M. A. Di Deco scite author profile

Speciation in the Anopheles gambiae complex is reviewed and discussed with emphasis on the patterns of chromosomal differentiation, particularly at the intraspecific level. The significance of inversion polymorphism in gambiae and arabiensis (the two species of greatest medical importance) is evaluated with reference to recent field investigations carried out in Nigeria. In both sibling species some of the inversions show clinical geographical changes in frequencies, with evident correlations with climatic conditions and vegetation zones. Microgeographical variations in species distribution and in intraspecific inversion frequencies are also present, which appear mostly related to man-made environmental contrasts. Parallel indoor-/outdoor collections of samples from polymorphic populations of arabiensis and gambiae show that adult mosquitoes carrying certain inversion karyotypes do not distribute at random in relation to the human environment, being significantly more frequent in outdoor than in indoor samples, or vice-versa. Optimal habitat choice appears to be involved in such variations of indoor resting behaviour, since the chromosomal types carried by less endophilic individuals are those more adapted to humid climates, i.e. those which tend to avoid the higher nocturnal saturation deficit of the indoor environment. This phenomenon, producing non-uniform exposure of the vector population to residual insecticides sprayed in houses, might explain the mediocrity of the results of malaria control projects based on house-spraying against endophilic vectors in the African savannas.

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A Polytene Chromosome Analysis of the Anopheles gambiae Species Complex

Cóluzzi

Sabatini

Torre

et al. 2002

Science

409

530

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Field-collected specimens of all known taxa in the Anopheles gambiae complex were analyzed on the basis of chromosome inversions with reference to a standard polytene chromosome map. The phylogenetic relationships among the seven described species in the complex could be inferred from the distribution of fixed inversions. Nonrandom patterns of inversion distribution were observed and, particularly on chromosome arm 2R, provided evidence for genetically distinct populations in A. gambiae, A. arabiensis, and A. melas. In A. gambiae from Mali, stable genetic differentiation was observed even in populations living in the same region, suggesting a process of incipient speciation which is being confirmed by studies with molecular markers. The possible role of chromosome differentiation in speciation of the A. gambiae complex and in the emergence of distinct chromosomal forms within the nominal species is discussed in relation to human malaria.

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Chromosomal inversion intergradation and incipient speciation inAnopheles gambiae

Cóluzzi

Petrarca

Deco

1985

Bolletino di zoologia

296

303

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Ecological genetic studies in the chromosomal form Mopti ofAnopheles gambiae s.str. in Mali, West Africa

et al. 1994

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Among the sibling species of the Afrotropical Anopheles gambiae complex, the nominal taxon (An. gambiae s.str.) is the major malaria vector. Its bionomics suggest a man-dependent speciation process which involves, in West Africa, various incipient species chromosomally recognized by different combinations of 2R paracentric inversions. One of the most recent evolutionary steps of such a speciation process appears to be the chromosomal form Mopti, which is associated with dry season irrigation in arid zones, and is characterized by a remarkable ecological flexibility related to three 2R alternative arrangements, namely bc, u and +, whose expected karyotypes are found in Hardy-Weinberg equilibrium. The study of this chromosomal polymorphism in samples from a 16-locality transect in Mali shows wide variations and highly significant correlation with both temporal and spatial climatic differences. Mosquitoes homokaryotypic for 2Rbc are the actual dry season and arid areas breeders. The regular rise of 2Rbc frequency, up to fixation, during each dry season, corresponds to the South-North clinal increase of the same arrangement along the transect, from about 30% in the humid savanna to near fixation in the South-Saharan zone. This coherent ecological genetics case provides full support to the hypothesis of the adaptive nature of paracentric inversions. Moreover, the very peculiar system of combinations of contiguous 2R inversions, utilized by Mopti as well as by other chromosomal forms of An. gambiae, suggests a process of polygenic reorganization based on linkage disequilibria and involving the inversions as driving selection units.

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Inversion polymorphism and incipient speciation in Anopheles gambiae s.str. in The Gambia, West Africa

Bryan

Deco²,

Petrarca³

et al. 1982

Genetica

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Analysis of the inversion polymorphism of Anopheles gambiae s.str, in The Gambia and surrounding zones of Senegal (Saloum and Casamance) shows, in samples from the central part of the study area, highly significant and temporally stable departures from Hardy-Weinberg equilibrium with deficits of the heterokaryotypes. This situation and the general pattern of karyotype distribution are consistent with the hypothesis of two chromosomally differentiated populations ofA. gambiae which show partial reproductive isolation and incomplete intergradation in the contact zone.

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M. A. Di Deco

Chromosomal differentiation and adaptation to human environments in the Anopheles gambiae complex

A Polytene Chromosome Analysis of the Anopheles gambiae Species Complex

Chromosomal inversion intergradation and incipient speciation inAnopheles gambiae

Ecological genetic studies in the chromosomal form Mopti ofAnopheles gambiae s.str. in Mali, West Africa

Inversion polymorphism and incipient speciation in Anopheles gambiae s.str. in The Gambia, West Africa

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