Wild canids and felids differ in their reliance on reused travel routeways

William F. Fagan; Ananke G. Krishnan; Christen H. Fleming; Elizabeth Ferreira; Stephanie Chia; Anshuman Swain; Briana Abrahms; Chloe Bracis; Eliezer Gurarie; Thomas Mueller; Michael J. Noonan; Luiz Gustavo R. Oliveira-Santos; Marlee A. Tucker; Gayatri Anand; Qianru Liao; Sarah Na; Steven Su; Daisy Liao; Varun Chilukuri; Shreyas Ramulu; Luisa Maria Diele-Viegas; Michael Dougherty; David Illingworth; Dmitry Y. Alexandrov; Pamela Castro Antunes; Fernanda C. Azevedo; Christina Barrett; Matías Taborda Barroso; Dominik M. Behr; Jerrold L. Belant; Steven Bellan; Dominique Berteaux; Dean E. Beyer; Laura R. Bidner; Jacqueline Bishop; J. David Blount; Andrew Butler; Andrew Carter; Marina Motta Carvalho; Michael Chamberlain; Maria D. Chistopolova; Darren Clark; L. Mike Conner; Alayne Cotterill; Gabriele Cozzi; Bogdan Cristescu; Calum X. Cunningham; Emrah Çoban; Siobhan Darlington; Ísis Zanini das Candeias; Christopher S. DePerno; Jasja J.A. Dekker; Colleen T. Downs; Natalia Dronova; Marine Drouilly; Ernest Eblate; Steve Ekwanga; Morgan Swingen; Mohammad Farhadinia; Adam T. Ford; Jacqueline Frair; Laurence Frank; John M. Fryxell; Todd K. Fuller; Robert Fyumagwa; Stefan Garthe; Wayne M. Getz; Maria Jesus Palacios Gonzalez; T. J. Gooliaff; Malte Götz; Rowena Hamer; Mario Haberfeld; Mark Hebblewhite; Jose A. Hernandez-Blanco; Mathias Herrmann; Marco Heurich; Karen E. Hodges; Ann Marie Houser; Bruce Humphries; Miguel Ángel L. Iglesias; Lynne A. Isbell; David Jachowski; Craig Jackson; René Janssen; Kate E. Jenks; Jaime E. Jiménez; Maria Luisa S.P. Jorge; Rodrigo Jorge; Fernando Jubete; Anjan Katna; Roland Kays; Andrew M. Kittle; Rebecca Klein; Raido Kont; Michelle J.C. Kral; Josip Kusak; Johannes Lang; Andrew David M. Latham; Peter Leimgruber; Frederico G. Lemos; Taal Levi; Caio F.M. Lima; Edson Lima; Fernando Lima; John D.C. Linnell; David W. Macdonald; Peter Mahoney; Peep Männil; Emmanuel Masenga; Jenny Mattisson; Roel F. May; Roy T. McBride; Robbie A. McDonald; J. Weldon McNutt; Karl Miller; Alexander Minaev; Dale G. Miquelle; Christopher E. Moorman; Ronaldo G. Morato; Ricardo Moreno; Guilherme Mourão; Bariushaa Munkhtsog; Bayaraa Munkhtsog; Sergey V. Naidenko; Teresa Nava; John Odden; Morten Odden; Francisco Palomares; Brent R. Patterson; Bruce D. Patterson; Rogerio Cunha de Paula; Agustin Paviolo; Yury K. Petrunenko; Alim B. Pkhitikov; Andrey D. Poyarkov; Laura R. Prugh; Kasim Rafiq; Emiliano Esterci Ramalho; Tharmalingam Ramesh; Nathan Ranc; Dustin H. Ranglack; Anya Ratnayaka; David Roshier; Eivin Røskaft; Viatcheslav V. Rozhnov; Hector Ruiz-Villar; Joel Ruprecht; Gustaf Samelius; Philipp Schwemmer; Çağan H. Şekercioğlu; Laurel E.K. Serieys; Ivan V. Seryodkin; Olaf Simon; Nucharin Songsasen; Pavel A. Sorokin; Svetlana Soutryina; Patrick Stent; David Stoner; Jarryd Streicher; Jack Tatler; Kristine Teichman; Maria Thaker; Katerina V. Thompson; Jeffrey J. Thompson; Marcos Adriano Tortato; Manfred Trinzen; Leanne Van Der Weyde; Abi Tamim Vanak; Marianela Velilla; Zea Walton; Tyler J. Wheeldon; Tomas Willebrand; Terrie M. Williams; Christopher C. Wilmers; Jared Wilson-Aggarwal; Michael L. Wysong; Anna A. Yachmennikova; Julie K. Young; Justin M. Calabrese

doi:10.1073/pnas.2401042122

Wild canids and felids differ in their reliance on reused travel routeways

William F. Fagan, Ananke G. Krishnan, Christen H. Fleming, Elizabeth Ferreira, Stephanie Chia, Anshuman Swain, Briana Abrahms, Chloe Bracis, Eliezer Gurarie, Thomas Mueller, Michael J. Noonan, Luiz Gustavo R. Oliveira-Santos, Marlee A. Tucker, Gayatri Anand, Qianru Liao, Sarah Na, Steven Su, Daisy Liao, Varun Chilukuri, Shreyas RamuluLuisa Maria Diele-Viegas, Michael Dougherty, David Illingworth, Dmitry Y. Alexandrov, Pamela Castro Antunes, Fernanda C. Azevedo, Christina Barrett, Matías Taborda Barroso, Dominik M. Behr, Jerrold L. Belant, Steven Bellan, Dominique Berteaux, Dean E. Beyer, Laura R. Bidner, Jacqueline Bishop, J. David Blount, Andrew Butler, Andrew Carter, Marina Motta Carvalho, Michael Chamberlain, Maria D. Chistopolova, Darren Clark, L. Mike Conner, Alayne Cotterill, Gabriele Cozzi, Bogdan Cristescu, Calum X. Cunningham, Emrah Çoban, Siobhan Darlington, Ísis Zanini das Candeias, Christopher S. DePerno, Jasja J.A. Dekker, Colleen T. Downs, Natalia Dronova, Marine Drouilly, Ernest Eblate, Steve Ekwanga, Morgan Swingen, Mohammad Farhadinia, Adam T. Ford, Jacqueline Frair, Laurence Frank, John M. Fryxell, Todd K. Fuller, Robert Fyumagwa, Stefan Garthe, Wayne M. Getz, Maria Jesus Palacios Gonzalez, T. J. Gooliaff, Malte Götz, Rowena Hamer, Mario Haberfeld, Mark Hebblewhite, Jose A. Hernandez-Blanco, Mathias Herrmann, Marco Heurich, Karen E. Hodges, Ann Marie Houser, Bruce Humphries, Miguel Ángel L. Iglesias, Lynne A. Isbell, David Jachowski, Craig Jackson, René Janssen, Kate E. Jenks, Jaime E. Jiménez, Maria Luisa S.P. Jorge, Rodrigo Jorge, Fernando Jubete, Anjan Katna, Roland Kays, Andrew M. Kittle, Rebecca Klein, Raido Kont, Michelle J.C. Kral, Josip Kusak, Johannes Lang, Andrew David M. Latham, Peter Leimgruber, Frederico G. Lemos, Taal Levi, Caio F.M. Lima, Edson Lima, Fernando Lima, John D.C. Linnell, David W. Macdonald, Peter Mahoney, Peep Männil, Emmanuel Masenga, Jenny Mattisson, Roel F. May, Roy T. McBride, Robbie A. McDonald, J. Weldon McNutt, Karl Miller, Alexander Minaev, Dale G. Miquelle, Christopher E. Moorman, Ronaldo G. Morato, Ricardo Moreno, Guilherme Mourão, Bariushaa Munkhtsog, Bayaraa Munkhtsog, Sergey V. Naidenko, Teresa Nava, John Odden, Morten Odden, Francisco Palomares, Brent R. Patterson, Bruce D. Patterson, Rogerio Cunha de Paula, Agustin Paviolo, Yury K. Petrunenko, Alim B. Pkhitikov, Andrey D. Poyarkov, Laura R. Prugh, Kasim Rafiq, Emiliano Esterci Ramalho, Tharmalingam Ramesh, Nathan Ranc, Dustin H. Ranglack, Anya Ratnayaka, David Roshier, Eivin Røskaft, Viatcheslav V. Rozhnov, Hector Ruiz-Villar, Joel Ruprecht, Gustaf Samelius, Philipp Schwemmer, Çağan H. Şekercioğlu, Laurel E.K. Serieys, Ivan V. Seryodkin, Olaf Simon, Nucharin Songsasen, Pavel A. Sorokin, Svetlana Soutryina, Patrick Stent, David Stoner, Jarryd Streicher, Jack Tatler, Kristine Teichman, Maria Thaker, Katerina V. Thompson, Jeffrey J. Thompson, Marcos Adriano Tortato, Manfred Trinzen, Leanne Van Der Weyde, Abi Tamim Vanak, Marianela Velilla, Zea Walton, Tyler J. Wheeldon, Tomas Willebrand, Terrie M. Williams, Christopher C. Wilmers, Jared Wilson-Aggarwal, Michael L. Wysong, Anna A. Yachmennikova, Julie K. Young, Justin M. Calabrese

Ecosystem and Conservation Sciences

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

Abstract

Diverse factors, including environmental features and cognitive processes, can drive animals’ movements and space use, with far-reaching implications. For example, repeated use of individual-level travel routeways (directionally constrained but imperfectly aligned routes), which results in spatial concentration of activity, can shape encounter-based processes including predation, mate finding, and disease transmission. However, how much variation in routeway usage exists across species remains unknown. By analyzing GPS movement tracks for 1,239 range-resident mammalian carnivores—representing 16 canid and 18 felid species from six continents—we found strong evidence of a clade-level difference in species’ reliance on repeatedly used travel routeways. Across the global dataset, tracked canids had a 15% (±7 CI) greater density of routeways within their home ranges than did felids, rising to 33% (±16 CI) greater in landscapes shared with tracked felids. Moreover, comparisons within species across landscapes revealed broadly similar home range routeway densities despite habitat differences. On average, canids also reused their travel routeways more intensively than did felids, with hunting strategies and spatial contexts also contributing to the intensity of routeway usage. Collectively, our results suggest that key aspects of carnivore routeway-usage have an evolutionary component. Striking interspecific and clade-level differences in carnivores’ reliance on reused travel routeways within home ranges identify important ways in which the movement patterns of real-world predators depart from classical assumptions of predator-prey theory. Because such departures can drive key aspects of human-wildlife interactions and other encounter-based processes, continued investigations of the relationships between movement mechanisms and space use are critical.

Original language	English
Article number	e2401042122
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	122
Issue number	40
DOIs	https://doi.org/10.1073/pnas.2401042122
State	Published - Sep 29 2025

Keywords

Carnivora
home range
movement ecology
probability ridges
spatial ecology
Felidae/physiology
Predatory Behavior
Animals
Ecosystem
Animals, Wild/physiology
Canidae/physiology
Homing Behavior/physiology

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1073/pnas.2401042122

Cite this

Fagan, W. F., Krishnan, A. G., Fleming, C. H., Ferreira, E., Chia, S., Swain, A., Abrahms, B., Bracis, C., Gurarie, E., Mueller, T., Noonan, M. J., Oliveira-Santos, L. G. R., Tucker, M. A., Anand, G., Liao, Q., Na, S., Su, S., Liao, D., Chilukuri, V., ... Calabrese, J. M. (2025). Wild canids and felids differ in their reliance on reused travel routeways. Proceedings of the National Academy of Sciences of the United States of America, 122(40), Article e2401042122. https://doi.org/10.1073/pnas.2401042122

@article{2c266d7e26f644788ab88dffae8c783d,

title = "Wild canids and felids differ in their reliance on reused travel routeways",

abstract = "Diverse factors, including environmental features and cognitive processes, can drive animals{\textquoteright} movements and space use, with far-reaching implications. For example, repeated use of individual-level travel routeways (directionally constrained but imperfectly aligned routes), which results in spatial concentration of activity, can shape encounter-based processes including predation, mate finding, and disease transmission. However, how much variation in routeway usage exists across species remains unknown. By analyzing GPS movement tracks for 1,239 range-resident mammalian carnivores—representing 16 canid and 18 felid species from six continents—we found strong evidence of a clade-level difference in species{\textquoteright} reliance on repeatedly used travel routeways. Across the global dataset, tracked canids had a 15\% (±7 CI) greater density of routeways within their home ranges than did felids, rising to 33\% (±16 CI) greater in landscapes shared with tracked felids. Moreover, comparisons within species across landscapes revealed broadly similar home range routeway densities despite habitat differences. On average, canids also reused their travel routeways more intensively than did felids, with hunting strategies and spatial contexts also contributing to the intensity of routeway usage. Collectively, our results suggest that key aspects of carnivore routeway-usage have an evolutionary component. Striking interspecific and clade-level differences in carnivores{\textquoteright} reliance on reused travel routeways within home ranges identify important ways in which the movement patterns of real-world predators depart from classical assumptions of predator-prey theory. Because such departures can drive key aspects of human-wildlife interactions and other encounter-based processes, continued investigations of the relationships between movement mechanisms and space use are critical.",

keywords = "Carnivora, home range, movement ecology, probability ridges, spatial ecology, Felidae/physiology, Predatory Behavior, Animals, Ecosystem, Animals, Wild/physiology, Canidae/physiology, Homing Behavior/physiology",

author = "Fagan, \{William F.\} and Krishnan, \{Ananke G.\} and Fleming, \{Christen H.\} and Elizabeth Ferreira and Stephanie Chia and Anshuman Swain and Briana Abrahms and Chloe Bracis and Eliezer Gurarie and Thomas Mueller and Noonan, \{Michael J.\} and Oliveira-Santos, \{Luiz Gustavo R.\} and Tucker, \{Marlee A.\} and Gayatri Anand and Qianru Liao and Sarah Na and Steven Su and Daisy Liao and Varun Chilukuri and Shreyas Ramulu and Diele-Viegas, \{Luisa Maria\} and Michael Dougherty and David Illingworth and Alexandrov, \{Dmitry Y.\} and Antunes, \{Pamela Castro\} and Azevedo, \{Fernanda C.\} and Christina Barrett and Barroso, \{Mat{\'i}as Taborda\} and Behr, \{Dominik M.\} and Belant, \{Jerrold L.\} and Steven Bellan and Dominique Berteaux and Beyer, \{Dean E.\} and Bidner, \{Laura R.\} and Jacqueline Bishop and Blount, \{J. David\} and Andrew Butler and Andrew Carter and Carvalho, \{Marina Motta\} and Michael Chamberlain and Chistopolova, \{Maria D.\} and Darren Clark and Conner, \{L. Mike\} and Alayne Cotterill and Gabriele Cozzi and Bogdan Cristescu and Cunningham, \{Calum X.\} and Emrah {\c C}oban and Siobhan Darlington and \{das Candeias\}, \{{\'I}sis Zanini\} and DePerno, \{Christopher S.\} and Dekker, \{Jasja J.A.\} and Downs, \{Colleen T.\} and Natalia Dronova and Marine Drouilly and Ernest Eblate and Steve Ekwanga and Morgan Swingen and Mohammad Farhadinia and Ford, \{Adam T.\} and Jacqueline Frair and Laurence Frank and Fryxell, \{John M.\} and Fuller, \{Todd K.\} and Robert Fyumagwa and Stefan Garthe and Getz, \{Wayne M.\} and Gonzalez, \{Maria Jesus Palacios\} and Gooliaff, \{T. J.\} and Malte G{\"o}tz and Rowena Hamer and Mario Haberfeld and Mark Hebblewhite and Hernandez-Blanco, \{Jose A.\} and Mathias Herrmann and Marco Heurich and Hodges, \{Karen E.\} and Houser, \{Ann Marie\} and Bruce Humphries and Iglesias, \{Miguel {\'A}ngel L.\} and Isbell, \{Lynne A.\} and David Jachowski and Craig Jackson and Ren{\'e} Janssen and Jenks, \{Kate E.\} and Jim{\'e}nez, \{Jaime E.\} and Jorge, \{Maria Luisa S.P.\} and Rodrigo Jorge and Fernando Jubete and Anjan Katna and Roland Kays and Kittle, \{Andrew M.\} and Rebecca Klein and Raido Kont and Kral, \{Michelle J.C.\} and Josip Kusak and Johannes Lang and Latham, \{Andrew David M.\} and Peter Leimgruber and Lemos, \{Frederico G.\} and Taal Levi and Lima, \{Caio F.M.\} and Edson Lima and Fernando Lima and Linnell, \{John D.C.\} and Macdonald, \{David W.\} and Peter Mahoney and Peep M{\"a}nnil and Emmanuel Masenga and Jenny Mattisson and May, \{Roel F.\} and McBride, \{Roy T.\} and McDonald, \{Robbie A.\} and McNutt, \{J. Weldon\} and Karl Miller and Alexander Minaev and Miquelle, \{Dale G.\} and Moorman, \{Christopher E.\} and Morato, \{Ronaldo G.\} and Ricardo Moreno and Guilherme Mour{\~a}o and Bariushaa Munkhtsog and Bayaraa Munkhtsog and Naidenko, \{Sergey V.\} and Teresa Nava and John Odden and Morten Odden and Francisco Palomares and Patterson, \{Brent R.\} and Patterson, \{Bruce D.\} and \{de Paula\}, \{Rogerio Cunha\} and Agustin Paviolo and Petrunenko, \{Yury K.\} and Pkhitikov, \{Alim B.\} and Poyarkov, \{Andrey D.\} and Prugh, \{Laura R.\} and Kasim Rafiq and Ramalho, \{Emiliano Esterci\} and Tharmalingam Ramesh and Nathan Ranc and Ranglack, \{Dustin H.\} and Anya Ratnayaka and David Roshier and Eivin R{\o}skaft and Rozhnov, \{Viatcheslav V.\} and Hector Ruiz-Villar and Joel Ruprecht and Gustaf Samelius and Philipp Schwemmer and {\c S}ekercioğlu, \{{\c C}ağan H.\} and Serieys, \{Laurel E.K.\} and Seryodkin, \{Ivan V.\} and Olaf Simon and Nucharin Songsasen and Sorokin, \{Pavel A.\} and Svetlana Soutryina and Patrick Stent and David Stoner and Jarryd Streicher and Jack Tatler and Kristine Teichman and Maria Thaker and Thompson, \{Katerina V.\} and Thompson, \{Jeffrey J.\} and Tortato, \{Marcos Adriano\} and Manfred Trinzen and \{Der Weyde\}, \{Leanne Van\} and Vanak, \{Abi Tamim\} and Marianela Velilla and Zea Walton and Wheeldon, \{Tyler J.\} and Tomas Willebrand and Williams, \{Terrie M.\} and Wilmers, \{Christopher C.\} and Jared Wilson-Aggarwal and Wysong, \{Michael L.\} and Yachmennikova, \{Anna A.\} and Young, \{Julie K.\} and Calabrese, \{Justin M.\}",

note = "Publisher Copyright: Copyright {\textcopyright} 2025 the Author(s).",

year = "2025",

month = sep,

day = "29",

doi = "10.1073/pnas.2401042122",

language = "English",

volume = "122",

journal = "Proceedings of the National Academy of Sciences of the United States of America",

issn = "0027-8424",

publisher = "National Academy of Sciences",

number = "40",

}

Fagan, WF, Krishnan, AG, Fleming, CH, Ferreira, E, Chia, S, Swain, A, Abrahms, B, Bracis, C, Gurarie, E, Mueller, T, Noonan, MJ, Oliveira-Santos, LGR, Tucker, MA, Anand, G, Liao, Q, Na, S, Su, S, Liao, D, Chilukuri, V, Ramulu, S, Diele-Viegas, LM, Dougherty, M, Illingworth, D, Alexandrov, DY, Antunes, PC, Azevedo, FC, Barrett, C, Barroso, MT, Behr, DM, Belant, JL, Bellan, S, Berteaux, D, Beyer, DE, Bidner, LR, Bishop, J, Blount, JD, Butler, A, Carter, A, Carvalho, MM, Chamberlain, M, Chistopolova, MD, Clark, D, Conner, LM, Cotterill, A, Cozzi, G, Cristescu, B, Cunningham, CX, Çoban, E, Darlington, S, das Candeias, ÍZ, DePerno, CS, Dekker, JJA, Downs, CT, Dronova, N, Drouilly, M, Eblate, E, Ekwanga, S, Swingen, M, Farhadinia, M, Ford, AT, Frair, J, Frank, L, Fryxell, JM, Fuller, TK, Fyumagwa, R, Garthe, S, Getz, WM, Gonzalez, MJP, Gooliaff, TJ, Götz, M, Hamer, R, Haberfeld, M, Hebblewhite, M, Hernandez-Blanco, JA, Herrmann, M, Heurich, M, Hodges, KE, Houser, AM, Humphries, B, Iglesias, MÁL, Isbell, LA, Jachowski, D, Jackson, C, Janssen, R, Jenks, KE, Jiménez, JE, Jorge, MLSP, Jorge, R, Jubete, F, Katna, A, Kays, R, Kittle, AM, Klein, R, Kont, R, Kral, MJC, Kusak, J, Lang, J, Latham, ADM, Leimgruber, P, Lemos, FG, Levi, T, Lima, CFM, Lima, E, Lima, F, Linnell, JDC, Macdonald, DW, Mahoney, P, Männil, P, Masenga, E, Mattisson, J, May, RF, McBride, RT, McDonald, RA, McNutt, JW, Miller, K, Minaev, A, Miquelle, DG, Moorman, CE, Morato, RG, Moreno, R, Mourão, G, Munkhtsog, B, Munkhtsog, B, Naidenko, SV, Nava, T, Odden, J, Odden, M, Palomares, F, Patterson, BR, Patterson, BD, de Paula, RC, Paviolo, A, Petrunenko, YK, Pkhitikov, AB, Poyarkov, AD, Prugh, LR, Rafiq, K, Ramalho, EE, Ramesh, T, Ranc, N, Ranglack, DH, Ratnayaka, A, Roshier, D, Røskaft, E, Rozhnov, VV, Ruiz-Villar, H, Ruprecht, J, Samelius, G, Schwemmer, P, Şekercioğlu, ÇH, Serieys, LEK, Seryodkin, IV, Simon, O, Songsasen, N, Sorokin, PA, Soutryina, S, Stent, P, Stoner, D, Streicher, J, Tatler, J, Teichman, K, Thaker, M, Thompson, KV, Thompson, JJ, Tortato, MA, Trinzen, M, Der Weyde, LV, Vanak, AT, Velilla, M, Walton, Z, Wheeldon, TJ, Willebrand, T, Williams, TM, Wilmers, CC, Wilson-Aggarwal, J, Wysong, ML, Yachmennikova, AA, Young, JK & Calabrese, JM 2025, 'Wild canids and felids differ in their reliance on reused travel routeways', Proceedings of the National Academy of Sciences of the United States of America, vol. 122, no. 40, e2401042122. https://doi.org/10.1073/pnas.2401042122

TY - JOUR

T1 - Wild canids and felids differ in their reliance on reused travel routeways

AU - Fagan, William F.

AU - Krishnan, Ananke G.

AU - Fleming, Christen H.

AU - Ferreira, Elizabeth

AU - Chia, Stephanie

AU - Swain, Anshuman

AU - Abrahms, Briana

AU - Bracis, Chloe

AU - Gurarie, Eliezer

AU - Mueller, Thomas

AU - Noonan, Michael J.

AU - Oliveira-Santos, Luiz Gustavo R.

AU - Tucker, Marlee A.

AU - Anand, Gayatri

AU - Liao, Qianru

AU - Na, Sarah

AU - Su, Steven

AU - Liao, Daisy

AU - Chilukuri, Varun

AU - Ramulu, Shreyas

AU - Diele-Viegas, Luisa Maria

AU - Dougherty, Michael

AU - Illingworth, David

AU - Alexandrov, Dmitry Y.

AU - Antunes, Pamela Castro

AU - Azevedo, Fernanda C.

AU - Barrett, Christina

AU - Barroso, Matías Taborda

AU - Behr, Dominik M.

AU - Belant, Jerrold L.

AU - Bellan, Steven

AU - Berteaux, Dominique

AU - Beyer, Dean E.

AU - Bidner, Laura R.

AU - Bishop, Jacqueline

AU - Blount, J. David

AU - Butler, Andrew

AU - Carter, Andrew

AU - Carvalho, Marina Motta

AU - Chamberlain, Michael

AU - Chistopolova, Maria D.

AU - Clark, Darren

AU - Conner, L. Mike

AU - Cotterill, Alayne

AU - Cozzi, Gabriele

AU - Cristescu, Bogdan

AU - Cunningham, Calum X.

AU - Çoban, Emrah

AU - Darlington, Siobhan

AU - das Candeias, Ísis Zanini

AU - DePerno, Christopher S.

AU - Dekker, Jasja J.A.

AU - Downs, Colleen T.

AU - Dronova, Natalia

AU - Drouilly, Marine

AU - Eblate, Ernest

AU - Ekwanga, Steve

AU - Swingen, Morgan

AU - Farhadinia, Mohammad

AU - Ford, Adam T.

AU - Frair, Jacqueline

AU - Frank, Laurence

AU - Fryxell, John M.

AU - Fuller, Todd K.

AU - Fyumagwa, Robert

AU - Garthe, Stefan

AU - Getz, Wayne M.

AU - Gonzalez, Maria Jesus Palacios

AU - Gooliaff, T. J.

AU - Götz, Malte

AU - Hamer, Rowena

AU - Haberfeld, Mario

AU - Hebblewhite, Mark

AU - Hernandez-Blanco, Jose A.

AU - Herrmann, Mathias

AU - Heurich, Marco

AU - Hodges, Karen E.

AU - Houser, Ann Marie

AU - Humphries, Bruce

AU - Iglesias, Miguel Ángel L.

AU - Isbell, Lynne A.

AU - Jachowski, David

AU - Jackson, Craig

AU - Janssen, René

AU - Jenks, Kate E.

AU - Jiménez, Jaime E.

AU - Jorge, Maria Luisa S.P.

AU - Jorge, Rodrigo

AU - Jubete, Fernando

AU - Katna, Anjan

AU - Kays, Roland

AU - Kittle, Andrew M.

AU - Klein, Rebecca

AU - Kont, Raido

AU - Kral, Michelle J.C.

AU - Kusak, Josip

AU - Lang, Johannes

AU - Latham, Andrew David M.

AU - Leimgruber, Peter

AU - Lemos, Frederico G.

AU - Levi, Taal

AU - Lima, Caio F.M.

AU - Lima, Edson

AU - Lima, Fernando

AU - Linnell, John D.C.

AU - Macdonald, David W.

AU - Mahoney, Peter

AU - Männil, Peep

AU - Masenga, Emmanuel

AU - Mattisson, Jenny

AU - May, Roel F.

AU - McBride, Roy T.

AU - McDonald, Robbie A.

AU - McNutt, J. Weldon

AU - Miller, Karl

AU - Minaev, Alexander

AU - Miquelle, Dale G.

AU - Moorman, Christopher E.

AU - Morato, Ronaldo G.

AU - Moreno, Ricardo

AU - Mourão, Guilherme

AU - Munkhtsog, Bariushaa

AU - Munkhtsog, Bayaraa

AU - Naidenko, Sergey V.

AU - Nava, Teresa

AU - Odden, John

AU - Odden, Morten

AU - Palomares, Francisco

AU - Patterson, Brent R.

AU - Patterson, Bruce D.

AU - de Paula, Rogerio Cunha

AU - Paviolo, Agustin

AU - Petrunenko, Yury K.

AU - Pkhitikov, Alim B.

AU - Poyarkov, Andrey D.

AU - Prugh, Laura R.

AU - Rafiq, Kasim

AU - Ramalho, Emiliano Esterci

AU - Ramesh, Tharmalingam

AU - Ranc, Nathan

AU - Ranglack, Dustin H.

AU - Ratnayaka, Anya

AU - Roshier, David

AU - Røskaft, Eivin

AU - Rozhnov, Viatcheslav V.

AU - Ruiz-Villar, Hector

AU - Ruprecht, Joel

AU - Samelius, Gustaf

AU - Schwemmer, Philipp

AU - Şekercioğlu, Çağan H.

AU - Serieys, Laurel E.K.

AU - Seryodkin, Ivan V.

AU - Simon, Olaf

AU - Songsasen, Nucharin

AU - Sorokin, Pavel A.

AU - Soutryina, Svetlana

AU - Stent, Patrick

AU - Stoner, David

AU - Streicher, Jarryd

AU - Tatler, Jack

AU - Teichman, Kristine

AU - Thaker, Maria

AU - Thompson, Katerina V.

AU - Thompson, Jeffrey J.

AU - Tortato, Marcos Adriano

AU - Trinzen, Manfred

AU - Der Weyde, Leanne Van

AU - Vanak, Abi Tamim

AU - Velilla, Marianela

AU - Walton, Zea

AU - Wheeldon, Tyler J.

AU - Willebrand, Tomas

AU - Williams, Terrie M.

AU - Wilmers, Christopher C.

AU - Wilson-Aggarwal, Jared

AU - Wysong, Michael L.

AU - Yachmennikova, Anna A.

AU - Young, Julie K.

AU - Calabrese, Justin M.

PY - 2025/9/29

Y1 - 2025/9/29

N2 - Diverse factors, including environmental features and cognitive processes, can drive animals’ movements and space use, with far-reaching implications. For example, repeated use of individual-level travel routeways (directionally constrained but imperfectly aligned routes), which results in spatial concentration of activity, can shape encounter-based processes including predation, mate finding, and disease transmission. However, how much variation in routeway usage exists across species remains unknown. By analyzing GPS movement tracks for 1,239 range-resident mammalian carnivores—representing 16 canid and 18 felid species from six continents—we found strong evidence of a clade-level difference in species’ reliance on repeatedly used travel routeways. Across the global dataset, tracked canids had a 15% (±7 CI) greater density of routeways within their home ranges than did felids, rising to 33% (±16 CI) greater in landscapes shared with tracked felids. Moreover, comparisons within species across landscapes revealed broadly similar home range routeway densities despite habitat differences. On average, canids also reused their travel routeways more intensively than did felids, with hunting strategies and spatial contexts also contributing to the intensity of routeway usage. Collectively, our results suggest that key aspects of carnivore routeway-usage have an evolutionary component. Striking interspecific and clade-level differences in carnivores’ reliance on reused travel routeways within home ranges identify important ways in which the movement patterns of real-world predators depart from classical assumptions of predator-prey theory. Because such departures can drive key aspects of human-wildlife interactions and other encounter-based processes, continued investigations of the relationships between movement mechanisms and space use are critical.

AB - Diverse factors, including environmental features and cognitive processes, can drive animals’ movements and space use, with far-reaching implications. For example, repeated use of individual-level travel routeways (directionally constrained but imperfectly aligned routes), which results in spatial concentration of activity, can shape encounter-based processes including predation, mate finding, and disease transmission. However, how much variation in routeway usage exists across species remains unknown. By analyzing GPS movement tracks for 1,239 range-resident mammalian carnivores—representing 16 canid and 18 felid species from six continents—we found strong evidence of a clade-level difference in species’ reliance on repeatedly used travel routeways. Across the global dataset, tracked canids had a 15% (±7 CI) greater density of routeways within their home ranges than did felids, rising to 33% (±16 CI) greater in landscapes shared with tracked felids. Moreover, comparisons within species across landscapes revealed broadly similar home range routeway densities despite habitat differences. On average, canids also reused their travel routeways more intensively than did felids, with hunting strategies and spatial contexts also contributing to the intensity of routeway usage. Collectively, our results suggest that key aspects of carnivore routeway-usage have an evolutionary component. Striking interspecific and clade-level differences in carnivores’ reliance on reused travel routeways within home ranges identify important ways in which the movement patterns of real-world predators depart from classical assumptions of predator-prey theory. Because such departures can drive key aspects of human-wildlife interactions and other encounter-based processes, continued investigations of the relationships between movement mechanisms and space use are critical.

KW - Carnivora

KW - home range

KW - movement ecology

KW - probability ridges

KW - spatial ecology

KW - Felidae/physiology

KW - Predatory Behavior

KW - Animals

KW - Ecosystem

KW - Animals, Wild/physiology

KW - Canidae/physiology

KW - Homing Behavior/physiology

UR - https://www.scopus.com/pages/publications/105017796941

U2 - 10.1073/pnas.2401042122

DO - 10.1073/pnas.2401042122

M3 - Article

C2 - 41021807

AN - SCOPUS:105017796941

SN - 0027-8424

VL - 122

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 40

M1 - e2401042122

ER -

Wild canids and felids differ in their reliance on reused travel routeways

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UN SDGs

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