scholarly journals Genetic Differentiation in the African Malaria Vector, Anopheles gambiae s.s., and the Problem of Taxonomic Status

Genetics ◽  
2002 ◽  
Vol 161 (4) ◽  
pp. 1561-1578 ◽  
Author(s):  
Gabriele Gentile ◽  
Alessandra della Torre ◽  
Bertha Maegga ◽  
Jeffrey R Powell ◽  
Adalgisa Caccone
Keyword(s):  
West Africa ◽  
Anopheles Gambiae ◽  
Intergenic Spacer ◽  
Taxonomic Status ◽  
Nominal Species ◽  
Type I ◽  
Unusual Behavior ◽  
Anopheles Gambiae S.S ◽  
Chromosomal Form ◽  
Local Sample

Abstract Of the seven recognized species of the Anopheles gambiae complex, A. gambiae s.s. is the most widespread and most important vector of malaria. It is becoming clear that, in parts of West Africa, this nominal species is not a single panmictic unit. We found that the internal transcribed spacer (ITS) of the X-linked rDNA has two distinct sequences with three fixed nucleotide differences; we detected no heterozygotes at these three sites, even in areas of sympatry of the two ITS types. The intergenic spacer (IGS) of this region also displays two distinct sequences that are in almost complete linkage disequilibrium with the distinct ITS alleles. We have designated these two types as S/type I and M/type II. These rDNA types correspond at least partly to the previously recognized chromosomal forms. Here we expand the geographic range of sampling to 251 individuals from 38 populations. Outside of West Africa, a single rDNA type, S/type I, corresponds to the Savanna chromosomal form. In West Africa, both types are often found in a single local sample. To understand if these findings might be due to unusual behavior of the rDNA region, we sequenced the same region for 46 A. arabiensis, a sympatric sibling species. No such distinct discontinuity was observed for this species. Autosomal inversions in one chromosome arm (2R), an insecticide resistance gene on 2L, and this single X-linked region indicate at least two genetically differentiated subpopulations of A. gambiae. Yet, rather extensive studies of other regions of the genome have failed to reveal genetic discontinuity. Evidently, incomplete genetic isolation exists within this single nominal species.

Molecular evidence of incipient speciation within Anopheles gambiae s.s. in West Africa

2001 ◽  
Vol 10 (1) ◽  
pp. 9-18 ◽  
Author(s):  
A. della Torre ◽  
C. Fanello ◽  
M. Akogbeto ◽  
J. Dossou-yovo ◽  
G. Favia ◽  
...  
Keyword(s):  
West Africa ◽  
Anopheles Gambiae ◽  
Molecular Evidence ◽  
Incipient Speciation ◽  
Anopheles Gambiae S.S

scholarly journals Filling the Gap 115 Years after Ronald Ross: The Distribution of the Anopheles coluzzii and Anopheles gambiae s.s from Freetown and Monrovia, West Africa

PLoS ONE ◽  
2013 ◽  
Vol 8 (5) ◽  
pp. e64939 ◽  
Author(s):  
Dziedzom K. de Souza ◽  
Benjamin G. Koudou ◽  
Fatorma K. Bolay ◽  
Daniel A. Boakye ◽  
Moses J. Bockarie
Keyword(s):  
West Africa ◽  
Anopheles Gambiae ◽  
Anopheles Coluzzii ◽  
Anopheles Gambiae S.S

High Levels of Knockdown Resistance in Anopheles coluzzii and Anopheles gambiae (Diptera: Culicidae), Major Malaria Vectors in Togo, West Africa: A 2011 Monitoring Report

2019 ◽  
Vol 56 (4) ◽  
pp. 1159-1164
Author(s):  
Koffi Mensah Ahadji-Dabla ◽  
Adjovi Djifa Amoudji ◽  
Seth Wolali Nyamador ◽  
Georges Yawo Apétogbo ◽  
Joseph Chabi ◽  
...  
Keyword(s):  
West Africa ◽  
Anopheles Gambiae ◽  
National Malaria Control Programme ◽  
Control Programme ◽  
World Health ◽  
Malaria Vectors ◽  
Malaria Control Programme ◽  
Anopheles Coluzzii ◽  
Knockdown Resistance ◽  
Anopheles Gambiae S.S

Abstract A survey of susceptibility to DDT, deltamethrin, bendiocarb, and chlorpyrifos-methyl was conducted in five localities in 2011 in Togo, West Africa, to assess the insecticide resistance status of Anopheles gambiae s.l. (Diptera: Culicidae). Female populations of An. gambaie s.l. emerged from collected larvae (F0) were exposed to insecticide-impregnated papers using World Health Organization test kits for adult mosquitoes; the susceptible reference strain Kisumu was used as a control. Resistance to DDT and deltamethrin was observed within the mosquito populations tested. Anopheles gambiae s.s. and Anopheles coluzzii represented the only species recorded in the study sites. The frequency of knockdown resistance (kdr L1014F) mutation determined using polymerase chain reaction diagnostic tests was lower in An. gambiae than in An. coluzzii in all of the localities except Kolokopé. Further investigations of An. gambiae s.l. resistance are needed in Togo to help the National Malaria Control Programme in vector control decision making and implementation of resistance management strategy.

scholarly journals Laboratory and microcosm experiments reveal contrasted adaptive responses to ammonia and water mineralisation in aquatic stages of the sibling species Anopheles gambiae s.s. and Anopheles coluzzii

2020 ◽  
Author(s):  
NWAMAKA OLUCHUKWU AKPODIETE ◽  
FREDERIC TRIPET
Keyword(s):  
West Africa ◽  
Anopheles Gambiae ◽  
Emerging Adults ◽  
Sibling Species ◽  
Adult Emergence ◽  
Ecological Speciation ◽  
Rice Fields ◽  
Anopheles Coluzzii ◽  
Anopheles Gambiae S.S ◽  
Phenotypic Quality

Abstract Background The sibling species of the malaria mosquito, Anopheles gambiae s.s and Anopheles coluzzii co-exist in many parts of West Africa and are thought to have recently diverged through a process of ecological speciation with gene flow. Divergent larval ecological adaptations, resulting in Genotype × Environment interactions have been proposed as important drivers of speciation in these species. In West Africa, An. coluzzii tends to be associated with permanent man-made larval habitats such as irrigated rice fields which are typically more eutrophic and mineral and ammonia-rich than the temporary rain pools exploited by An. gambiae s.s. Methods To highlight G×E interactions at the larval stage and their possible role in ecological speciation of these species, we first investigated the effect of exposure to ammonium hydroxide and water mineralisation on larval developmental success. Mosquito larvae were exposed to two water sources and increasing ammonia concentrations in small containers until adult emergence. In a second experiment, larval developmental success was compared across 2 contrasted microcosms to highlight G × E interactions under conditions like those found in the natural environment. Results The first experiment revealed significant G × E interactions in developmental success and phenotypic quality for both species in response to increasing ammonia concentrations and water mineralisation. The An. coluzzii strain outperformed the An. gambiae s.s. strain under limited conditions that were closer to more eutrophic habitats. The second experiment revealed divergent crisscrossing reaction norms in the developmental success of the sibling species in the two contrasted larval environments. As expected, An. coluzzii had higher emergence rates in the rice paddy environment with emerging adults of superior phenotypic quality compared to An. gambiae s.s, and vice versa in the rain puddle environment. Conclusions Evidence for such G x E interactions lends support to the hypothesis that divergent larval adaptations to the environmental conditions found in man-made habitats such as rice-fields in An. coluzzii may have been an important driver of its ecological speciation.

scholarly journals Laboratory and microcosm experiments reveal contrasted adaptive responses to ammonia and water mineralisation in aquatic stages of the sibling species Anopheles gambiae s.s. and Anopheles coluzzii

2020 ◽  
Author(s):  
Nwamaka Oluchukwu Akpodiete ◽  
Frederic Tripet
Keyword(s):  
West Africa ◽  
Anopheles Gambiae ◽  
Emerging Adults ◽  
Sibling Species ◽  
Adult Emergence ◽  
Ecological Speciation ◽  
Rice Fields ◽  
Anopheles Coluzzii ◽  
Anopheles Gambiae S.S ◽  
Phenotypic Quality

Abstract Background The sibling species of the malaria mosquito, Anopheles gambiae s.s and Anopheles coluzzii co-exist in many parts of West Africa and are thought to have recently diverged through a process of ecological speciation with gene flow. Divergent larval ecological adaptations, resulting in Genotype × Environment interactions have been proposed as important drivers of speciation in these species. In West Africa, An. coluzzii tends to be associated with permanent man-made larval habitats such as irrigated rice fields which are typically more eutrophic and mineral and ammonia-rich than the temporary rain pools exploited by An. gambiae s.s. Methods To highlight G×E interactions at the larval stage and their possible role in ecological speciation of these species, we first investigated the effect of exposure to ammonium hydroxide and water mineralisation on larval developmental success. Mosquito larvae were exposed to two water sources and increasing ammonia concentrations in small containers until adult emergence. In a second experiment, larval developmental success was compared across 2 contrasted microcosms to highlight G × E interactions under conditions like those found in the natural environment. Results The first experiment revealed significant G × E interactions in developmental success and phenotypic quality for both species in response to increasing ammonia concentrations and water mineralisation. The An. coluzzii strain outperformed the An. gambiae s.s. strain under limited conditions that were closer to more eutrophic habitats. The second experiment revealed divergent crisscrossing reaction norms in the developmental success of the sibling species in the two contrasted larval environments. As expected, An. coluzzii had higher emergence rates in the rice paddy environment with emerging adults of superior phenotypic quality compared to An. gambiae s.s, and vice versa in the rain puddle environment.Conclusions Evidence for such G x E interactions lends support to the hypothesis that divergent larval adaptations to the environmental conditions found in man-made habitats such as rice-fields in An. coluzzii may have been an important driver of its ecological speciation.

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