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

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

Gabriele Gentile^a,b, Alessandra della Torre^c, Bertha Maegga^d, Jeffrey R. Powell^a, and Adalgisa Caccone^a,e
^a Department of Ecology and Evolutionary Biology, Yale University, New Haven, Connecticut 06520-8106,
^b Dipartimento di Biologia, Università di Roma "Tor Vergata," 00133 Rome, Italy,
^c Istituto di Parassitologia Università di Roma "La Sapienza, " 00185 Rome, Italy,
^d National Institute for Medical Research, Tukuyu Research Station, Tukuyu, Tanzania
^e Yale Institute for Biospherics Studies, Yale University, New Haven, Connecticut 06520

Corresponding author: Adalgisa Caccone, Yale University, New Haven, CT 06520-8106.

Communicating editor: R. HARRISON

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

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