Salvato in:
Dettagli Bibliografici
Autori principali: Albery, Gregory F, Becker, Daniel J, Firth, Josh A, De Moor, Delphine, Ravindran, Sanjana, Silk, Matthew, Sweeny, Amy R, Vander Wal, Eric, Webber, Quinn, Allen, Bryony, Babayan, Simon A, Barve, Sahas, Begon, Mike, Birtles, Richard J, Block, Theadora A, Block, Barbara A, Bradley, Janette E, Budischak, Sarah, Buesching, Christina, Burthe, Sarah J, Carlisle, Aaron B, Caselle, Jennifer E, Cattuto, Ciro, Chaine, Alexis S, Chapple, Taylor K, Cheney, Barbara J, Clutton-Brock, Timothy, Collier, Melissa, Curnick, David J, Delahay, Richard J, Farine, Damien R, Fenton, Andy, Ferretti, Francesco, Feyrer, Laura, Fielding, Helen, Foroughirad, Vivienne, Frere, Celine, Gardner, Michael G, Geffen, Eli, Godfrey, Stephanie S, Graham, Andrea L, Hammond, Phil S, Henrich, Maik, Heurich, Marco, Hopwood, Paul, Ilany, Amiyaal, Jackson, Joseph A, Jackson, Nicola, Jacoby, David M P, Jacoby, Ann-Marie, Ježek, Miloš, Kirkpatrick, Lucinda, Klamm, Alisa, Klarevas-Irby, James A, Knowles, Sarah, Koren, Lee, Krzyszczyk, Ewa, Kusch, Jillian M, Lambin, Xavier, Lane, Jeffrey E, Leirs, Herwig, Leu, Stephan T, Lyon, Bruce E, Macdonald, David W, Madsen, Anastasia E, Mann, Janet, Manser, Marta, Mariën, Joachim, Massawe, Apia, McDonald, Robbie A, Morelle, Kevin, Mourier, Johann, Newman, Chris, Nussear, Kenneth, Nyaguthii, Brendah, Ogino, Mina, Ozella, Laura, Packer, Craig, Papastamatiou, Yannis P, Paterson, Steve, Payne, Eric, Pedersen, Amy B, Pemberton, Josephine M, Pinter-Wollman, Noa, Planes, Serge, Raulo, Aura, Rodríguez-Muñoz, Rolando, Rudd, Lauren, Sabuni, Christopher, Sah, Pratha, Schallert, Robert J, Sheldon, Ben C, Shizuka, Daizaburo, Sih, Andrew, Sinn, David L, Sluydts, Vincent, Spiegel, Orr, Telfer, Sandra, Thomason, Courtney A, Tickler, David M, Tregenza, Tom, VanderWaal, Kimberley, Walmsley, Sam, Walters, Eric L, Wanelik, Klara M, Whitehead, Hal, Wielgus, Elodie, Wilson-Aggarwal, Jared, Wohlfeil, Caroline, Bansal, Shweta
Natura: Artículo científico
Lingua:en
Pubblicazione: Nature ecology & evolution 2025
Soggetti:
Accesso online:https://pubmed.ncbi.nlm.nih.gov/40908382/
Tags: Aggiungi Tag
Nessun Tag, puoi essere il primo ad aggiungerne!!
_version_ 1868266157454131200
author Albery, Gregory F
Becker, Daniel J
Firth, Josh A
De Moor, Delphine
Ravindran, Sanjana
Silk, Matthew
Sweeny, Amy R
Vander Wal, Eric
Webber, Quinn
Allen, Bryony
Babayan, Simon A
Barve, Sahas
Begon, Mike
Birtles, Richard J
Block, Theadora A
Block, Barbara A
Bradley, Janette E
Budischak, Sarah
Buesching, Christina
Burthe, Sarah J
Carlisle, Aaron B
Caselle, Jennifer E
Cattuto, Ciro
Chaine, Alexis S
Chapple, Taylor K
Cheney, Barbara J
Clutton-Brock, Timothy
Collier, Melissa
Curnick, David J
Delahay, Richard J
Farine, Damien R
Fenton, Andy
Ferretti, Francesco
Feyrer, Laura
Fielding, Helen
Foroughirad, Vivienne
Frere, Celine
Gardner, Michael G
Geffen, Eli
Godfrey, Stephanie S
Graham, Andrea L
Hammond, Phil S
Henrich, Maik
Heurich, Marco
Hopwood, Paul
Ilany, Amiyaal
Jackson, Joseph A
Jackson, Nicola
Jacoby, David M P
Jacoby, Ann-Marie
Ježek, Miloš
Kirkpatrick, Lucinda
Klamm, Alisa
Klarevas-Irby, James A
Knowles, Sarah
Koren, Lee
Krzyszczyk, Ewa
Kusch, Jillian M
Lambin, Xavier
Lane, Jeffrey E
Leirs, Herwig
Leu, Stephan T
Lyon, Bruce E
Macdonald, David W
Madsen, Anastasia E
Mann, Janet
Manser, Marta
Mariën, Joachim
Massawe, Apia
McDonald, Robbie A
Morelle, Kevin
Mourier, Johann
Newman, Chris
Nussear, Kenneth
Nyaguthii, Brendah
Ogino, Mina
Ozella, Laura
Packer, Craig
Papastamatiou, Yannis P
Paterson, Steve
Payne, Eric
Pedersen, Amy B
Pemberton, Josephine M
Pinter-Wollman, Noa
Planes, Serge
Raulo, Aura
Rodríguez-Muñoz, Rolando
Rudd, Lauren
Sabuni, Christopher
Sah, Pratha
Schallert, Robert J
Sheldon, Ben C
Shizuka, Daizaburo
Sih, Andrew
Sinn, David L
Sluydts, Vincent
Spiegel, Orr
Telfer, Sandra
Thomason, Courtney A
Tickler, David M
Tregenza, Tom
VanderWaal, Kimberley
Walmsley, Sam
Walters, Eric L
Wanelik, Klara M
Whitehead, Hal
Wielgus, Elodie
Wilson-Aggarwal, Jared
Wohlfeil, Caroline
Bansal, Shweta
author_facet Albery, Gregory F
Becker, Daniel J
Firth, Josh A
De Moor, Delphine
Ravindran, Sanjana
Silk, Matthew
Sweeny, Amy R
Vander Wal, Eric
Webber, Quinn
Allen, Bryony
Babayan, Simon A
Barve, Sahas
Begon, Mike
Birtles, Richard J
Block, Theadora A
Block, Barbara A
Bradley, Janette E
Budischak, Sarah
Buesching, Christina
Burthe, Sarah J
Carlisle, Aaron B
Caselle, Jennifer E
Cattuto, Ciro
Chaine, Alexis S
Chapple, Taylor K
Cheney, Barbara J
Clutton-Brock, Timothy
Collier, Melissa
Curnick, David J
Delahay, Richard J
Farine, Damien R
Fenton, Andy
Ferretti, Francesco
Feyrer, Laura
Fielding, Helen
Foroughirad, Vivienne
Frere, Celine
Gardner, Michael G
Geffen, Eli
Godfrey, Stephanie S
Graham, Andrea L
Hammond, Phil S
Henrich, Maik
Heurich, Marco
Hopwood, Paul
Ilany, Amiyaal
Jackson, Joseph A
Jackson, Nicola
Jacoby, David M P
Jacoby, Ann-Marie
Ježek, Miloš
Kirkpatrick, Lucinda
Klamm, Alisa
Klarevas-Irby, James A
Knowles, Sarah
Koren, Lee
Krzyszczyk, Ewa
Kusch, Jillian M
Lambin, Xavier
Lane, Jeffrey E
Leirs, Herwig
Leu, Stephan T
Lyon, Bruce E
Macdonald, David W
Madsen, Anastasia E
Mann, Janet
Manser, Marta
Mariën, Joachim
Massawe, Apia
McDonald, Robbie A
Morelle, Kevin
Mourier, Johann
Newman, Chris
Nussear, Kenneth
Nyaguthii, Brendah
Ogino, Mina
Ozella, Laura
Packer, Craig
Papastamatiou, Yannis P
Paterson, Steve
Payne, Eric
Pedersen, Amy B
Pemberton, Josephine M
Pinter-Wollman, Noa
Planes, Serge
Raulo, Aura
Rodríguez-Muñoz, Rolando
Rudd, Lauren
Sabuni, Christopher
Sah, Pratha
Schallert, Robert J
Sheldon, Ben C
Shizuka, Daizaburo
Sih, Andrew
Sinn, David L
Sluydts, Vincent
Spiegel, Orr
Telfer, Sandra
Thomason, Courtney A
Tickler, David M
Tregenza, Tom
VanderWaal, Kimberley
Walmsley, Sam
Walters, Eric L
Wanelik, Klara M
Whitehead, Hal
Wielgus, Elodie
Wilson-Aggarwal, Jared
Wohlfeil, Caroline
Bansal, Shweta
Albery, Gregory F
Becker, Daniel J
Firth, Josh A
De Moor, Delphine
Ravindran, Sanjana
Silk, Matthew
Sweeny, Amy R
Vander Wal, Eric
Webber, Quinn
Allen, Bryony
Babayan, Simon A
Barve, Sahas
Begon, Mike
Birtles, Richard J
Block, Theadora A
Block, Barbara A
Bradley, Janette E
Budischak, Sarah
Buesching, Christina
Burthe, Sarah J
Carlisle, Aaron B
Caselle, Jennifer E
Cattuto, Ciro
Chaine, Alexis S
Chapple, Taylor K
Cheney, Barbara J
Clutton-Brock, Timothy
Collier, Melissa
Curnick, David J
Delahay, Richard J
Farine, Damien R
Fenton, Andy
Ferretti, Francesco
Feyrer, Laura
Fielding, Helen
Foroughirad, Vivienne
Frere, Celine
Gardner, Michael G
Geffen, Eli
Godfrey, Stephanie S
Graham, Andrea L
Hammond, Phil S
Henrich, Maik
Heurich, Marco
Hopwood, Paul
Ilany, Amiyaal
Jackson, Joseph A
Jackson, Nicola
Jacoby, David M P
Jacoby, Ann-Marie
Ježek, Miloš
Kirkpatrick, Lucinda
Klamm, Alisa
Klarevas-Irby, James A
Knowles, Sarah
Koren, Lee
Krzyszczyk, Ewa
Kusch, Jillian M
Lambin, Xavier
Lane, Jeffrey E
Leirs, Herwig
Leu, Stephan T
Lyon, Bruce E
Macdonald, David W
Madsen, Anastasia E
Mann, Janet
Manser, Marta
Mariën, Joachim
Massawe, Apia
McDonald, Robbie A
Morelle, Kevin
Mourier, Johann
Newman, Chris
Nussear, Kenneth
Nyaguthii, Brendah
Ogino, Mina
Ozella, Laura
Packer, Craig
Papastamatiou, Yannis P
Paterson, Steve
Payne, Eric
Pedersen, Amy B
Pemberton, Josephine M
Pinter-Wollman, Noa
Planes, Serge
Raulo, Aura
Rodríguez-Muñoz, Rolando
Rudd, Lauren
Sabuni, Christopher
Sah, Pratha
Schallert, Robert J
Sheldon, Ben C
Shizuka, Daizaburo
Sih, Andrew
Sinn, David L
Sluydts, Vincent
Spiegel, Orr
Telfer, Sandra
Thomason, Courtney A
Tickler, David M
Tregenza, Tom
VanderWaal, Kimberley
Walmsley, Sam
Walters, Eric L
Wanelik, Klara M
Whitehead, Hal
Wielgus, Elodie
Wilson-Aggarwal, Jared
Wohlfeil, Caroline
Bansal, Shweta
collection PubMed - marine biology
contents Density-dependent network structuring within and across wild animal systems. Albery, Gregory F Becker, Daniel J Firth, Josh A De Moor, Delphine Ravindran, Sanjana Silk, Matthew Sweeny, Amy R Vander Wal, Eric Webber, Quinn Allen, Bryony Babayan, Simon A Barve, Sahas Begon, Mike Birtles, Richard J Block, Theadora A Block, Barbara A Bradley, Janette E Budischak, Sarah Buesching, Christina Burthe, Sarah J Carlisle, Aaron B Caselle, Jennifer E Cattuto, Ciro Chaine, Alexis S Chapple, Taylor K Cheney, Barbara J Clutton-Brock, Timothy Collier, Melissa Curnick, David J Delahay, Richard J Farine, Damien R Fenton, Andy Ferretti, Francesco Feyrer, Laura Fielding, Helen Foroughirad, Vivienne Frere, Celine Gardner, Michael G Geffen, Eli Godfrey, Stephanie S Graham, Andrea L Hammond, Phil S Henrich, Maik Heurich, Marco Hopwood, Paul Ilany, Amiyaal Jackson, Joseph A Jackson, Nicola Jacoby, David M P Jacoby, Ann-Marie Ježek, Miloš Kirkpatrick, Lucinda Klamm, Alisa Klarevas-Irby, James A Knowles, Sarah Koren, Lee Krzyszczyk, Ewa Kusch, Jillian M Lambin, Xavier Lane, Jeffrey E Leirs, Herwig Leu, Stephan T Lyon, Bruce E Macdonald, David W Madsen, Anastasia E Mann, Janet Manser, Marta Mariën, Joachim Massawe, Apia McDonald, Robbie A Morelle, Kevin Mourier, Johann Newman, Chris Nussear, Kenneth Nyaguthii, Brendah Ogino, Mina Ozella, Laura Packer, Craig Papastamatiou, Yannis P Paterson, Steve Payne, Eric Pedersen, Amy B Pemberton, Josephine M Pinter-Wollman, Noa Planes, Serge Raulo, Aura Rodríguez-Muñoz, Rolando Rudd, Lauren Sabuni, Christopher Sah, Pratha Schallert, Robert J Sheldon, Ben C Shizuka, Daizaburo Sih, Andrew Sinn, David L Sluydts, Vincent Spiegel, Orr Telfer, Sandra Thomason, Courtney A Tickler, David M Tregenza, Tom VanderWaal, Kimberley Walmsley, Sam Walters, Eric L Wanelik, Klara M Whitehead, Hal Wielgus, Elodie Wilson-Aggarwal, Jared Wohlfeil, Caroline Bansal, Shweta Population Density Animals, Wild Behavior, Animal Social Behavior Animals Animal Distribution Spatial Analysis Theory predicts that high population density leads to more strongly connected spatial and social networks, but how local density drives individuals' positions within their networks is unclear. This gap reduces our ability to understand and predict density-dependent processes. Here we show that density drives greater network connectedness at the scale of individuals within wild animal populations. Across 36 datasets of spatial and social behaviour in >58,000 individual animals, spanning 30 species of fish, reptiles, birds, mammals and insects, 80% of systems exhibit strong positive relationships between local density and network centrality. However, >80% of relationships are nonlinear and 75% are shallower at higher values, indicating saturating trends that probably emerge as a result of demographic and behavioural processes that counteract density's effects. These are stronger and less saturating in spatial compared with social networks, as individuals become disproportionately spatially connected rather than socially connected at higher densities. Consequently, ecological processes that depend on spatial connections are probably more density dependent than those involving social interactions. These findings suggest fundamental scaling rules governing animal social dynamics, which could help to predict network structures in novel systems.
format Artículo científico
id pubmed_40908382
institution PubMed
language en
publishDate 2025
publisher Nature ecology & evolution
record_format pubmed
spellingShingle Density-dependent network structuring within and across wild animal systems.
Albery, Gregory F
Becker, Daniel J
Firth, Josh A
De Moor, Delphine
Ravindran, Sanjana
Silk, Matthew
Sweeny, Amy R
Vander Wal, Eric
Webber, Quinn
Allen, Bryony
Babayan, Simon A
Barve, Sahas
Begon, Mike
Birtles, Richard J
Block, Theadora A
Block, Barbara A
Bradley, Janette E
Budischak, Sarah
Buesching, Christina
Burthe, Sarah J
Carlisle, Aaron B
Caselle, Jennifer E
Cattuto, Ciro
Chaine, Alexis S
Chapple, Taylor K
Cheney, Barbara J
Clutton-Brock, Timothy
Collier, Melissa
Curnick, David J
Delahay, Richard J
Farine, Damien R
Fenton, Andy
Ferretti, Francesco
Feyrer, Laura
Fielding, Helen
Foroughirad, Vivienne
Frere, Celine
Gardner, Michael G
Geffen, Eli
Godfrey, Stephanie S
Graham, Andrea L
Hammond, Phil S
Henrich, Maik
Heurich, Marco
Hopwood, Paul
Ilany, Amiyaal
Jackson, Joseph A
Jackson, Nicola
Jacoby, David M P
Jacoby, Ann-Marie
Ježek, Miloš
Kirkpatrick, Lucinda
Klamm, Alisa
Klarevas-Irby, James A
Knowles, Sarah
Koren, Lee
Krzyszczyk, Ewa
Kusch, Jillian M
Lambin, Xavier
Lane, Jeffrey E
Leirs, Herwig
Leu, Stephan T
Lyon, Bruce E
Macdonald, David W
Madsen, Anastasia E
Mann, Janet
Manser, Marta
Mariën, Joachim
Massawe, Apia
McDonald, Robbie A
Morelle, Kevin
Mourier, Johann
Newman, Chris
Nussear, Kenneth
Nyaguthii, Brendah
Ogino, Mina
Ozella, Laura
Packer, Craig
Papastamatiou, Yannis P
Paterson, Steve
Payne, Eric
Pedersen, Amy B
Pemberton, Josephine M
Pinter-Wollman, Noa
Planes, Serge
Raulo, Aura
Rodríguez-Muñoz, Rolando
Rudd, Lauren
Sabuni, Christopher
Sah, Pratha
Schallert, Robert J
Sheldon, Ben C
Shizuka, Daizaburo
Sih, Andrew
Sinn, David L
Sluydts, Vincent
Spiegel, Orr
Telfer, Sandra
Thomason, Courtney A
Tickler, David M
Tregenza, Tom
VanderWaal, Kimberley
Walmsley, Sam
Walters, Eric L
Wanelik, Klara M
Whitehead, Hal
Wielgus, Elodie
Wilson-Aggarwal, Jared
Wohlfeil, Caroline
Bansal, Shweta
Population Density
Animals, Wild
Behavior, Animal
Social Behavior
Animals
Animal Distribution
Spatial Analysis
Density-dependent network structuring within and across wild animal systems. Albery, Gregory F Becker, Daniel J Firth, Josh A De Moor, Delphine Ravindran, Sanjana Silk, Matthew Sweeny, Amy R Vander Wal, Eric Webber, Quinn Allen, Bryony Babayan, Simon A Barve, Sahas Begon, Mike Birtles, Richard J Block, Theadora A Block, Barbara A Bradley, Janette E Budischak, Sarah Buesching, Christina Burthe, Sarah J Carlisle, Aaron B Caselle, Jennifer E Cattuto, Ciro Chaine, Alexis S Chapple, Taylor K Cheney, Barbara J Clutton-Brock, Timothy Collier, Melissa Curnick, David J Delahay, Richard J Farine, Damien R Fenton, Andy Ferretti, Francesco Feyrer, Laura Fielding, Helen Foroughirad, Vivienne Frere, Celine Gardner, Michael G Geffen, Eli Godfrey, Stephanie S Graham, Andrea L Hammond, Phil S Henrich, Maik Heurich, Marco Hopwood, Paul Ilany, Amiyaal Jackson, Joseph A Jackson, Nicola Jacoby, David M P Jacoby, Ann-Marie Ježek, Miloš Kirkpatrick, Lucinda Klamm, Alisa Klarevas-Irby, James A Knowles, Sarah Koren, Lee Krzyszczyk, Ewa Kusch, Jillian M Lambin, Xavier Lane, Jeffrey E Leirs, Herwig Leu, Stephan T Lyon, Bruce E Macdonald, David W Madsen, Anastasia E Mann, Janet Manser, Marta Mariën, Joachim Massawe, Apia McDonald, Robbie A Morelle, Kevin Mourier, Johann Newman, Chris Nussear, Kenneth Nyaguthii, Brendah Ogino, Mina Ozella, Laura Packer, Craig Papastamatiou, Yannis P Paterson, Steve Payne, Eric Pedersen, Amy B Pemberton, Josephine M Pinter-Wollman, Noa Planes, Serge Raulo, Aura Rodríguez-Muñoz, Rolando Rudd, Lauren Sabuni, Christopher Sah, Pratha Schallert, Robert J Sheldon, Ben C Shizuka, Daizaburo Sih, Andrew Sinn, David L Sluydts, Vincent Spiegel, Orr Telfer, Sandra Thomason, Courtney A Tickler, David M Tregenza, Tom VanderWaal, Kimberley Walmsley, Sam Walters, Eric L Wanelik, Klara M Whitehead, Hal Wielgus, Elodie Wilson-Aggarwal, Jared Wohlfeil, Caroline Bansal, Shweta Population Density Animals, Wild Behavior, Animal Social Behavior Animals Animal Distribution Spatial Analysis Theory predicts that high population density leads to more strongly connected spatial and social networks, but how local density drives individuals' positions within their networks is unclear. This gap reduces our ability to understand and predict density-dependent processes. Here we show that density drives greater network connectedness at the scale of individuals within wild animal populations. Across 36 datasets of spatial and social behaviour in >58,000 individual animals, spanning 30 species of fish, reptiles, birds, mammals and insects, 80% of systems exhibit strong positive relationships between local density and network centrality. However, >80% of relationships are nonlinear and 75% are shallower at higher values, indicating saturating trends that probably emerge as a result of demographic and behavioural processes that counteract density's effects. These are stronger and less saturating in spatial compared with social networks, as individuals become disproportionately spatially connected rather than socially connected at higher densities. Consequently, ecological processes that depend on spatial connections are probably more density dependent than those involving social interactions. These findings suggest fundamental scaling rules governing animal social dynamics, which could help to predict network structures in novel systems.
title Density-dependent network structuring within and across wild animal systems.
topic Population Density
Animals, Wild
Behavior, Animal
Social Behavior
Animals
Animal Distribution
Spatial Analysis
url https://pubmed.ncbi.nlm.nih.gov/40908382/