stratocumulus
• Key in determining model uncertainty in climate sensitivity e.g. Bony and Dufresne (2005); Clemment et al. (2010)
• Model biases in physical properties• Commonality: NWP and climate parametrizations
© University of Reading 20106
CERES FM3 (Aqua) -SSF Albedo 13:11
Model albedo 5 June 2006 12:00 GERB albedo
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Model stratocumulus cloud: too bright, too much water - Implications for Cloud Feedback, e.g. Stephens (2010)
© University of Reading 20107
Allan et al. (2007) QJRMS
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NWP model cloud radiative bias: overcast Sc-cover pixels only (2003-2010)
© University of Reading 20108
• LW cloud effect too small (~ -5 Wm-2)• SW cloud effect too large yet too little
stratocumulus cloud cover
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Mineral dust and surface albedo (model-GERB)
Progressive reduction in model biases through continual evaluation and improvement
See also poster by Margaret Woodage for evaluation of dust scheme in HiGEM model
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[email protected]© University of Reading 200911
GERBILS aircraft campaign Lead by Jim Haywood 18-28 June 2007
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[email protected]© University of Reading 200912
Persistent contrail cirrus
case study
Combining satellite data with models to understand physical processes
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[email protected]© University of Reading 200913
Persistent contrail cirrus
case study
Combining satellite data with models to understand physical processes
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[email protected]© University of Reading 200914
Persistent contrail cirrus
case study
Combining satellite data with models to understand physical processes
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[email protected]© University of Reading 200915
Persistent contrail cirrus
case study
Combining satellite data with models to understand physical processes
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[email protected]© University of Reading 200916
Persistent contrail cirrus
case study
Combining satellite data with models to understand physical processes
![Page 17: R.p.allan@reading.ac.uk © University of Reading 2010 1 Richard Allan Department of Meteorology, University of Reading Thanks to: Jim Haywood and Malcolm](https://reader035.vdocuments.us/reader035/viewer/2022062619/55160c9b55034694308b5132/html5/thumbnails/17.jpg)
[email protected]© University of Reading 200917
Persistent contrail cirrus
case study
Combining satellite data with models to understand physical processes
![Page 18: R.p.allan@reading.ac.uk © University of Reading 2010 1 Richard Allan Department of Meteorology, University of Reading Thanks to: Jim Haywood and Malcolm](https://reader035.vdocuments.us/reader035/viewer/2022062619/55160c9b55034694308b5132/html5/thumbnails/18.jpg)
[email protected]© University of Reading 200918
Persistent contrail cirrus
case study
Combining satellite data with models to understand physical processes
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[email protected]© University of Reading 200919
CERES FM3 (Aqua) FLASH fluxes 13:25
Contrail induced cirrus?
Window flux
Inverse greenhouse parameter
SW fluxes (Wm-2)
Using GERB/NWP model estimate radiative effect of contrail cirrus:LW ~ 40 Wm-2
SW up to 80 Wm-2
stratocumulus
LW fluxes (Wm-2)
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[email protected]© University of Reading 200920
Clo
ud e
ffec
tive
radi
us
C
loud
opt
ical
thi
ckne
ss
Contrail region: higher optical thickness, smaller effective radius
SEVIRI cloud properties (0.8 and 1.6 μm channels)
Water cloud
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[email protected]© University of Reading 200921Haywood et al. (2009) JGR
Using GERB-like/SEVIRI and 4km forecast model to quantify contrail radiative effects: example at 14:00, 20 March 2009
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LW and SW cloud radiative effect• Estimated using GERB/SEVIRI minus NCEP clear-sky• LW and SW cloud radiative effect up to 80 Wm-2 (small net effect at
midday)• But would cirrus have formed anyway?
© University of Reading 200923
12-18 UTC
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Summary• Mineral dust aerosol
– Systematic model LW radiative bias at TOA up to 40 Wm-2 – GERBILS field campaign
• Model Cloud– Subtropical stratocumulus too bright, too much liquid water– Cannot tune to TOA radiation; need to get bulk physical
properties right. Issues with LWP retrievals (μ-wave/visible)– Highly sensitive to model changes (e.g. convection)
• Persistent contrail cirrus events– Up to 80 Wm-2 LW and SW cirrus radiative effect– Small net effect, but large dynamical and diurnal forcing– Would cirrus have formed anyway?– Any contrail effect following Iceland volcano aircraft shutdown?
© University of Reading 201024
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Was there any contrail effect following the Iceland Volcano?
© University of Reading 201025
Airspace closure Airspace reopens
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Was there any contrail effect following the Iceland Volcano?
© University of Reading 201026
Airspace closure Airspace reopens
...unlikely! Probably more related to advection of dry air and subsequent encroachment of mid-latitude system.
GERB HR (V003) LW fluxes
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• Major update to model parametrizations 15 July 2010
• Stratocumulus cloud now too extensive
© University of Reading 201027
GERB Model
12 July
19 July
Continuous monitoring
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LW bias in climate models May-July
Average clear-LW bias over whole region 3-15 Wm-2 depending upon model & satellite dataset/period
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Ongoing evaluation: diurnal cycle of
convection in high resolution models
© University of Reading 200929
Pearson et al. (2010) JGR in press (CASCADE project)