Changes in phenology mediate vertebrate population responses to temperature globally

Viktoriia Radchuk; Carys V. Jones; Nina McLean; Anne Charmantier; Céline Teplitsky; Ray Alisauskas; Sergio Ancona; Tycho Anker-Nilssen; Peter Arcese; Debora Arlt; Lise M. Aubry; Liam Bailey; Christophe Barbraud; Karl S. Berg; Dominique Berteaux; Daniel T. Blumstein; Sandra Bouwhuis; Ulrich Brose; Lyanne Brouwer; Paulo Catry; Guillaume Chero; Andre Chiaradia; Alexandre Courtiol; Francis Daunt; Karine Delord; F. Stephen Dobson; Hugh Drummond; Tapio Eeva; Dominique Fauteux; Gilles Gauthier; Meritxell Genovart; José P. Granadeiro; Jonas Hentati-Sundberg; Michael Harris; José Manuel Igual; Fredric Janzen; Katharine Keogan; Erkki Korpimäki; Stephanie Kramer-Schadt; Loeske E.B. Kruuk; Sue Lewis; Mark Mallory; Julien Martin; Manuel Massot; Erik Matthysen; Jean Baptiste Mihoub; Anders Pape Møller; Chloé R. Nater; Mark Newell; Steffen Oppel; Daniel Oro; Santiago Ortega; Deseada Parejo; Tomas Pärt; Ana Payo-Payo; Josephine Pemberton; Richard A. Phillips; Neville Pillay; Jesús M. Avilés; Heiko G. Rödel; Ana Sanz-Aguilar; Claire Saraux; Holger Schielzeth; Carsten Schradin; Julia Schroeder; Ben C. Sheldon; Giacomo Tavecchia; Corey E. Tarwater; Vebjørn Veiberg; Vincent A. Viblanc; Dietrich von Holst; Stefan J.G. Vriend; Sarah Wanless; Nathaniel Wheelwright; Andrew G. Wood; Bernt Erik Sæther; Stephanie Jenouvrier; Jean Clobert; Steven R. Beissinger; Marcel E. Visser; Thomas E. Reed; Martijn van de Pol

doi:10.1038/s41467-025-68172-8

Changes in phenology mediate vertebrate population responses to temperature globally

Viktoriia Radchuk
, Carys V. Jones
, Nina McLean
, Anne Charmantier
, Céline Teplitsky
, Ray Alisauskas
, Sergio Ancona
, Tycho Anker-Nilssen
, Peter Arcese
, Debora Arlt
, Lise M. Aubry
, Liam Bailey
, Christophe Barbraud
, Karl S. Berg
, Dominique Berteaux
, Daniel T. Blumstein
, Sandra Bouwhuis
, Ulrich Brose
, Lyanne Brouwer
, Paulo Catry

Guillaume Chero, Andre Chiaradia, Alexandre Courtiol, Francis Daunt, Karine Delord, F. Stephen Dobson, Hugh Drummond, Tapio Eeva, Dominique Fauteux, Gilles Gauthier, Meritxell Genovart, José P. Granadeiro, Jonas Hentati-Sundberg, Michael Harris, José Manuel Igual, Fredric Janzen, Katharine Keogan, Erkki Korpimäki, Stephanie Kramer-Schadt, Loeske E.B. Kruuk, Sue Lewis, Mark Mallory, Julien Martin, Manuel Massot, Erik Matthysen, Jean Baptiste Mihoub, Anders Pape Møller, Chloé R. Nater, Mark Newell, Steffen Oppel, Daniel Oro, Santiago Ortega, Deseada Parejo, Tomas Pärt, Ana Payo-Payo, Josephine Pemberton, Richard A. Phillips, Neville Pillay, Jesús M. Avilés, Heiko G. Rödel, Ana Sanz-Aguilar, Claire Saraux, Holger Schielzeth, Carsten Schradin, Julia Schroeder, Ben C. Sheldon, Giacomo Tavecchia, Corey E. Tarwater, Vebjørn Veiberg, Vincent A. Viblanc, Dietrich von Holst, Stefan J.G. Vriend, Sarah Wanless, Nathaniel Wheelwright, Andrew G. Wood, Bernt Erik Sæther, Stephanie Jenouvrier, Jean Clobert, Steven R. Beissinger, Marcel E. Visser, Thomas E. Reed, Martijn van de Pol

School of Biological, Earth and Environmental Sciences

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

Abstract

Phenotypic responses to climate affect individual fitness, but the extent to which this translates into effects on population dynamics remains poorly understood. We assemble 213 time series on phenotypes and population sizes of wild vertebrates globally and match them with local climate data. Our meta-analysis shows that morphological traits are mostly climate insensitive. However, phenology is earlier in warmer-than-average years, which contributes positively to population growth in most species. At lower latitudes, temperature has weaker effects on phenology but stronger direct negative effects on population growth, likely because these populations are less capable of tracking climate via plasticity. Variation in the phenology-mediated effect of temperature on population growth cannot be explained by latitude, generation time, migratory mode, or diet. This suggests that simple relationships between species characteristics and population responses to warming may not occur in nature. Instead, we may need to embrace ecological complexity by considering local-scale predictors that capture intra-specific variation.

Original language	English (Ireland)
Article number	479
Journal	Nature Communications
Volume	17
Issue number	1
DOIs	https://doi.org/10.1038/s41467-025-68172-8 https://doi.org/10.1038/s41467-025-68172-8
Publication status	Published - Jan 2026

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Radchuk, V., Jones, C. V., McLean, N., Charmantier, A., Teplitsky, C., Alisauskas, R., Ancona, S., Anker-Nilssen, T., Arcese, P., Arlt, D., Aubry, L. M., Bailey, L., Barbraud, C., Berg, K. S., Berteaux, D., Blumstein, D. T., Bouwhuis, S., Brose, U., Brouwer, L., ... van de Pol, M. (2026). Changes in phenology mediate vertebrate population responses to temperature globally. Nature Communications, 17(1), Article 479. https://doi.org/10.1038/s41467-025-68172-8, https://doi.org/10.1038/s41467-025-68172-8

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title = "Changes in phenology mediate vertebrate population responses to temperature globally",

abstract = "Phenotypic responses to climate affect individual fitness, but the extent to which this translates into effects on population dynamics remains poorly understood. We assemble 213 time series on phenotypes and population sizes of wild vertebrates globally and match them with local climate data. Our meta-analysis shows that morphological traits are mostly climate insensitive. However, phenology is earlier in warmer-than-average years, which contributes positively to population growth in most species. At lower latitudes, temperature has weaker effects on phenology but stronger direct negative effects on population growth, likely because these populations are less capable of tracking climate via plasticity. Variation in the phenology-mediated effect of temperature on population growth cannot be explained by latitude, generation time, migratory mode, or diet. This suggests that simple relationships between species characteristics and population responses to warming may not occur in nature. Instead, we may need to embrace ecological complexity by considering local-scale predictors that capture intra-specific variation.",

author = "Viktoriia Radchuk and Jones, \{Carys V.\} and Nina McLean and Anne Charmantier and C{\'e}line Teplitsky and Ray Alisauskas and Sergio Ancona and Tycho Anker-Nilssen and Peter Arcese and Debora Arlt and Aubry, \{Lise M.\} and Liam Bailey and Christophe Barbraud and Berg, \{Karl S.\} and Dominique Berteaux and Blumstein, \{Daniel T.\} and Sandra Bouwhuis and Ulrich Brose and Lyanne Brouwer and Paulo Catry and Guillaume Chero and Andre Chiaradia and Alexandre Courtiol and Francis Daunt and Karine Delord and Dobson, \{F. Stephen\} and Hugh Drummond and Tapio Eeva and Dominique Fauteux and Gilles Gauthier and Meritxell Genovart and Granadeiro, \{Jos{\'e} P.\} and Jonas Hentati-Sundberg and Michael Harris and Igual, \{Jos{\'e} Manuel\} and Fredric Janzen and Katharine Keogan and Erkki Korpim{\"a}ki and Stephanie Kramer-Schadt and Kruuk, \{Loeske E.B.\} and Sue Lewis and Mark Mallory and Julien Martin and Manuel Massot and Erik Matthysen and Mihoub, \{Jean Baptiste\} and M{\o}ller, \{Anders Pape\} and Nater, \{Chlo{\'e} R.\} and Mark Newell and Steffen Oppel and Daniel Oro and Santiago Ortega and Deseada Parejo and Tomas P{\"a}rt and Ana Payo-Payo and Josephine Pemberton and Phillips, \{Richard A.\} and Neville Pillay and Avil{\'e}s, \{Jes{\'u}s M.\} and R{\"o}del, \{Heiko G.\} and Ana Sanz-Aguilar and Claire Saraux and Holger Schielzeth and Carsten Schradin and Julia Schroeder and Sheldon, \{Ben C.\} and Giacomo Tavecchia and Tarwater, \{Corey E.\} and Vebj{\o}rn Veiberg and Viblanc, \{Vincent A.\} and \{von Holst\}, Dietrich and Vriend, \{Stefan J.G.\} and Sarah Wanless and Nathaniel Wheelwright and Wood, \{Andrew G.\} and S{\ae}ther, \{Bernt Erik\} and Stephanie Jenouvrier and Jean Clobert and Beissinger, \{Steven R.\} and Visser, \{Marcel E.\} and Reed, \{Thomas E.\} and \{van de Pol\}, Martijn",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2026.",

year = "2026",

month = jan,

doi = "10.1038/s41467-025-68172-8",

language = "English (Ireland)",

volume = "17",

journal = "Nature Communications",

issn = "2041-1723",

publisher = "Nature Research",

number = "1",

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Radchuk, V, Jones, CV, McLean, N, Charmantier, A, Teplitsky, C, Alisauskas, R, Ancona, S, Anker-Nilssen, T, Arcese, P, Arlt, D, Aubry, LM, Bailey, L, Barbraud, C, Berg, KS, Berteaux, D, Blumstein, DT, Bouwhuis, S, Brose, U, Brouwer, L, Catry, P, Chero, G, Chiaradia, A, Courtiol, A, Daunt, F, Delord, K, Dobson, FS, Drummond, H, Eeva, T, Fauteux, D, Gauthier, G, Genovart, M, Granadeiro, JP, Hentati-Sundberg, J, Harris, M, Igual, JM, Janzen, F, Keogan, K, Korpimäki, E, Kramer-Schadt, S, Kruuk, LEB, Lewis, S, Mallory, M, Martin, J, Massot, M, Matthysen, E, Mihoub, JB, Møller, AP, Nater, CR, Newell, M, Oppel, S, Oro, D, Ortega, S, Parejo, D, Pärt, T, Payo-Payo, A, Pemberton, J, Phillips, RA, Pillay, N, Avilés, JM, Rödel, HG, Sanz-Aguilar, A, Saraux, C, Schielzeth, H, Schradin, C, Schroeder, J, Sheldon, BC, Tavecchia, G, Tarwater, CE, Veiberg, V, Viblanc, VA, von Holst, D, Vriend, SJG, Wanless, S, Wheelwright, N, Wood, AG, Sæther, BE, Jenouvrier, S, Clobert, J, Beissinger, SR, Visser, ME, Reed, TE & van de Pol, M 2026, 'Changes in phenology mediate vertebrate population responses to temperature globally', Nature Communications, vol. 17, no. 1, 479. https://doi.org/10.1038/s41467-025-68172-8, https://doi.org/10.1038/s41467-025-68172-8

TY - JOUR

T1 - Changes in phenology mediate vertebrate population responses to temperature globally

AU - Radchuk, Viktoriia

AU - Jones, Carys V.

AU - McLean, Nina

AU - Charmantier, Anne

AU - Teplitsky, Céline

AU - Alisauskas, Ray

AU - Ancona, Sergio

AU - Anker-Nilssen, Tycho

AU - Arcese, Peter

AU - Arlt, Debora

AU - Aubry, Lise M.

AU - Bailey, Liam

AU - Barbraud, Christophe

AU - Berg, Karl S.

AU - Berteaux, Dominique

AU - Blumstein, Daniel T.

AU - Bouwhuis, Sandra

AU - Brose, Ulrich

AU - Brouwer, Lyanne

AU - Catry, Paulo

AU - Chero, Guillaume

AU - Chiaradia, Andre

AU - Courtiol, Alexandre

AU - Daunt, Francis

AU - Delord, Karine

AU - Dobson, F. Stephen

AU - Drummond, Hugh

AU - Eeva, Tapio

AU - Fauteux, Dominique

AU - Gauthier, Gilles

AU - Genovart, Meritxell

AU - Granadeiro, José P.

AU - Hentati-Sundberg, Jonas

AU - Harris, Michael

AU - Igual, José Manuel

AU - Janzen, Fredric

AU - Keogan, Katharine

AU - Korpimäki, Erkki

AU - Kramer-Schadt, Stephanie

AU - Kruuk, Loeske E.B.

AU - Lewis, Sue

AU - Mallory, Mark

AU - Martin, Julien

AU - Massot, Manuel

AU - Matthysen, Erik

AU - Mihoub, Jean Baptiste

AU - Møller, Anders Pape

AU - Nater, Chloé R.

AU - Newell, Mark

AU - Oppel, Steffen

AU - Oro, Daniel

AU - Ortega, Santiago

AU - Parejo, Deseada

AU - Pärt, Tomas

AU - Payo-Payo, Ana

AU - Pemberton, Josephine

AU - Phillips, Richard A.

AU - Pillay, Neville

AU - Avilés, Jesús M.

AU - Rödel, Heiko G.

AU - Sanz-Aguilar, Ana

AU - Saraux, Claire

AU - Schielzeth, Holger

AU - Schradin, Carsten

AU - Schroeder, Julia

AU - Sheldon, Ben C.

AU - Tavecchia, Giacomo

AU - Tarwater, Corey E.

AU - Veiberg, Vebjørn

AU - Viblanc, Vincent A.

AU - von Holst, Dietrich

AU - Vriend, Stefan J.G.

AU - Wanless, Sarah

AU - Wheelwright, Nathaniel

AU - Wood, Andrew G.

AU - Sæther, Bernt Erik

AU - Jenouvrier, Stephanie

AU - Clobert, Jean

AU - Beissinger, Steven R.

AU - Visser, Marcel E.

AU - Reed, Thomas E.

AU - van de Pol, Martijn

PY - 2026/1

Y1 - 2026/1

N2 - Phenotypic responses to climate affect individual fitness, but the extent to which this translates into effects on population dynamics remains poorly understood. We assemble 213 time series on phenotypes and population sizes of wild vertebrates globally and match them with local climate data. Our meta-analysis shows that morphological traits are mostly climate insensitive. However, phenology is earlier in warmer-than-average years, which contributes positively to population growth in most species. At lower latitudes, temperature has weaker effects on phenology but stronger direct negative effects on population growth, likely because these populations are less capable of tracking climate via plasticity. Variation in the phenology-mediated effect of temperature on population growth cannot be explained by latitude, generation time, migratory mode, or diet. This suggests that simple relationships between species characteristics and population responses to warming may not occur in nature. Instead, we may need to embrace ecological complexity by considering local-scale predictors that capture intra-specific variation.

AB - Phenotypic responses to climate affect individual fitness, but the extent to which this translates into effects on population dynamics remains poorly understood. We assemble 213 time series on phenotypes and population sizes of wild vertebrates globally and match them with local climate data. Our meta-analysis shows that morphological traits are mostly climate insensitive. However, phenology is earlier in warmer-than-average years, which contributes positively to population growth in most species. At lower latitudes, temperature has weaker effects on phenology but stronger direct negative effects on population growth, likely because these populations are less capable of tracking climate via plasticity. Variation in the phenology-mediated effect of temperature on population growth cannot be explained by latitude, generation time, migratory mode, or diet. This suggests that simple relationships between species characteristics and population responses to warming may not occur in nature. Instead, we may need to embrace ecological complexity by considering local-scale predictors that capture intra-specific variation.

UR - https://www.scopus.com/pages/publications/105027421038

U2 - 10.1038/s41467-025-68172-8

DO - 10.1038/s41467-025-68172-8

M3 - Article

C2 - 41526389

AN - SCOPUS:105027421038

SN - 2041-1723

VL - 17

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 479

ER -

Changes in phenology mediate vertebrate population responses to temperature globally

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