Neonatal antipredator tactics shape female movement patterns in large herbivores

Kamal Atmeh; Christophe Bonenfant; Jean Michel Gaillard; Mathieu Garel; A. J.Mark Hewison; Pascal Marchand; Nicolas Morellet; Pia Anderwald; Bayarbaatar Buuveibaatar; Jeffrey L. Beck; Matthew S. Becker; Floris M. van Beest; Jodi Berg; Ulrika A. Bergvall; Randall B. Boone; Mark S. Boyce; Simon Chamaillé-Jammes; Yannick Chaval; Chimeddorj Buyanaa; David Christianson; Simone Ciuti; Steeve D. Côté; Duane R. Diefenbach; Egil Droge; Johan T. du Toit; Samantha Dwinnell; Julian Fennessy; Flurin Filli; Daniel Fortin; Emma E. Hart; Matthew Hayes; Mark Hebblewhite; Morten Heim; Ivar Herfindal; Marco Heurich; Christian von Hoermann; Katey Huggler; Craig Jackson; Andrew F. Jakes; Paul F. Jones; Petra Kaczensky; Matthew Kauffman; Petter Kjellander; Tayler LaSharr; Leif Egil Loe; Roel May; Philip McLoughlin; Erling L. Meisingset; Evelyn Merrill; Kevin L. Monteith; Thomas Mueller; Atle Mysterud; Dejid Nandintsetseg; Kirk Olson; John Payne; Scott Pearson; Åshild Ønvik Pedersen; Dustin Ranglack; Adele K. Reinking; Thomas Rempfler; Clifford G. Rice; Eivin Røskaft; Bernt Erik Sæther; Sonia Saïd; Hugo Santacreu; Niels Martin Schmidt; Daan Smit; Jared A. Stabach; Martin Hugues St-Laurent; Joëlle Taillon; W. David Walter; Kevin White; Guillaume Péron; Anne Loison

doi:10.1038/s41559-024-02565-8

Neonatal antipredator tactics shape female movement patterns in large herbivores

Kamal Atmeh, Christophe Bonenfant, Jean Michel Gaillard, Mathieu Garel, A. J.Mark Hewison, Pascal Marchand, Nicolas Morellet, Pia Anderwald, Bayarbaatar Buuveibaatar, Jeffrey L. Beck, Matthew S. Becker, Floris M. van Beest, Jodi Berg, Ulrika A. Bergvall, Randall B. Boone, Mark S. Boyce, Simon Chamaillé-Jammes, Yannick Chaval, Chimeddorj Buyanaa, David ChristiansonSimone Ciuti, Steeve D. Côté, Duane R. Diefenbach, Egil Droge, Johan T. du Toit, Samantha Dwinnell, Julian Fennessy, Flurin Filli, Daniel Fortin, Emma E. Hart, Matthew Hayes, Mark Hebblewhite, Morten Heim, Ivar Herfindal, Marco Heurich, Christian von Hoermann, Katey Huggler, Craig Jackson, Andrew F. Jakes, Paul F. Jones, Petra Kaczensky, Matthew Kauffman, Petter Kjellander, Tayler LaSharr, Leif Egil Loe, Roel May, Philip McLoughlin, Erling L. Meisingset, Evelyn Merrill, Kevin L. Monteith, Thomas Mueller, Atle Mysterud, Dejid Nandintsetseg, Kirk Olson, John Payne, Scott Pearson, Åshild Ønvik Pedersen, Dustin Ranglack, Adele K. Reinking, Thomas Rempfler, Clifford G. Rice, Eivin Røskaft, Bernt Erik Sæther, Sonia Saïd, Hugo Santacreu, Niels Martin Schmidt, Daan Smit, Jared A. Stabach, Martin Hugues St-Laurent, Joëlle Taillon, W. David Walter, Kevin White, Guillaume Péron, Anne Loison

W. A. Franke College of Forestry and Conservation

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

3 Scopus citations

Abstract

Caring for newborn offspring hampers resource acquisition of mammalian females, curbing their ability to meet the high energy expenditure of early lactation. Newborns are particularly vulnerable, and, among the large herbivores, ungulates have evolved a continuum of neonatal antipredator tactics, ranging from immobile hider (such as roe deer fawns or impala calves) to highly mobile follower offspring (such as reindeer calves or chamois kids). How these tactics constrain female movements around parturition is unknown, particularly within the current context of increasing habitat fragmentation and earlier plant phenology caused by global warming. Here, using a comparative analysis across 54 populations of 23 species of large herbivores from 5 ungulate families (Bovidae, Cervidae, Equidae, Antilocapridae and Giraffidae), we show that mothers adjust their movements to variation in resource productivity and heterogeneity according to their offspring’s neonatal tactic. Mothers with hider offspring are unable to exploit environments where the variability of resources occurs at a broad scale, which might alter resource allocation compared with mothers with follower offspring. Our findings reveal that the overlooked neonatal tactic plays a key role for predicting how species are coping with environmental variation.

Original language	English
Pages (from-to)	142-152
Number of pages	11
Journal	Nature Ecology and Evolution
Volume	9
Issue number	1
DOIs	https://doi.org/10.1038/s41559-024-02565-8
State	Published - Jan 2025

Keywords

Animals
Female
Herbivory
Animals, Newborn/physiology
Ruminants/physiology
Movement

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10.1038/s41559-024-02565-8

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Atmeh, K., Bonenfant, C., Gaillard, J. M., Garel, M., Hewison, A. J. M., Marchand, P., Morellet, N., Anderwald, P., Buuveibaatar, B., Beck, J. L., Becker, M. S., van Beest, F. M., Berg, J., Bergvall, U. A., Boone, R. B., Boyce, M. S., Chamaillé-Jammes, S., Chaval, Y., Buyanaa, C., ... Loison, A. (2025). Neonatal antipredator tactics shape female movement patterns in large herbivores. Nature Ecology and Evolution, 9(1), 142-152. https://doi.org/10.1038/s41559-024-02565-8

@article{e88bfbb9ba3e4cdd970fa5195da4390e,

title = "Neonatal antipredator tactics shape female movement patterns in large herbivores",

abstract = "Caring for newborn offspring hampers resource acquisition of mammalian females, curbing their ability to meet the high energy expenditure of early lactation. Newborns are particularly vulnerable, and, among the large herbivores, ungulates have evolved a continuum of neonatal antipredator tactics, ranging from immobile hider (such as roe deer fawns or impala calves) to highly mobile follower offspring (such as reindeer calves or chamois kids). How these tactics constrain female movements around parturition is unknown, particularly within the current context of increasing habitat fragmentation and earlier plant phenology caused by global warming. Here, using a comparative analysis across 54 populations of 23 species of large herbivores from 5 ungulate families (Bovidae, Cervidae, Equidae, Antilocapridae and Giraffidae), we show that mothers adjust their movements to variation in resource productivity and heterogeneity according to their offspring{\textquoteright}s neonatal tactic. Mothers with hider offspring are unable to exploit environments where the variability of resources occurs at a broad scale, which might alter resource allocation compared with mothers with follower offspring. Our findings reveal that the overlooked neonatal tactic plays a key role for predicting how species are coping with environmental variation.",

keywords = "Animals, Female, Herbivory, Animals, Newborn/physiology, Ruminants/physiology, Movement",

author = "Kamal Atmeh and Christophe Bonenfant and Gaillard, \{Jean Michel\} and Mathieu Garel and Hewison, \{A. J.Mark\} and Pascal Marchand and Nicolas Morellet and Pia Anderwald and Bayarbaatar Buuveibaatar and Beck, \{Jeffrey L.\} and Becker, \{Matthew S.\} and \{van Beest\}, \{Floris M.\} and Jodi Berg and Bergvall, \{Ulrika A.\} and Boone, \{Randall B.\} and Boyce, \{Mark S.\} and Simon Chamaill{\'e}-Jammes and Yannick Chaval and Chimeddorj Buyanaa and David Christianson and Simone Ciuti and C{\^o}t{\'e}, \{Steeve D.\} and Diefenbach, \{Duane R.\} and Egil Droge and \{du Toit\}, \{Johan T.\} and Samantha Dwinnell and Julian Fennessy and Flurin Filli and Daniel Fortin and Hart, \{Emma E.\} and Matthew Hayes and Mark Hebblewhite and Morten Heim and Ivar Herfindal and Marco Heurich and \{von Hoermann\}, Christian and Katey Huggler and Craig Jackson and Jakes, \{Andrew F.\} and Jones, \{Paul F.\} and Petra Kaczensky and Matthew Kauffman and Petter Kjellander and Tayler LaSharr and Loe, \{Leif Egil\} and Roel May and Philip McLoughlin and Meisingset, \{Erling L.\} and Evelyn Merrill and Monteith, \{Kevin L.\} and Thomas Mueller and Atle Mysterud and Dejid Nandintsetseg and Kirk Olson and John Payne and Scott Pearson and Pedersen, \{{\AA}shild {\O}nvik\} and Dustin Ranglack and Reinking, \{Adele K.\} and Thomas Rempfler and Rice, \{Clifford G.\} and Eivin R{\o}skaft and S{\ae}ther, \{Bernt Erik\} and Sonia Sa{\"i}d and Hugo Santacreu and Schmidt, \{Niels Martin\} and Daan Smit and Stabach, \{Jared A.\} and St-Laurent, \{Martin Hugues\} and Jo{\"e}lle Taillon and Walter, \{W. David\} and Kevin White and Guillaume P{\'e}ron and Anne Loison",

note = "{\textcopyright} 2024. The Author(s), under exclusive licence to Springer Nature Limited.",

year = "2025",

month = jan,

doi = "10.1038/s41559-024-02565-8",

language = "English",

volume = "9",

pages = "142--152",

journal = "Nature Ecology and Evolution",

issn = "2397-334X",

publisher = "Nature Research",

number = "1",

}

Atmeh, K, Bonenfant, C, Gaillard, JM, Garel, M, Hewison, AJM, Marchand, P, Morellet, N, Anderwald, P, Buuveibaatar, B, Beck, JL, Becker, MS, van Beest, FM, Berg, J, Bergvall, UA, Boone, RB, Boyce, MS, Chamaillé-Jammes, S, Chaval, Y, Buyanaa, C, Christianson, D, Ciuti, S, Côté, SD, Diefenbach, DR, Droge, E, du Toit, JT, Dwinnell, S, Fennessy, J, Filli, F, Fortin, D, Hart, EE, Hayes, M, Hebblewhite, M, Heim, M, Herfindal, I, Heurich, M, von Hoermann, C, Huggler, K, Jackson, C, Jakes, AF, Jones, PF, Kaczensky, P, Kauffman, M, Kjellander, P, LaSharr, T, Loe, LE, May, R, McLoughlin, P, Meisingset, EL, Merrill, E, Monteith, KL, Mueller, T, Mysterud, A, Nandintsetseg, D, Olson, K, Payne, J, Pearson, S, Pedersen, ÅØ, Ranglack, D, Reinking, AK, Rempfler, T, Rice, CG, Røskaft, E, Sæther, BE, Saïd, S, Santacreu, H, Schmidt, NM, Smit, D, Stabach, JA, St-Laurent, MH, Taillon, J, Walter, WD, White, K, Péron, G & Loison, A 2025, 'Neonatal antipredator tactics shape female movement patterns in large herbivores', Nature Ecology and Evolution, vol. 9, no. 1, pp. 142-152. https://doi.org/10.1038/s41559-024-02565-8

TY - JOUR

T1 - Neonatal antipredator tactics shape female movement patterns in large herbivores

AU - Atmeh, Kamal

AU - Bonenfant, Christophe

AU - Gaillard, Jean Michel

AU - Garel, Mathieu

AU - Hewison, A. J.Mark

AU - Marchand, Pascal

AU - Morellet, Nicolas

AU - Anderwald, Pia

AU - Buuveibaatar, Bayarbaatar

AU - Beck, Jeffrey L.

AU - Becker, Matthew S.

AU - van Beest, Floris M.

AU - Berg, Jodi

AU - Bergvall, Ulrika A.

AU - Boone, Randall B.

AU - Boyce, Mark S.

AU - Chamaillé-Jammes, Simon

AU - Chaval, Yannick

AU - Buyanaa, Chimeddorj

AU - Christianson, David

AU - Ciuti, Simone

AU - Côté, Steeve D.

AU - Diefenbach, Duane R.

AU - Droge, Egil

AU - du Toit, Johan T.

AU - Dwinnell, Samantha

AU - Fennessy, Julian

AU - Filli, Flurin

AU - Fortin, Daniel

AU - Hart, Emma E.

AU - Hayes, Matthew

AU - Hebblewhite, Mark

AU - Heim, Morten

AU - Herfindal, Ivar

AU - Heurich, Marco

AU - von Hoermann, Christian

AU - Huggler, Katey

AU - Jackson, Craig

AU - Jakes, Andrew F.

AU - Jones, Paul F.

AU - Kaczensky, Petra

AU - Kauffman, Matthew

AU - Kjellander, Petter

AU - LaSharr, Tayler

AU - Loe, Leif Egil

AU - May, Roel

AU - McLoughlin, Philip

AU - Meisingset, Erling L.

AU - Merrill, Evelyn

AU - Monteith, Kevin L.

AU - Mueller, Thomas

AU - Mysterud, Atle

AU - Nandintsetseg, Dejid

AU - Olson, Kirk

AU - Payne, John

AU - Pearson, Scott

AU - Pedersen, Åshild Ønvik

AU - Ranglack, Dustin

AU - Reinking, Adele K.

AU - Rempfler, Thomas

AU - Rice, Clifford G.

AU - Røskaft, Eivin

AU - Sæther, Bernt Erik

AU - Saïd, Sonia

AU - Santacreu, Hugo

AU - Schmidt, Niels Martin

AU - Smit, Daan

AU - Stabach, Jared A.

AU - St-Laurent, Martin Hugues

AU - Taillon, Joëlle

AU - Walter, W. David

AU - White, Kevin

AU - Péron, Guillaume

AU - Loison, Anne

PY - 2025/1

Y1 - 2025/1

N2 - Caring for newborn offspring hampers resource acquisition of mammalian females, curbing their ability to meet the high energy expenditure of early lactation. Newborns are particularly vulnerable, and, among the large herbivores, ungulates have evolved a continuum of neonatal antipredator tactics, ranging from immobile hider (such as roe deer fawns or impala calves) to highly mobile follower offspring (such as reindeer calves or chamois kids). How these tactics constrain female movements around parturition is unknown, particularly within the current context of increasing habitat fragmentation and earlier plant phenology caused by global warming. Here, using a comparative analysis across 54 populations of 23 species of large herbivores from 5 ungulate families (Bovidae, Cervidae, Equidae, Antilocapridae and Giraffidae), we show that mothers adjust their movements to variation in resource productivity and heterogeneity according to their offspring’s neonatal tactic. Mothers with hider offspring are unable to exploit environments where the variability of resources occurs at a broad scale, which might alter resource allocation compared with mothers with follower offspring. Our findings reveal that the overlooked neonatal tactic plays a key role for predicting how species are coping with environmental variation.

AB - Caring for newborn offspring hampers resource acquisition of mammalian females, curbing their ability to meet the high energy expenditure of early lactation. Newborns are particularly vulnerable, and, among the large herbivores, ungulates have evolved a continuum of neonatal antipredator tactics, ranging from immobile hider (such as roe deer fawns or impala calves) to highly mobile follower offspring (such as reindeer calves or chamois kids). How these tactics constrain female movements around parturition is unknown, particularly within the current context of increasing habitat fragmentation and earlier plant phenology caused by global warming. Here, using a comparative analysis across 54 populations of 23 species of large herbivores from 5 ungulate families (Bovidae, Cervidae, Equidae, Antilocapridae and Giraffidae), we show that mothers adjust their movements to variation in resource productivity and heterogeneity according to their offspring’s neonatal tactic. Mothers with hider offspring are unable to exploit environments where the variability of resources occurs at a broad scale, which might alter resource allocation compared with mothers with follower offspring. Our findings reveal that the overlooked neonatal tactic plays a key role for predicting how species are coping with environmental variation.

KW - Animals

KW - Female

KW - Herbivory

KW - Animals, Newborn/physiology

KW - Ruminants/physiology

KW - Movement

UR - https://www.scopus.com/pages/publications/85211437996

U2 - 10.1038/s41559-024-02565-8

DO - 10.1038/s41559-024-02565-8

M3 - Article

C2 - 39633040

AN - SCOPUS:85211437996

SN - 2397-334X

VL - 9

SP - 142

EP - 152

JO - Nature Ecology and Evolution

JF - Nature Ecology and Evolution

IS - 1

ER -

Neonatal antipredator tactics shape female movement patterns in large herbivores

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Keywords

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