Dating the origin and spread of specialization on human hosts in Aedes aegypti mosquitoes

Author:

Rose Noah H12ORCID,Badolo Athanase3ORCID,Sylla Massamba4,Akorli Jewelna5ORCID,Otoo Sampson5,Gloria-Soria Andrea6ORCID,Powell Jeffrey R7,White Bradley J8,Crawford Jacob E8,McBride Carolyn S12ORCID

Affiliation:

1. Department of Ecology and Evolutionary Biology, Princeton University

2. Princeton Neuroscience Institute, Princeton University

3. Laboratory of Fundamental and Applied Entomology, Université Joseph Ki-Zerbo

4. Department of Livestock Sciences and Techniques, Sine Saloum University El Hadji Ibrahima NIASS

5. Department of Parasitology, Noguchi Memorial Institute for Medical Research, University of Ghana

6. Department of Entomology. Center for Vector Biology & Zoonotic Diseases. The Connecticut Agricultural Experiment Station

7. Yale University

8. Verily Life Sciences

Abstract

The globally invasive mosquito subspecies Aedes aegypti aegypti is an effective vector of human arboviruses, in part because it specializes in biting humans and breeding in human habitats. Recent work suggests that specialization first arose as an adaptation to long, hot dry seasons in the West African Sahel, where Ae. aegypti relies on human-stored water for breeding. Here, we use whole-genome cross-coalescent analysis to date the emergence of human-specialist populationsand thus further probe the climate hypothesis. Importantly, we take advantage of the known migration of specialists out of Africa during the Atlantic Slave Trade to calibrate the coalescent clock and thus obtain a more precise estimate of the older evolutionary event than would otherwise be possible. We find that human-specialist mosquitoes diverged rapidly from ecological generalists approximately 5000 years ago, at the end of the African Humid Period—a time when the Sahara dried and water stored by humans became a uniquely stable, aquatic niche in the Sahel. We also use population genomic analyses to date a previously observed influx of human-specialist alleles into major West African cities. The characteristic length of tracts of human-specialist ancestry present on a generalist genetic background in Kumasi and Ouagadougou suggests the change in behavior occurred during rapid urbanization over the last 20–40 years. Taken together, we show that the timing and ecological context of two previously observed shifts towards human biting in Ae. aegypti differ; climate was likely the original driver, but urbanization has become increasingly important in recent decades.

Funder

Helen Hay Whitney Foundation

New York Stem Cell Foundation

Publisher

eLife Sciences Publications, Ltd

Subject

General Immunology and Microbiology,General Biochemistry, Genetics and Molecular Biology,General Medicine,General Neuroscience

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