The paradox of predictability provides a bridge between micro- and macroevolution

Masahito Tsuboi; Jacqueline Sztepanacz; Stephen De Lisle; Kjetil L. Voje; Mark Grabowski; Melanie J. Hopkins; Arthur Porto; Meghan Balk; Mikael Pontarp; Daniela Rossoni; Laura S. Hildesheim; Quentin J.B. Horta-Lacueva; Niklas Hohmann; Agnes Holstad; Moritz Lürig; Lisandro Milocco; Sofie Nilã©n; Arianna Passarotto; Erik I. Svensson; Cristina Villegas; Erica Winslott; Lee Hsiang Liow; Gene Hunt; Alan C. Love; David Houle

doi:10.1093/jeb/voae103

The paradox of predictability provides a bridge between micro- and macroevolution

Masahito Tsuboi, Jacqueline Sztepanacz, Stephen De Lisle, Kjetil L. Voje, Mark Grabowski, Melanie J. Hopkins, Arthur Porto, Meghan Balk, Mikael Pontarp, Daniela Rossoni, Laura S. Hildesheim, Quentin J.B. Horta-Lacueva, Niklas Hohmann, Agnes Holstad, Moritz Lürig, Lisandro Milocco, Sofie Nilã©n, Arianna Passarotto, Erik I. Svensson, Cristina VillegasErica Winslott, Lee Hsiang Liow, Gene Hunt, Alan C. Love, David Houle

Philosophy (Twin Cities)

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

2 Scopus citations

Abstract

The relationship between the evolutionary dynamics observed in contemporary populations (microevolution) and evolution on timescales of millions of years (macroevolution) has been a topic of considerable debate. Historically, this debate centers on inconsistencies between microevolutionary processes and macroevolutionary patterns. Here, we characterize a striking exception: emerging evidence indicates that standing variation in contemporary populations and macroevolutionary rates of phenotypic divergence is often positively correlated. This apparent consistency between micro- and macroevolution is paradoxical because it contradicts our previous understanding of phenotypic evolution and is so far unexplained. Here, we explore the prospects for bridging evolutionary timescales through an examination of this "paradox of predictability."We begin by explaining why the divergence-variance correlation is a paradox, followed by data analysis to show that the correlation is a general phenomenon across a broad range of temporal scales, from a few generations to tens of millions of years. Then we review complementary approaches from quantitative genetics, comparative morphology, evo-devo, and paleontology to argue that they can help to address the paradox from the shared vantage point of recent work on evolvability. In conclusion, we recommend a methodological orientation that combines different kinds of short-term and long-term data using multiple analytical frameworks in an interdisciplinary research program. Such a program will increase our general understanding of how evolution works within and across timescales.

Original language	English (US)
Pages (from-to)	1413-1432
Number of pages	20
Journal	Journal of evolutionary biology
Volume	37
Issue number	12
DOIs	https://doi.org/10.1093/jeb/voae103
State	Published - Dec 2024

Bibliographical note

Publisher Copyright:
© 2024 The Author(s).

Keywords

evolutionary prediction
evolvability
genotype-phenotype map
macroevolution
phenotypic integration
phylogenetic comparative methods
quantitative genetics
time-series analysis

PubMed: MeSH publication types

Journal Article
Review

Publisher link

10.1093/jeb/voae103

Find It

Find It at U of M Libraries

Cite this

Tsuboi, M., Sztepanacz, J., De Lisle, S., Voje, K. L., Grabowski, M., Hopkins, M. J., Porto, A., Balk, M., Pontarp, M., Rossoni, D., Hildesheim, L. S., Horta-Lacueva, Q. J. B., Hohmann, N., Holstad, A., Lürig, M., Milocco, L., Nilã©n, S., Passarotto, A., Svensson, E. I., ... Houle, D. (2024). The paradox of predictability provides a bridge between micro- and macroevolution. Journal of evolutionary biology, 37(12), 1413-1432. https://doi.org/10.1093/jeb/voae103

Tsuboi, M, Sztepanacz, J, De Lisle, S, Voje, KL, Grabowski, M, Hopkins, MJ, Porto, A, Balk, M, Pontarp, M, Rossoni, D, Hildesheim, LS, Horta-Lacueva, QJB, Hohmann, N, Holstad, A, Lürig, M, Milocco, L, Nilã©n, S, Passarotto, A, Svensson, EI, Villegas, C, Winslott, E, Liow, LH, Hunt, G, Love, AC & Houle, D 2024, 'The paradox of predictability provides a bridge between micro- and macroevolution', Journal of evolutionary biology, vol. 37, no. 12, pp. 1413-1432. https://doi.org/10.1093/jeb/voae103

@article{d91a32708f3f403aae49c53e0b11453d,

title = "The paradox of predictability provides a bridge between micro- and macroevolution",

abstract = "The relationship between the evolutionary dynamics observed in contemporary populations (microevolution) and evolution on timescales of millions of years (macroevolution) has been a topic of considerable debate. Historically, this debate centers on inconsistencies between microevolutionary processes and macroevolutionary patterns. Here, we characterize a striking exception: emerging evidence indicates that standing variation in contemporary populations and macroevolutionary rates of phenotypic divergence is often positively correlated. This apparent consistency between micro- and macroevolution is paradoxical because it contradicts our previous understanding of phenotypic evolution and is so far unexplained. Here, we explore the prospects for bridging evolutionary timescales through an examination of this {"}paradox of predictability.{"}We begin by explaining why the divergence-variance correlation is a paradox, followed by data analysis to show that the correlation is a general phenomenon across a broad range of temporal scales, from a few generations to tens of millions of years. Then we review complementary approaches from quantitative genetics, comparative morphology, evo-devo, and paleontology to argue that they can help to address the paradox from the shared vantage point of recent work on evolvability. In conclusion, we recommend a methodological orientation that combines different kinds of short-term and long-term data using multiple analytical frameworks in an interdisciplinary research program. Such a program will increase our general understanding of how evolution works within and across timescales.",

keywords = "evolutionary prediction, evolvability, genotype-phenotype map, macroevolution, phenotypic integration, phylogenetic comparative methods, quantitative genetics, time-series analysis",

author = "Masahito Tsuboi and Jacqueline Sztepanacz and {De Lisle}, Stephen and Voje, {Kjetil L.} and Mark Grabowski and Hopkins, {Melanie J.} and Arthur Porto and Meghan Balk and Mikael Pontarp and Daniela Rossoni and Hildesheim, {Laura S.} and Horta-Lacueva, {Quentin J.B.} and Niklas Hohmann and Agnes Holstad and Moritz L{\"u}rig and Lisandro Milocco and Sofie Nil{\~a}{\textcopyright}n and Arianna Passarotto and Svensson, {Erik I.} and Cristina Villegas and Erica Winslott and Liow, {Lee Hsiang} and Gene Hunt and Love, {Alan C.} and David Houle",

note = "Publisher Copyright: {\textcopyright} 2024 The Author(s).",

year = "2024",

month = dec,

doi = "10.1093/jeb/voae103",

language = "English (US)",

volume = "37",

pages = "1413--1432",

journal = "Journal of evolutionary biology",

issn = "1010-061X",

publisher = "Oxford University Press",

number = "12",

}

TY - JOUR

T1 - The paradox of predictability provides a bridge between micro- and macroevolution

AU - Tsuboi, Masahito

AU - Sztepanacz, Jacqueline

AU - De Lisle, Stephen

AU - Voje, Kjetil L.

AU - Grabowski, Mark

AU - Hopkins, Melanie J.

AU - Porto, Arthur

AU - Balk, Meghan

AU - Pontarp, Mikael

AU - Rossoni, Daniela

AU - Hildesheim, Laura S.

AU - Horta-Lacueva, Quentin J.B.

AU - Hohmann, Niklas

AU - Holstad, Agnes

AU - Lürig, Moritz

AU - Milocco, Lisandro

AU - Nilã©n, Sofie

AU - Passarotto, Arianna

AU - Svensson, Erik I.

AU - Villegas, Cristina

AU - Winslott, Erica

AU - Liow, Lee Hsiang

AU - Hunt, Gene

AU - Love, Alan C.

AU - Houle, David

PY - 2024/12

Y1 - 2024/12

N2 - The relationship between the evolutionary dynamics observed in contemporary populations (microevolution) and evolution on timescales of millions of years (macroevolution) has been a topic of considerable debate. Historically, this debate centers on inconsistencies between microevolutionary processes and macroevolutionary patterns. Here, we characterize a striking exception: emerging evidence indicates that standing variation in contemporary populations and macroevolutionary rates of phenotypic divergence is often positively correlated. This apparent consistency between micro- and macroevolution is paradoxical because it contradicts our previous understanding of phenotypic evolution and is so far unexplained. Here, we explore the prospects for bridging evolutionary timescales through an examination of this "paradox of predictability."We begin by explaining why the divergence-variance correlation is a paradox, followed by data analysis to show that the correlation is a general phenomenon across a broad range of temporal scales, from a few generations to tens of millions of years. Then we review complementary approaches from quantitative genetics, comparative morphology, evo-devo, and paleontology to argue that they can help to address the paradox from the shared vantage point of recent work on evolvability. In conclusion, we recommend a methodological orientation that combines different kinds of short-term and long-term data using multiple analytical frameworks in an interdisciplinary research program. Such a program will increase our general understanding of how evolution works within and across timescales.

AB - The relationship between the evolutionary dynamics observed in contemporary populations (microevolution) and evolution on timescales of millions of years (macroevolution) has been a topic of considerable debate. Historically, this debate centers on inconsistencies between microevolutionary processes and macroevolutionary patterns. Here, we characterize a striking exception: emerging evidence indicates that standing variation in contemporary populations and macroevolutionary rates of phenotypic divergence is often positively correlated. This apparent consistency between micro- and macroevolution is paradoxical because it contradicts our previous understanding of phenotypic evolution and is so far unexplained. Here, we explore the prospects for bridging evolutionary timescales through an examination of this "paradox of predictability."We begin by explaining why the divergence-variance correlation is a paradox, followed by data analysis to show that the correlation is a general phenomenon across a broad range of temporal scales, from a few generations to tens of millions of years. Then we review complementary approaches from quantitative genetics, comparative morphology, evo-devo, and paleontology to argue that they can help to address the paradox from the shared vantage point of recent work on evolvability. In conclusion, we recommend a methodological orientation that combines different kinds of short-term and long-term data using multiple analytical frameworks in an interdisciplinary research program. Such a program will increase our general understanding of how evolution works within and across timescales.

KW - evolutionary prediction

KW - evolvability

KW - genotype-phenotype map

KW - macroevolution

KW - phenotypic integration

KW - phylogenetic comparative methods

KW - quantitative genetics

KW - time-series analysis

UR - http://www.scopus.com/inward/record.url?scp=85211352240&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=85211352240&partnerID=8YFLogxK

U2 - 10.1093/jeb/voae103

DO - 10.1093/jeb/voae103

M3 - Review article

C2 - 39208440

AN - SCOPUS:85211352240

SN - 1010-061X

VL - 37

SP - 1413

EP - 1432

JO - Journal of evolutionary biology

JF - Journal of evolutionary biology

IS - 12

ER -

The paradox of predictability provides a bridge between micro- and macroevolution

Abstract

Bibliographical note

Keywords

PubMed: MeSH publication types

Publisher link

Find It

Other files and links

Fingerprint

Cite this