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Elucidating Observed Land Surface Feedbacks across Sub-Saharan Africa

Presentation Date
Monday, December 10, 2018 at 10:35am
Location
Walter E Washington Convention Center 146C
Authors

Author

Abstract

This study examines the role of terrestrial forcings on the regional climate of sub-Saharan Africa through the application of a multivariate statistical method, Stepwise Generalized Equilibrium Feedback Assessment, to an array of observational, reanalysis, and remote sensing data products. By applying multiple datasets, data uncertainty and the robustness of assessed land surface feedbacks are considered. The approach of Yu et al. (2017) is expanded to decompose the relative contribution of vegetation, soil moisture, and oceanic forcings; investigate the role of evapotranspiration (ET) partitioning in terrestrial feedbacks; and compare land surface feedbacks among four key regions, namely the Sahel, Horn of Africa, West African monsoon region, and Congo. Across sub-Saharan Africa as a whole, oceanic and terrestrial forcings impose a relatively comparable impact on year-round atmospheric conditions. The land surface feedbacks are most pronounced across the semi-arid Sahel and Horn of Africa, although with unique seasonality of such feedbacks between regions. Moisture recycling is the dominant mechanism in these regions, with positive soil moisture-vegetation-rainfall feedbacks. The direct feedback of soil moisture anomalies on atmospheric conditions outweighed that of leaf area index anomalies. There is a clear need for more extensive observations of ET, its partitioning, and soil moisture across sub-Saharan Africa, as these data uncertainties propagated into the reliability of assessed soil moisture-ET feedbacks, particularly across the Sahel.

    Funding Program Area(s)