Lafore J.P., Flamant C., Guichard F., Parker D.J., Bouniol D., Fink A.H., Giraud V., Gosset Marielle, Hall N., Holler H., Jones S.C., Protat A., Roca R., Roux F., Said F., Thorncroft C. (2011). Progress in understanding of weather systems in West Africa. In :
Monsoon Multidisciplinary Analysis (AMMA) : an integrated project for understanding of the West African climate system and its human dimension. Atmospheric Science Letters, 12 (1), p. 7-12. ISSN 1530-261X.
Titre du document
Progress in understanding of weather systems in West Africa
Année de publication
2011
Auteurs
Lafore J.P., Flamant C., Guichard F., Parker D.J., Bouniol D., Fink A.H., Giraud V., Gosset Marielle, Hall N., Holler H., Jones S.C., Protat A., Roca R., Roux F., Said F., Thorncroft C.
In
Monsoon Multidisciplinary Analysis (AMMA) : an integrated project for understanding of the West African climate system and its human dimension
Source
Atmospheric Science Letters, 2011,
12 (1), p. 7-12 ISSN 1530-261X
The major advances achieved during African monsoon multidisciplinary analysis in our physical understanding of the West African monsoon (WAM) system are reviewed. Recent research provides an advanced understanding of key WAM features. The Saharan heat low, the interactions of the monsoon flow with the surface and the reversed flow on top of it, all play a more important role than previously assumed, and interact according to the phase of the diurnal cycle of convection. Recent studies also emphasise the significance of upstream conditions in Central and East Africa, as well as strong interactions between midlatitudes and the WAM.
Plan de classement
Sciences du milieu [021]
;
Limnologie physique / Océanographie physique [032]
Localisation
Fonds IRD [F B010053188]
Identifiant IRD
fdi:010053188
