Rapid radiation in a highly diverse marine environment
Hench K, Helmkampf M, McMillan WO, Puebla O (2022)
Proceedings of the National Academy of Sciences 119(4).
Zeitschriftenaufsatz
| Veröffentlicht | Englisch
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Autor*in
Hench, KosmasUniBi 
;
Helmkampf, Martin;
McMillan, W. Owen;
Puebla, Oscar
;
Helmkampf, Martin;
McMillan, W. Owen;
Puebla, OscarEinrichtung
Abstract / Bemerkung
**Significance**
Adaptive radiation, the evolutionary process whereby a lineage diversifies over a short period of time, often occurs in geographically isolated or newly formed habitats where colonizing species encounter unoccupied niches and reduced selective pressures. Rapid radiations may also occur in diverse and complex environments, but these cases are less well documented. Here, we show that the hamlets, a group of Caribbean reef fishes, radiated within the last 10,000 generations in a burst of diversification that ranks among the fastest in fishes. Genomic analysis suggests that color pattern diversity is generated by different combinations of alleles at a few genes with large effect. Such a modular genomic architecture of diversification is emerging as a common denominator to a variety of radiations.
Rapid diversification is often observed when founding species invade isolated or newly formed habitats that provide ecological opportunity for adaptive radiation. However, most of the Earth’s diversity arose in diverse environments where ecological opportunities appear to be more constrained. Here, we present a striking example of a rapid radiation in a highly diverse marine habitat. The hamlets, a group of reef fishes from the wider Caribbean, have radiated into a stunning diversity of color patterns but show low divergence across other ecological axes. Although the hamlet lineage is ∼26 My old, the radiation appears to have occurred within the last 10,000 generations in a burst of diversification that ranks among the fastest in fishes. As such, the hamlets provide a compelling backdrop to uncover the genomic elements associated with phenotypic diversification and an excellent opportunity to build a broader comparative framework for understanding the drivers of adaptive radiation. The analysis of 170 genomes suggests that color pattern diversity is generated by different combinations of alleles at a few large-effect loci. Such a modular genomic architecture of diversification has been documented before inHeliconiusbutterflies, capuchino finches, and munia finches, three other tropical radiations that took place in highly diverse and complex environments. The hamlet radiation also occurred in a context of high effective population size, which is typical of marine populations. This allows for the accumulation of new variants through mutation and the retention of ancestral genetic variation, both of which appear to be important in this radiation.
Adaptive radiation, the evolutionary process whereby a lineage diversifies over a short period of time, often occurs in geographically isolated or newly formed habitats where colonizing species encounter unoccupied niches and reduced selective pressures. Rapid radiations may also occur in diverse and complex environments, but these cases are less well documented. Here, we show that the hamlets, a group of Caribbean reef fishes, radiated within the last 10,000 generations in a burst of diversification that ranks among the fastest in fishes. Genomic analysis suggests that color pattern diversity is generated by different combinations of alleles at a few genes with large effect. Such a modular genomic architecture of diversification is emerging as a common denominator to a variety of radiations.
Rapid diversification is often observed when founding species invade isolated or newly formed habitats that provide ecological opportunity for adaptive radiation. However, most of the Earth’s diversity arose in diverse environments where ecological opportunities appear to be more constrained. Here, we present a striking example of a rapid radiation in a highly diverse marine habitat. The hamlets, a group of reef fishes from the wider Caribbean, have radiated into a stunning diversity of color patterns but show low divergence across other ecological axes. Although the hamlet lineage is ∼26 My old, the radiation appears to have occurred within the last 10,000 generations in a burst of diversification that ranks among the fastest in fishes. As such, the hamlets provide a compelling backdrop to uncover the genomic elements associated with phenotypic diversification and an excellent opportunity to build a broader comparative framework for understanding the drivers of adaptive radiation. The analysis of 170 genomes suggests that color pattern diversity is generated by different combinations of alleles at a few large-effect loci. Such a modular genomic architecture of diversification has been documented before inHeliconiusbutterflies, capuchino finches, and munia finches, three other tropical radiations that took place in highly diverse and complex environments. The hamlet radiation also occurred in a context of high effective population size, which is typical of marine populations. This allows for the accumulation of new variants through mutation and the retention of ancestral genetic variation, both of which appear to be important in this radiation.
Erscheinungsjahr
2022
Zeitschriftentitel
Proceedings of the National Academy of Sciences
Band
119
Ausgabe
4
ISSN
0027-8424
eISSN
1091-6490
Page URI
https://pub.uni-bielefeld.de/record/2988695
Zitieren
Hench K, Helmkampf M, McMillan WO, Puebla O. Rapid radiation in a highly diverse marine environment. Proceedings of the National Academy of Sciences. 2022;119(4).
Hench, K., Helmkampf, M., McMillan, W. O., & Puebla, O. (2022). Rapid radiation in a highly diverse marine environment. Proceedings of the National Academy of Sciences, 119(4). https://doi.org/10.1073/pnas.2020457119
Hench, Kosmas, Helmkampf, Martin, McMillan, W. Owen, and Puebla, Oscar. 2022. “Rapid radiation in a highly diverse marine environment”. Proceedings of the National Academy of Sciences 119 (4).
Hench, K., Helmkampf, M., McMillan, W. O., and Puebla, O. (2022). Rapid radiation in a highly diverse marine environment. Proceedings of the National Academy of Sciences 119.
Hench, K., et al., 2022. Rapid radiation in a highly diverse marine environment. Proceedings of the National Academy of Sciences, 119(4).
K. Hench, et al., “Rapid radiation in a highly diverse marine environment”, Proceedings of the National Academy of Sciences, vol. 119, 2022.
Hench, K., Helmkampf, M., McMillan, W.O., Puebla, O.: Rapid radiation in a highly diverse marine environment. Proceedings of the National Academy of Sciences. 119, (2022).
Hench, Kosmas, Helmkampf, Martin, McMillan, W. Owen, and Puebla, Oscar. “Rapid radiation in a highly diverse marine environment”. Proceedings of the National Academy of Sciences 119.4 (2022).
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