Cycles of fusion and fission enabled rapid parallel adaptive radiations in African cichlids

Joana I. Meier; Matthew D. McGee; David A. Marques; Salome Mwaiko; Mary Kishe; Sylvester Wandera; Dirk Neumann; Hilary Mrosso; Lauren J. Chapman; Colin A. Chapman; Les Kaufman; Anthony Taabu-Munyaho; Catherine E. Wagner; Rémy Bruggmann; Laurent Excoffier; Ole Seehausen

doi:10.1126/science.ade2833

Cycles of fusion and fission enabled rapid parallel adaptive radiations in African cichlids

Joana I. Meier, Matthew D. McGee, David A. Marques, Salome Mwaiko, Mary Kishe, Sylvester Wandera, Dirk Neumann, Hilary Mrosso, Lauren J. Chapman, Colin A. Chapman, Les Kaufman, Anthony Taabu-Munyaho, Catherine E. Wagner, Rémy Bruggmann, Laurent Excoffier, Ole Seehausen

School of Biological Sciences

Research output: Contribution to journal › Article › Research › peer-review

26 Citations (Scopus)

Abstract

Although some lineages of animals and plants have made impressive adaptive radiations when provided with ecological opportunity, the propensities to radiate vary profoundly among lineages for unknown reasons. In Africa's Lake Victoria region, one cichlid lineage radiated in every lake, with the largest radiation taking place in a lake less than 16,000 years old. We show that all of its ecological guilds evolved in situ. Cycles of lineage fusion through admixture and lineage fission through speciation characterize the history of the radiation. It was jump-started when several swamp-dwelling refugial populations, each of which were of older hybrid descent, met in the newly forming lake, where they fused into a single population, resuspending old admixture variation. Each population contributed a different set of ancient alleles from which a new adaptive radiation assembled in record time, involving additional fusion-fission cycles. We argue that repeated fusion-fission cycles in the history of a lineage make adaptive radiation fast and predictable.

Original language	English
Article number	eade2833
Number of pages	13
Journal	Science
Volume	381
Issue number	6665
DOIs	https://doi.org/10.1126/science.ade2833
Publication status	Published - 29 Sept 2023

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Meier, J. I., McGee, M. D., Marques, D. A., Mwaiko, S., Kishe, M., Wandera, S., Neumann, D., Mrosso, H., Chapman, L. J., Chapman, C. A., Kaufman, L., Taabu-Munyaho, A., Wagner, C. E., Bruggmann, R., Excoffier, L., & Seehausen, O. (2023). Cycles of fusion and fission enabled rapid parallel adaptive radiations in African cichlids. Science, 381(6665), Article eade2833. https://doi.org/10.1126/science.ade2833

@article{274460e7466c4e61a5dc23d0f85821f5,

title = "Cycles of fusion and fission enabled rapid parallel adaptive radiations in African cichlids",

abstract = "Although some lineages of animals and plants have made impressive adaptive radiations when provided with ecological opportunity, the propensities to radiate vary profoundly among lineages for unknown reasons. In Africa's Lake Victoria region, one cichlid lineage radiated in every lake, with the largest radiation taking place in a lake less than 16,000 years old. We show that all of its ecological guilds evolved in situ. Cycles of lineage fusion through admixture and lineage fission through speciation characterize the history of the radiation. It was jump-started when several swamp-dwelling refugial populations, each of which were of older hybrid descent, met in the newly forming lake, where they fused into a single population, resuspending old admixture variation. Each population contributed a different set of ancient alleles from which a new adaptive radiation assembled in record time, involving additional fusion-fission cycles. We argue that repeated fusion-fission cycles in the history of a lineage make adaptive radiation fast and predictable.",

author = "Meier, {Joana I.} and McGee, {Matthew D.} and Marques, {David A.} and Salome Mwaiko and Mary Kishe and Sylvester Wandera and Dirk Neumann and Hilary Mrosso and Chapman, {Lauren J.} and Chapman, {Colin A.} and Les Kaufman and Anthony Taabu-Munyaho and Wagner, {Catherine E.} and R{\'e}my Bruggmann and Laurent Excoffier and Ole Seehausen",

year = "2023",

month = sep,

day = "29",

doi = "10.1126/science.ade2833",

language = "English",

volume = "381",

journal = "Science",

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Meier, JI, McGee, MD, Marques, DA, Mwaiko, S, Kishe, M, Wandera, S, Neumann, D, Mrosso, H, Chapman, LJ, Chapman, CA, Kaufman, L, Taabu-Munyaho, A, Wagner, CE, Bruggmann, R, Excoffier, L & Seehausen, O 2023, 'Cycles of fusion and fission enabled rapid parallel adaptive radiations in African cichlids', Science, vol. 381, no. 6665, eade2833. https://doi.org/10.1126/science.ade2833

TY - JOUR

T1 - Cycles of fusion and fission enabled rapid parallel adaptive radiations in African cichlids

AU - Meier, Joana I.

AU - McGee, Matthew D.

AU - Marques, David A.

AU - Mwaiko, Salome

AU - Kishe, Mary

AU - Wandera, Sylvester

AU - Neumann, Dirk

AU - Mrosso, Hilary

AU - Chapman, Lauren J.

AU - Chapman, Colin A.

AU - Kaufman, Les

AU - Taabu-Munyaho, Anthony

AU - Wagner, Catherine E.

AU - Bruggmann, Rémy

AU - Excoffier, Laurent

AU - Seehausen, Ole

PY - 2023/9/29

Y1 - 2023/9/29

N2 - Although some lineages of animals and plants have made impressive adaptive radiations when provided with ecological opportunity, the propensities to radiate vary profoundly among lineages for unknown reasons. In Africa's Lake Victoria region, one cichlid lineage radiated in every lake, with the largest radiation taking place in a lake less than 16,000 years old. We show that all of its ecological guilds evolved in situ. Cycles of lineage fusion through admixture and lineage fission through speciation characterize the history of the radiation. It was jump-started when several swamp-dwelling refugial populations, each of which were of older hybrid descent, met in the newly forming lake, where they fused into a single population, resuspending old admixture variation. Each population contributed a different set of ancient alleles from which a new adaptive radiation assembled in record time, involving additional fusion-fission cycles. We argue that repeated fusion-fission cycles in the history of a lineage make adaptive radiation fast and predictable.

AB - Although some lineages of animals and plants have made impressive adaptive radiations when provided with ecological opportunity, the propensities to radiate vary profoundly among lineages for unknown reasons. In Africa's Lake Victoria region, one cichlid lineage radiated in every lake, with the largest radiation taking place in a lake less than 16,000 years old. We show that all of its ecological guilds evolved in situ. Cycles of lineage fusion through admixture and lineage fission through speciation characterize the history of the radiation. It was jump-started when several swamp-dwelling refugial populations, each of which were of older hybrid descent, met in the newly forming lake, where they fused into a single population, resuspending old admixture variation. Each population contributed a different set of ancient alleles from which a new adaptive radiation assembled in record time, involving additional fusion-fission cycles. We argue that repeated fusion-fission cycles in the history of a lineage make adaptive radiation fast and predictable.

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DO - 10.1126/science.ade2833

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VL - 381

JO - Science

JF - Science

IS - 6665

M1 - eade2833

ER -

Cycles of fusion and fission enabled rapid parallel adaptive radiations in African cichlids

Abstract

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