摘要
The West African Monsoon (WAM) is characterized by strong decadal and multi-decadal variability and the impacts can be catastrophic for the local populations. One of the factors put forward to explain this variability involves the role of atmospheric dynamics, linked in particular to the Saharan Heat Low (SHL). This article addresses this question by comparing the sets of preindustrial control and historical simulation data from climate models carried out in the framework of the CMIP5 project and observations data over the 20<sup>th</sup> century. Through multivariate statistical analyses, it was established that decadal modes of ocean variability and decadal variability of Saharan atmospheric dynamics significantly influence decadal variability of monsoon precipitation. These results also suggest the existence of external anthropogenic forcing, which is superimposed on the decadal natural variability inducing an intensification of the signal in the historical simulations compared to preindustrial control simulations. We have also shown that decadal rainfall variability in the Sahel, once the influence of oceanic modes has been eliminated, appears to be driven mainly by the activity of the Arabian Heat Low (AHL) in the central Sahel, and by the structure of the meridional temperature gradient over the inter-tropical Atlantic in the western Sahel.
The West African Monsoon (WAM) is characterized by strong decadal and multi-decadal variability and the impacts can be catastrophic for the local populations. One of the factors put forward to explain this variability involves the role of atmospheric dynamics, linked in particular to the Saharan Heat Low (SHL). This article addresses this question by comparing the sets of preindustrial control and historical simulation data from climate models carried out in the framework of the CMIP5 project and observations data over the 20<sup>th</sup> century. Through multivariate statistical analyses, it was established that decadal modes of ocean variability and decadal variability of Saharan atmospheric dynamics significantly influence decadal variability of monsoon precipitation. These results also suggest the existence of external anthropogenic forcing, which is superimposed on the decadal natural variability inducing an intensification of the signal in the historical simulations compared to preindustrial control simulations. We have also shown that decadal rainfall variability in the Sahel, once the influence of oceanic modes has been eliminated, appears to be driven mainly by the activity of the Arabian Heat Low (AHL) in the central Sahel, and by the structure of the meridional temperature gradient over the inter-tropical Atlantic in the western Sahel.
作者
Adjoua Moïse Landry Famien
Sandrine Djakouré
Bi Tra Jean Claude Youan
Serge Janicot
Abé Delfin Ochou
Arona Diedhiou
Adjoua Moïse Landry Famien;Sandrine Djakouré;Bi Tra Jean Claude Youan;Serge Janicot;Abé Delfin Ochou;Arona Diedhiou(Département des Sciences et Techniques, Université Alassane Ouattara de Bouaké, Bouaké, Cô,te d’Ivoire;LASMES-UFR SSMT, Université Félix Houphouë,t Boigny d’Abidjan, Abidjan, Cô,te d’Ivoire;LSS-UFR SSMT, Université Félix Houphouë,t Boigny d’Abidjan, Abidjan, Cô,te d’Ivoire;Laboratoire d’Océanographie et du Climat: Expérimentations et Approches Numériques, Sorbonne Université, IRD, CNRS, MNHN, Paris, France;Université Grenoble Alpes, IRD, CNRS, Grenoble INP, IGE, Grenoble, France;UFHB-IRD Joint International Laboratory of Research on NEXUS Climate, Water, Energy and Agriculture and Development of Cli-mate Services, African Centre of Excellence CCBAD (Climate Change, Biodiversity and Sustainable Agriculture), Université Félix Houphouë,t-Boigny, Abidjan, Cô,te D’Ivoire)
