L. Kergoat, F. Timouk, E. Mougin, E. Ceschia, P. Hiernaux, P. de Rosnay, V. Le Dantec
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Response of sensible, latent and CO2 fluxes to lateral water redistribution and vegetation development in a Sahelian landscape at 15 °N. L. Kergoat, F. Timouk, E. Mougin, E. Ceschia, P. Hiernaux, P. de Rosnay, V. Le Dantec CESBIO, Toulouse, France C.R. Lloyd , C.M. Taylor, - PowerPoint PPT Presentation
Transcript of L. Kergoat, F. Timouk, E. Mougin, E. Ceschia, P. Hiernaux, P. de Rosnay, V. Le Dantec
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L. Kergoat, F. Timouk, E. Mougin, E. Ceschia,P. Hiernaux, P. de Rosnay, V. Le DantecCESBIO, Toulouse, France
C.R. Lloyd , C.M. Taylor,CEH, Wallingford UK.Response of sensible, latent and CO2 fluxes to lateral water redistribution and vegetation development in a Sahelian landscape at 15 N17-04-2008, European Geophysical Union, Vienna
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Land surface fluxes and energy budget in the Saheland nothing at all in central and northern Sahel.
Lat 15 N, Lon 0 : the most studied grid point in the Sahel... by modelers only, sofar ....
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Objectives : to present SEB and turbulent fluxes at lat 15 N, lon 0and identify the factors controlling these fluxes.Rnet = H + LE + G If you install a flux tower at 15 NYou have 60 % chance to get this24h averaged HLand surface fluxes and energy budget in the Sahel
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You have 35 % chance to get this24h averaged HLand surface fluxes and energy budget in the Sahel
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You have 5 % chance to get this24h averaged HLarge spatial variability !Land surface fluxes and energy budget in the Sahel
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60 kmThe Hombori supersite : 3 main landscape units
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rocky soilhigh run-offloamy-clayed soil lowland, ponds,high run-onsandy soilno run-off60 kmsoil type and water regime
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Agoufou, sandy soil, grassland, no run-off run-onJune 06July 17August 19
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Eguerit, rocky soil (gravel), no vegetation, high run-off
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Kelma, loamy-clayed soil, open forest, high run-on
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Timouk, Kergoat et al, subm.
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Daily evapotranspiration and Fco2Agoufou ; High ETR, > 85% P rapidely returned to the atmosphere, High Fco2 (reaches 18mmol m-2s-1 at 12h)
Kelma : Extremely high ETR (>> P), Very high Fco2 (reaches 30mmol m-2s-1 at 12h)
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Simple scaling of sensible heat flux to supersite scale (60 km)H = S wi. HiAveraged H close to Agoufou
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ConclusionsHigh spatial variability of surface fluxes (including some very high ETR and Fco2 !)
Lateral water redistribution and soil type controls :
- soil moisture in the root zone- vegetation growth & vegetation type- Rnet- flux partitionning
Landscape units large enough to maintain CBL gradients (mesoscale circulation?)
Simple scaling shows that 60 km x 60 km average is close to Agoufou site
Preliminary comparison implies ECMWF H flux is too high, more to come (ALMIP)
Thank you
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