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Tracing the origin of the early wet‐season Anopheles coluzzii in the Sahel

In arid environments, the source of the malaria mosquito populations that re‐establish soon after first rains remains a puzzle and alternative explanations have been proposed. Using genetic data, we evaluated whether the early rainy season (RS) population of Anopheles coluzzii is descended from the...

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Autores principales: Lehmann, Tovi, Weetman, David, Huestis, Diana L., Yaro, Alpha S., Kassogue, Yaya, Diallo, Moussa, Donnelly, Martin J., Dao, Adama
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2017
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5511357/
https://www.ncbi.nlm.nih.gov/pubmed/28717390
http://dx.doi.org/10.1111/eva.12486
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author Lehmann, Tovi
Weetman, David
Huestis, Diana L.
Yaro, Alpha S.
Kassogue, Yaya
Diallo, Moussa
Donnelly, Martin J.
Dao, Adama
author_facet Lehmann, Tovi
Weetman, David
Huestis, Diana L.
Yaro, Alpha S.
Kassogue, Yaya
Diallo, Moussa
Donnelly, Martin J.
Dao, Adama
author_sort Lehmann, Tovi
collection PubMed
description In arid environments, the source of the malaria mosquito populations that re‐establish soon after first rains remains a puzzle and alternative explanations have been proposed. Using genetic data, we evaluated whether the early rainy season (RS) population of Anopheles coluzzii is descended from the preceding late RS generation at the same locality, consistent with dry season (DS) dormancy (aestivation), or from migrants from distant locations. Distinct predictions derived from these two hypotheses were assessed, based on variation in 738 SNPs in eleven A. coluzzii samples, including seven samples spanning 2 years in a Sahelian village. As predicted by the “local origin under aestivation hypothesis,” temporal samples from the late RS and those collected after the first rain of the following RS were clustered together, while larger genetic distances were found among samples spanning the RS. Likewise, multilocus genotype composition of samples from the end of the RS was similar across samples until the following RS, unlike samples that spanned the RS. Consistent with reproductive arrest during the DS, no genetic drift was detected between samples taken over that period, despite encompassing extreme population minima, whereas it was detected between samples spanning the RS. Accordingly, the variance in allele frequency increased with time over the RS, but not over the DS. However, not all the results agreed with aestivation. Large genetic distances separated samples taken a year apart, and during the first year, within‐sample genetic diversity declined and increased back during the late RS, suggesting a bottleneck followed by migration. The decline of genetic diversity followed by a mass distribution of insecticide‐treated nets was accompanied by a reduced mosquito density and a rise in the mutation conferring resistance to pyrethroids, indicating a bottleneck due to insecticidal selection. Overall, our results support aestivation in A. coluzzii during the DS that is accompanied by long‐distance migration in the late RS.
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spelling pubmed-55113572017-07-17 Tracing the origin of the early wet‐season Anopheles coluzzii in the Sahel Lehmann, Tovi Weetman, David Huestis, Diana L. Yaro, Alpha S. Kassogue, Yaya Diallo, Moussa Donnelly, Martin J. Dao, Adama Evol Appl Original Articles In arid environments, the source of the malaria mosquito populations that re‐establish soon after first rains remains a puzzle and alternative explanations have been proposed. Using genetic data, we evaluated whether the early rainy season (RS) population of Anopheles coluzzii is descended from the preceding late RS generation at the same locality, consistent with dry season (DS) dormancy (aestivation), or from migrants from distant locations. Distinct predictions derived from these two hypotheses were assessed, based on variation in 738 SNPs in eleven A. coluzzii samples, including seven samples spanning 2 years in a Sahelian village. As predicted by the “local origin under aestivation hypothesis,” temporal samples from the late RS and those collected after the first rain of the following RS were clustered together, while larger genetic distances were found among samples spanning the RS. Likewise, multilocus genotype composition of samples from the end of the RS was similar across samples until the following RS, unlike samples that spanned the RS. Consistent with reproductive arrest during the DS, no genetic drift was detected between samples taken over that period, despite encompassing extreme population minima, whereas it was detected between samples spanning the RS. Accordingly, the variance in allele frequency increased with time over the RS, but not over the DS. However, not all the results agreed with aestivation. Large genetic distances separated samples taken a year apart, and during the first year, within‐sample genetic diversity declined and increased back during the late RS, suggesting a bottleneck followed by migration. The decline of genetic diversity followed by a mass distribution of insecticide‐treated nets was accompanied by a reduced mosquito density and a rise in the mutation conferring resistance to pyrethroids, indicating a bottleneck due to insecticidal selection. Overall, our results support aestivation in A. coluzzii during the DS that is accompanied by long‐distance migration in the late RS. John Wiley and Sons Inc. 2017-05-26 /pmc/articles/PMC5511357/ /pubmed/28717390 http://dx.doi.org/10.1111/eva.12486 Text en © 2017 The Authors. Evolutionary Applications published by John Wiley & Sons Ltd This is an open access article under the terms of the Creative Commons Attribution (http://creativecommons.org/licenses/by/4.0/) License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
spellingShingle Original Articles
Lehmann, Tovi
Weetman, David
Huestis, Diana L.
Yaro, Alpha S.
Kassogue, Yaya
Diallo, Moussa
Donnelly, Martin J.
Dao, Adama
Tracing the origin of the early wet‐season Anopheles coluzzii in the Sahel
title Tracing the origin of the early wet‐season Anopheles coluzzii in the Sahel
title_full Tracing the origin of the early wet‐season Anopheles coluzzii in the Sahel
title_fullStr Tracing the origin of the early wet‐season Anopheles coluzzii in the Sahel
title_full_unstemmed Tracing the origin of the early wet‐season Anopheles coluzzii in the Sahel
title_short Tracing the origin of the early wet‐season Anopheles coluzzii in the Sahel
title_sort tracing the origin of the early wet‐season anopheles coluzzii in the sahel
topic Original Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5511357/
https://www.ncbi.nlm.nih.gov/pubmed/28717390
http://dx.doi.org/10.1111/eva.12486
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