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Sci Adv. 2015 Oct 9;1(9):e1500646. doi: 10.1126/sciadv.1500646. eCollection 2015 Oct.

On the decadal scale correlation between African dust and Sahel rainfall: The role of Saharan heat low-forced winds.

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Scripps Institution of Oceanography, University of California, San Diego, La Jolla, CA 92093, USA.
Sorbonne Universités, UPMC (Université Pierre et Marie Curie) Université Paris 6, CNRS & UVSQ, UMR 8190 LATMOS, 75252 Paris, France.
European Commission, Joint Research Centre, Ispra, Varese 21027, Italy.


A large body of work has shown that year-to-year variations in North African dust emission are inversely proportional to previous-year monsoon rainfall in the Sahel, implying that African dust emission is highly sensitive to vegetation changes in this narrow transitional zone. However, such a theory is not supported by field observations or modeling studies, as both suggest that interannual variability in dust is due to changes in wind speeds over the major emitting regions, which lie to the north of the Sahelian vegetated zone. We reconcile this contradiction showing that interannual variability in Sahelian rainfall and surface wind speeds over the Sahara are the result of changes in lower tropospheric air temperatures over the Saharan heat low (SHL). As the SHL warms, an anomalous tropospheric circulation develops that reduces wind speeds over the Sahara and displaces the monsoonal rainfall northward, thus simultaneously increasing Sahelian rainfall and reducing dust emission from the major dust "hotspots" in the Sahara. Our results shed light on why climate models are, to date, unable to reproduce observed historical variability in dust emission and transport from this region.


Dust emission; Sahelian rainfall; the Saharan Heat Low; wind speed

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