Research on Lake Victoria cichlids uncovers the processes of rapid species adaptation

Research on Lake Victoria cichlids uncovers the processes of rapid species adaptation
Comparison of genomes of three species of Lake Victoria cichlids including Haplochromis chilotes, H. sauvagei, and Lithochromis rufus revealed signs of what biologists call "selective sweep events", in which selective pressures cause a beneficial mutation to rapidly increase its frequency within a population and become present in all members of a species. Furthermore, many of the species-specific alleles appeared to have existed alongside several alternative alleles prior to the adaptive radiation that produced different species of fish. Credit: Tokyo Tech

Biologists use the term "adaptive radiation" to describe a phenomenon in which new species rapidly evolve from an ancestral species, often in response to changes in the local environment that lead to new biological niches becoming available. To understand this process, biologists often turn to the cichlids of Lake Victoria, in which over 500 species of the fish have evolved over the past 14,600 years. As Professor Masato Nikaido of Tokyo Tech explains, "The level of genetic differentiation among species is considered very low due to the short period of time after these different species began evolving, and this limited genetic differentiation provides us with a great opportunity to find candidate genes that have contributed to adaptive radiation and the evolution of new species."

Past studies on Lake Victoria cichlids have shown that species living at different depths in the differ considerably with respect to the alleles for a gene that determines visual abilities. Spurred by this evidence, Professor Nikaido and his colleagues, including scientists from the Tanzania Fisheries Research Institute, wanted to learn more about the genetic processes underlying adaptation to different environmental conditions. They therefore analyzed the genomes of three species of Lake Victoria cichlids: Haplochromis chilotes and H. sauvagei, which inhabit only rocky shores, and Lithochromis rufus, which inhabits diverse lake-bottom environments, including rocky and sandy areas and areas with vegetation. Their findings are soon to appear in Molecular Biology and Evolution.

Comparisons of genomic data from these different species led to the identification of 678 different genes located within genomic regions that exhibited considerable between-species variation. The researchers saw these genes as potentially playing critical roles in , and they identified 43 that were specific to H. chilotes, 54 that were specific to H. sauvagei, and 63 that were specific to L. rufus. Some of these genes were related to behavioral variables, such as circadian rhythms, locomotion, and the development of sensory systems.

The genomic analyses also revealed signs of what biologists call "selective sweep events," in which selective pressures cause a beneficial mutation to rapidly increase its frequency within a population and become present in all members of a species. Furthermore, many of the species-specific alleles appeared to have existed alongside several alternative alleles prior to the adaptive that produced different species of fish.

In conclusion, these analyses of Lake Victoria cichlids offer novel insights into the genetic processes underlying adaptive radiation. As Professor Nikaido puts it, "Our analyses uncovered the processes of species-specific adaption of Lake Victoria cichlids and the complexity of the genomic substrate that facilitated this adaptation."

The evidence for -specific genetic alleles being derived from preexisting genetic variation is a particularly interesting finding that may prove useful to biologists who wish to understand adaptive radiation processes in different environments.


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More information: Haruna Nakamura et al, Genomic Signatures for Species-Specific Adaptation in Lake Victoria Cichlids Derived from Large-Scale Standing Genetic Variation, Molecular Biology and Evolution (2021). DOI: 10.1093/molbev/msab084
Journal information: Molecular Biology and Evolution

Citation: Research on Lake Victoria cichlids uncovers the processes of rapid species adaptation (2021, April 28) retrieved 14 June 2021 from https://phys.org/news/2021-04-lake-victoria-cichlids-uncovers-rapid.html
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