Abstract
AbstractAimThe formation history of Africa's current river basins remains largely unknown. In order to date changes in landscape and climate, we studied the biogeography of the African freshwater fish with the largest natural distribution. We also validated biogeographical units.LocationContinental Africa.TaxonClarias gariepinus sl.MethodsWe investigated mitochondrial cytb sequences of 443 individuals from 97 localities, using a haplotype network and a genetic landscape analysis. We inferred a dated phylogeny using maximum likelihood and Bayesian inference approaches and reconstructed ancestral areas with S‐DEC and S‐DIVA models. Microsatellite genotyping complemented the mitochondrial approach in the Congo basin, where the latter revealed complex patterns.ResultsLimited differentiation is found in northern and south‐western Africa, and sharp genetic differentiation in the continent's east and centre. Populations with affinities to neighbouring basins occur at the edges of the Congo province. High diversity exists in the south of the Congo basin. The Zambezi province is partitioned into eastern, central and western sectors. In the east, specimens were related to those from the Congo. In the west, they were similar to Southern representatives. Phylogenetic inference placed the origin of C. gariepinus in the East Coast, with intraspecific diversification starting around the Great Lakes. These events occurred ca. 4.8–1.65 and 2.3–0.8 MYA respectively.Main conclusionsClades of C. gariepinus sl. show a clear geographical signature. The origin of C. gariepinus in the East Coast and diversification around the Great Lakes coincided with the periods of increased aridity. Low genetic differentiation in northern and southern Africa may result from connectivity during recent periods of higher rainfall. In contrast to other widespread African freshwater fish, colonization rather than extinction seemed to mediate distribution patterns. This can be explained by a high ecological tolerance. We highlight the species’ suitability to study landscape and climate evolution at various scales.
Highlights
Africa has a complex hydrology that is characterized by numerous inland deltas, palaeolakes, cataracts and elbows of river captures
The species is rendered paraphyletic by both C. anguillaris (Linnaeus, 1759), which has a similar ecology as C. gariepinus, and by the nine species of Bathyclarias Jackson, 1959 (Angnèse & Teugels, 2001; Rognon et al, 1998), which became adapted to deep water conditions
We investigated the spatial patterns of genetic differentiation by genetic landscape shape interpolation analysis implemented in Alleles in Space v1.0 (Miller, 2005)
Summary
Africa has a complex hydrology that is characterized by numerous inland deltas, palaeolakes, cataracts and elbows of river captures. Cycling between dry and wet periods in the Pleistocene and Pliocene impacted the evolution of Africa's landscapes and fauna, including early hominids (deMenocal, 2014; Maslin et al, 2014) This climate cycling led to alternate expansions and contractions of savanna- and forest-like habitats, in parallel with alterations of deepand low-water stands in Africa's Great Lakes (Malinsky & Salzburger, 2016). The species is rendered paraphyletic by both C. anguillaris (Linnaeus, 1759), which has a similar ecology as C. gariepinus, and by the nine species of Bathyclarias Jackson, 1959 (Angnèse & Teugels, 2001; Rognon et al, 1998), which became adapted to deep water conditions All of these are fully sympatric with C. gariepinus, with the former being widespread in western and northern Africa, and the latter nine being endemic to Lake Malawi. We obtained qualitatively similar results with different grid sizes and parameters (not shown)
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