Towards the use of cloud microphysical properties to simulate IASI spectra

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Towards the use of cloud microphysical properties to simulate IASI spectra Cliquez pour modifier le style du titre François Faijan 1, Lydie Lavanant 1 and Florence Rabier 2 Cliquez pour modifier le style des sous-titres du masque 1 Météo-France/CMS/R&D 2 Météo-France/CNRM/GMAP 1

RTMs AQUA-Tr profiles Operational context Conclusion IASI cloudy Radiances Objectives : Take into account cloud microphysical properties in radiative transfer models (RTM) to simulate IASI cloudy spectra. Use cloud NWP profiles data into RTM Problem : Due to limited description of cloud in NWP and to RTM scattering approximation, whole IASI spectra could not be well simulated Methodology : Ice and liquid water scattering 1. From AQUA-Train profiles : evaluate cloud microphysics RTMs defined a processing methodology 2. Apply previous methodology to a global operational context 2 Thermal surface emission

RTMs AQUA-Tr profiles Operational context Conclusion IASI cloudy Radiances Cloud RTM (RTTOV or HISCRTM) COT HISCRTM (Wei et al, 2004) : Clouds defined on single levels Need a Cloud Top Pressure (CTP) De has an impact only on the slope between 780 cm -1 and 960 cm -1 RTTOV (Matricardi, 2005) : Cloud profile Ice De depends on parameterization Wyser, Boudala, Ou and Liou COT depends on De Classical inputs : T,Hu,O 3,Ts,Ps Cloudy inputs : CLWC,CIWC,De CLWC/CIWC/De : cloud liquid/ice water content/effective diameter COT : cloud optical thickness 3

Introduction RTMs Cloudy AQUA-Tr RTM profiles DarDar Operational product context Operational Conclusion context Presentation Processing Results ConcordIasi campaign : Use of co-registered cloud AQUA-Train profiles to evaluate cloud microphysic treatments in RTMs and establish a processing methodology Dardar profiles : Synergetic product from AQUA-Train CALIPSO Lidar and CLOUDSAT radar (Delanoë and Hogan, 2008). Profiles of CIWC ( 60 m vertical resolution) Profiles of De More information on ICARE website : www.icare.univ-lille1.fr 20896 coregistrations between DARDAR and IASI/AVHRR from September 2010 to January 2011 over Antarctic and Arctic. 7931 coregistrations CloudCover >95% Cloud Top Pressure [hpa] 4

RTMs AQUA-Tr profiles Operational context Conclusion Presentation Processing Results Filters : selection of situations with a good coherence between IASI/AVHRR cloud information and DARDAR COT Opaque clouds (COT>5) Semi-transparent clouds (COT<5) AVHRR CTP versus CTP (integrated COT=5) from Dardar COT IASI Co 2 slicing Nε versus COT from Dardar COT HISCRTM DBT at 906 cm -1 HISCRTM DBT at 906 cm -1 536 situations 5 DBT : Difference brightness temperature

RTMs AQUA-Tr profiles Operational context Presentation Processing Results Conclusion Impact of the De parameterization in RTTOV for semi-transparent clouds Bias STD RTTOV / HISCRTM 6 Which parameterization?

RTMs AQUA-Tr profiles Operational context Presentation Processing Results Conclusion Methodology : Apply filters RTTOV: De parameterization which best simulates the spectrum HISCRTM: De which best simulates the 780-960 cm -1 slope HISCRTM / RTTOV Op. St. Ou &Liou 5% 15% Wyser 11% 17% Boudala 3% 21% McFarquhar 6% 19% Dardar 75% 28% 7

RTMs AQUA-Tr profiles Operational context Conclusion Presentation Results Objective : Apply previous methodology to an operational context with the cloud data from ECMWF 6h-12h forecast Six days : 01/02/2012-06/02 /2012 Resolution : spatial < 0.25 temporal < 1h30mn Processing of only overcast IASI pixels (from AVHRR cloud mask) CIWC from NWP (ECMWF) Cloud mask from IASI-AVHRR clusters 8

RTMs AQUA-Tr profiles Operational context Conclusion Presentation Results SEA LAND Opaque Semi-transparent 9 RTTOV / HISCRTM

RTMs AQUA-Tr profiles Operational context Conclusion Presentation Results RTTOV / HISCRTM Better results in the high latitudes 10

RTMs AQUA-Tr profiles Operational context Conclusion Presentation Results RTTOV - Opaque RTTOV Semi-transparent HISCRTM - Opaque HISCRTM Semi-transparent 11 Results on 6 days

Introduction RTMs Cloudy AQUA-Tr RTM profiles DarDar Operational product context Operational Conclusion context Two studies were conducted : 1. Use of co-registered cloud AQUA-Train profiles to evaluate cloud microphysics treatments in RTMs and establish a processing methodology 2. Apply previous methodology to global NWP context RTMs including cloud microphysics correctly simulate IASI observations when the cloud profiles are accurate enough Establishment of two efficient filters independent from RTMs Similar results for the two studies RESIDUALS<3K whatever the type of cloud (Opaque or Semi-Transparent) Large impact of unknown De on the simulated spectrum: need of De in the control variables of a retrieval process (ex : 1dVar system) Tropics: applied filters are less efficient 12

Cliquez pour modifier le style du titre Thank you for your attention Cliquez pour modifier le style des sous-titres du masque 13

RTMs AQUA-Tr profiles Operational context Conclusion Presentation Results HISCRTM DBT at 906 cm -1 Lat High DBT in presence of multi layer clouds 14 CIWC

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