Why Do Some Lineages Radiate While Others Do Not? Perspectives for Future Research on Adaptive Radiations

Rishi De-Kayne; Rowan Schley; Julia M.I. Barth; Luke C. Campillo; Catalina Chaparro-Pedraza; Jahnavi Joshi; Walter Salzburger; Bert Van Bocxlaer; Darko D. Cotoras; Carmelo Fruciano; Anthony J. Geneva; Rosemary Gillespie; Joseph Heras; Stephan Koblmüller; Blake Matthews; Renske E. Onstein; Ole Seehausen; Pooja Singh; Erik I. Svensson; David Salazar-Valenzuela; Maarten P.M. Vanhove; Guinevere O.U. Wogan; Ryo Yamaguchi; Anne D. Yoder; José Cerca

doi:10.1101/cshperspect.a041448

Why Do Some Lineages Radiate While Others Do Not? Perspectives for Future Research on Adaptive Radiations

Rishi De-Kayne, Rowan Schley, Julia M.I. Barth, Luke C. Campillo, Catalina Chaparro-Pedraza, Jahnavi Joshi, Walter Salzburger, Bert Van Bocxlaer, Darko D. Cotoras, Carmelo Fruciano, Anthony J. Geneva, Rosemary Gillespie, Joseph Heras, Stephan Koblmüller, Blake Matthews, Renske E. Onstein, Ole Seehausen, Pooja Singh, Erik I. Svensson, David Salazar-ValenzuelaMaarten P.M. Vanhove, Guinevere O.U. Wogan, Ryo Yamaguchi, Anne D. Yoder, José Cerca

Research output: Contribution to journal › Review article › peer-review

3 Scopus citations

Abstract

Understanding the processes that drive phenotypic diversification and underpin speciation is key to elucidating how biodiversity has evolved. Although these processes have been studied across a wide array of clades, adaptive radiations (ARs), which are systems with multiple closely related species and broad phenotypic diversity, have been particularly fruitful for teasing apart the factors that drive and constrain diversification. As such, ARs have become popular candidate study systems for determining the extent to which ecological features, including aspects of organisms and the environment, and inter- and intraspecific interactions, led to evolutionary diversification. Despite substantial past empirical and theoretical work, understanding mechanistically how ARs evolve remains a major challenge. Here, we highlight a number of understudied components of the environment and of lineages themselves, which may help further our understanding of speciation and AR. We also outline some substantial remaining challenges to achieving a detailed understanding of adaptation, speciation, and the role of ecology in these processes. These major challenges include identifying factors that have a causative impact in promoting or constraining ARs, gaining a more holistic understanding of features of organisms and their environment that interact resulting in adaptation and speciation, and understanding whether the role of these organismal and environmental features varies throughout the radiation process. We conclude by providing perspectives on how future investigations into the AR process can overcome these challenges, allowing us to glean mechanistic insights into adaptation and speciation.

Original language	English (US)
Journal	Cold Spring Harbor Perspectives in Biology
Volume	17
Issue number	2
DOIs	https://doi.org/10.1101/cshperspect.a041448
State	Published - Feb 3 2025
Externally published	Yes

All Science Journal Classification (ASJC) codes

General Biochemistry, Genetics and Molecular Biology

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10.1101/cshperspect.a041448

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De-Kayne, R., Schley, R., Barth, J. M. I., Campillo, L. C., Chaparro-Pedraza, C., Joshi, J., Salzburger, W., Van Bocxlaer, B., Cotoras, D. D., Fruciano, C., Geneva, A. J., Gillespie, R., Heras, J., Koblmüller, S., Matthews, B., Onstein, R. E., Seehausen, O., Singh, P., Svensson, E. I., ... Cerca, J. (2025). Why Do Some Lineages Radiate While Others Do Not? Perspectives for Future Research on Adaptive Radiations. Cold Spring Harbor Perspectives in Biology, 17(2). https://doi.org/10.1101/cshperspect.a041448

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title = "Why Do Some Lineages Radiate While Others Do Not? Perspectives for Future Research on Adaptive Radiations",

abstract = "Understanding the processes that drive phenotypic diversification and underpin speciation is key to elucidating how biodiversity has evolved. Although these processes have been studied across a wide array of clades, adaptive radiations (ARs), which are systems with multiple closely related species and broad phenotypic diversity, have been particularly fruitful for teasing apart the factors that drive and constrain diversification. As such, ARs have become popular candidate study systems for determining the extent to which ecological features, including aspects of organisms and the environment, and inter- and intraspecific interactions, led to evolutionary diversification. Despite substantial past empirical and theoretical work, understanding mechanistically how ARs evolve remains a major challenge. Here, we highlight a number of understudied components of the environment and of lineages themselves, which may help further our understanding of speciation and AR. We also outline some substantial remaining challenges to achieving a detailed understanding of adaptation, speciation, and the role of ecology in these processes. These major challenges include identifying factors that have a causative impact in promoting or constraining ARs, gaining a more holistic understanding of features of organisms and their environment that interact resulting in adaptation and speciation, and understanding whether the role of these organismal and environmental features varies throughout the radiation process. We conclude by providing perspectives on how future investigations into the AR process can overcome these challenges, allowing us to glean mechanistic insights into adaptation and speciation.",

author = "Rishi De-Kayne and Rowan Schley and Barth, {Julia M.I.} and Campillo, {Luke C.} and Catalina Chaparro-Pedraza and Jahnavi Joshi and Walter Salzburger and {Van Bocxlaer}, Bert and Cotoras, {Darko D.} and Carmelo Fruciano and Geneva, {Anthony J.} and Rosemary Gillespie and Joseph Heras and Stephan Koblm{\"u}ller and Blake Matthews and Onstein, {Renske E.} and Ole Seehausen and Pooja Singh and Svensson, {Erik I.} and David Salazar-Valenzuela and Vanhove, {Maarten P.M.} and Wogan, {Guinevere O.U.} and Ryo Yamaguchi and Yoder, {Anne D.} and Jos{\'e} Cerca",

year = "2025",

month = feb,

day = "3",

doi = "10.1101/cshperspect.a041448",

language = "English (US)",

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journal = "Cold Spring Harbor Perspectives in Biology",

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De-Kayne, R, Schley, R, Barth, JMI, Campillo, LC, Chaparro-Pedraza, C, Joshi, J, Salzburger, W, Van Bocxlaer, B, Cotoras, DD, Fruciano, C, Geneva, AJ, Gillespie, R, Heras, J, Koblmüller, S, Matthews, B, Onstein, RE, Seehausen, O, Singh, P, Svensson, EI, Salazar-Valenzuela, D, Vanhove, MPM, Wogan, GOU, Yamaguchi, R, Yoder, AD & Cerca, J 2025, 'Why Do Some Lineages Radiate While Others Do Not? Perspectives for Future Research on Adaptive Radiations', Cold Spring Harbor Perspectives in Biology, vol. 17, no. 2. https://doi.org/10.1101/cshperspect.a041448

TY - JOUR

T1 - Why Do Some Lineages Radiate While Others Do Not? Perspectives for Future Research on Adaptive Radiations

AU - De-Kayne, Rishi

AU - Schley, Rowan

AU - Barth, Julia M.I.

AU - Campillo, Luke C.

AU - Chaparro-Pedraza, Catalina

AU - Joshi, Jahnavi

AU - Salzburger, Walter

AU - Van Bocxlaer, Bert

AU - Cotoras, Darko D.

AU - Fruciano, Carmelo

AU - Geneva, Anthony J.

AU - Gillespie, Rosemary

AU - Heras, Joseph

AU - Koblmüller, Stephan

AU - Matthews, Blake

AU - Onstein, Renske E.

AU - Seehausen, Ole

AU - Singh, Pooja

AU - Svensson, Erik I.

AU - Salazar-Valenzuela, David

AU - Vanhove, Maarten P.M.

AU - Wogan, Guinevere O.U.

AU - Yamaguchi, Ryo

AU - Yoder, Anne D.

AU - Cerca, José

PY - 2025/2/3

Y1 - 2025/2/3

N2 - Understanding the processes that drive phenotypic diversification and underpin speciation is key to elucidating how biodiversity has evolved. Although these processes have been studied across a wide array of clades, adaptive radiations (ARs), which are systems with multiple closely related species and broad phenotypic diversity, have been particularly fruitful for teasing apart the factors that drive and constrain diversification. As such, ARs have become popular candidate study systems for determining the extent to which ecological features, including aspects of organisms and the environment, and inter- and intraspecific interactions, led to evolutionary diversification. Despite substantial past empirical and theoretical work, understanding mechanistically how ARs evolve remains a major challenge. Here, we highlight a number of understudied components of the environment and of lineages themselves, which may help further our understanding of speciation and AR. We also outline some substantial remaining challenges to achieving a detailed understanding of adaptation, speciation, and the role of ecology in these processes. These major challenges include identifying factors that have a causative impact in promoting or constraining ARs, gaining a more holistic understanding of features of organisms and their environment that interact resulting in adaptation and speciation, and understanding whether the role of these organismal and environmental features varies throughout the radiation process. We conclude by providing perspectives on how future investigations into the AR process can overcome these challenges, allowing us to glean mechanistic insights into adaptation and speciation.

AB - Understanding the processes that drive phenotypic diversification and underpin speciation is key to elucidating how biodiversity has evolved. Although these processes have been studied across a wide array of clades, adaptive radiations (ARs), which are systems with multiple closely related species and broad phenotypic diversity, have been particularly fruitful for teasing apart the factors that drive and constrain diversification. As such, ARs have become popular candidate study systems for determining the extent to which ecological features, including aspects of organisms and the environment, and inter- and intraspecific interactions, led to evolutionary diversification. Despite substantial past empirical and theoretical work, understanding mechanistically how ARs evolve remains a major challenge. Here, we highlight a number of understudied components of the environment and of lineages themselves, which may help further our understanding of speciation and AR. We also outline some substantial remaining challenges to achieving a detailed understanding of adaptation, speciation, and the role of ecology in these processes. These major challenges include identifying factors that have a causative impact in promoting or constraining ARs, gaining a more holistic understanding of features of organisms and their environment that interact resulting in adaptation and speciation, and understanding whether the role of these organismal and environmental features varies throughout the radiation process. We conclude by providing perspectives on how future investigations into the AR process can overcome these challenges, allowing us to glean mechanistic insights into adaptation and speciation.

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U2 - 10.1101/cshperspect.a041448

DO - 10.1101/cshperspect.a041448

M3 - Review article

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AN - SCOPUS:85218221278

SN - 1943-0264

VL - 17

JO - Cold Spring Harbor Perspectives in Biology

JF - Cold Spring Harbor Perspectives in Biology

IS - 2

ER -

Why Do Some Lineages Radiate While Others Do Not? Perspectives for Future Research on Adaptive Radiations

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