358 research outputs found
Population genetic structure of Morelet’s and American crocodiles in Belize:Hybridization, connectivity and conservation
Hybridization can influence the evolutionary potential of wild species and can be especially detrimental where one species is abundant, and the other much rarer. In Belize, the Morelet’s crocodile (Crocodylus moreletii) primarily inhabits inland freshwater lagoons, lakes and rivers, whereas the less abundant American crocodile (Crocodylus acutus) is more prevalent among the offshore cayes and atolls. Both species are historically sympatric along the brackish coastline, but it is unclear if admixture between the two is affecting genetic integrity of the species. We investigated the extent of interspecific hybridization across Belize using genomic variants identified using double digest restriction-site associated DNA sequencing (ddRADseq). Five groups of genetically pure C. moreletii were identified, two of which were inland, including the protected Chiquibul National Park. Two groups of genetically pure C. acutus were identified, one on northern offshore islands, and a second along the southern coastline. Hybrids were only identified along the central-southern coastline and were in close geographic proximity to coastal purebreds. Based on these results, we suggest that the central-southern coastline represents a hybrid zone, while the inland areas and offshore islands that harbour only genetically pure populations may benefit from conservation prioritisation
Lake level fluctuations and divergence of cichlid fish ecomorphs in Lake Tanganyika
Lake Tanganyika has undergone substantial climate-driven lake level fluctuations that have repeatedly changed the distribution and extent of habitat for endemic fishes. Here we consider whether patterns of population genetic structure and phenotypic divergence within the cichlid fish Telmatochromis temporalis have been affected by changing lake levels. The species has a large-bodied rock-living ecomorph and a small-bodied shell-living ecomorph, and both are found in close proximity in littoral habitats. Using mtDNA sequences we found that geographically distant ([50 km) populations within the southern lake region diverged approximately 130,000–230,000 years ago, suggesting that
the regional genetic structure persisted through a low stand of over 400 m *106,000 years ago that ended with a rise to present levels *100,000 years ago. We also found signatures of large population expansions since this rise across the study region, suggesting that the populations positively responded to new habitat as lake levels rose to present levels. Finally, we found that geographically adjacent (\10 km) ecomorphs exhibit both significant genetic differentiation and signatures of gene flow after the lake level rise. The results suggest that local ecomorph divergence progressed with gene flow after the last major rise in lake level *100,000, potentially facilitated by new ecological opportunities
The genomic basis of cichlid fish adaptation within the deepwater “twilight zone” of Lake Malawi
Deepwater environments are characterized by low levels of available light at narrow spectra, great hydrostatic pressure, and low levels of dissolved oxygen—conditions predicted to exert highly specific selection pressures. In Lake Malawi over 800 cichlid species have evolved, and this adaptive radiation extends into the “twilight zone” below 50 m. We use population-level RAD-seq data to investigate whether four endemic deepwater species (Diplotaxodon spp.) have experienced divergent selection within this environment. We identify candidate genes including regulators of photoreceptor function, photopigments, lens morphology, and haemoglobin, many not previously implicated in cichlid adaptive radiations. Colocalization of functionally linked genes suggests coadapted “supergene” complexes. Comparisons of Diplotaxodon to the broader Lake Malawi radiation using genome resequencing data revealed functional substitutions and signatures of positive selection in candidate genes. Our data provide unique insights into genomic adaptation within deepwater habitats, and suggest genome-level specialization for life at depth as an important process in cichlid radiation
Diel variation in insect-dominated temperate pond soundscapes and guidelines for survey design
The data and code accompanying 'Diel variation in insect-dominated temperate pond soundscapes and guidelines for survey design' published in Freshwater Biology
Unravelling the Potamonautes lirrangensis (Rathbun, 1904) species complex (Potamoidea: Potamonautidae), with the description of two new species
The taxonomic status of the widely distributed freshwater crab Potamonautes lirrangensis (Rathbun, 1904) sensu lato is revised because morphological and molecular evidence indicates that this taxon is a complex comprising more than one species. Four taxa are now recognized: Potamonautes lirrangensis (Rathbun, 1904) s. str. and P. kisangani sp. nov. from the Middle Congo River in Central Africa, P. amosae sp. nov. from the drainages of Lakes Kivu and Tanganyika, and P. orbitospinus (Cunnington, 1907) from Lake Malawi which had been previously synonymised with P. lirrangensis s. lat. Diagnoses, illustrations and distribution maps are provided for each of these taxa and they are compared to similar species from Central and Southern Africa
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