TY - JOUR
T1 - The ecology and evolution of human-wildlife cooperation
AU - Cram, Dominic L.
AU - van der Wal, Jessica E. M.
AU - Uomini, Natalie
AU - Cantor, Mauricio
AU - Afan, Anap I.
AU - Attwood, Mairenn C.
AU - Amphaeris, Jenny
AU - Balasani, Fatima
AU - Blair, Cameron J.
AU - Bronstein, Judith L.
AU - Buanachique, Iahaia O.
AU - Cuthill, Rion R. T.
AU - Das, Jewel
AU - Daura-Jorge, Fábio G.
AU - Deb, Apurba
AU - Dixit, Tanmay
AU - Dlamini, Gcina S.
AU - Dounias, Edmond
AU - Gedi, Isa I.
AU - Gruber, Martin
AU - Hoffmann, Lilian S.
AU - Holzlehner, Tobias
AU - Isack, Hussein A.
AU - Laltakia, Eliupendo A.
AU - Lloyd-Jones, David J.
AU - Lund, Jess
AU - Machado, Alexandre M. S.
AU - Mahadevan, L.
AU - Moreno, Ignacio B.
AU - Nwaogu, Chima J.
AU - Pierotti, Raymond
AU - Rucunua, Seliano A.
AU - dos Santos, Wilson F.
AU - Serpa, Nathalia
AU - Smith, Brian D.
AU - Sridhar, Hari
AU - Tolkova, Irina
AU - Tun, Tint
AU - Valle-Pereira, João V. S.
AU - Wood, Brian M.
AU - Wrangham, Richard W.
AU - Spottiswoode, Claire N.
N1 - Data sharing statement: Data sharing not applicable—no new data generated.
Funding information: D.L.C, R.R.T.C., D.J.L.-J., C.N.S., and J.E.M.v.d.W. were supported by a European Research Council Consolidator Grant (725185 HONEYGUIDES-HUMANS) to C.N.S. N.U. was supported by the Max Planck Society and grant #0271 from the Templeton World Charity Foundation. The opinions expressed in this publication are those of the authors and do not necessarily reflect the views of Templeton World Charity Foundation. M.C. was supported by the Department for the Ecology of Animal Societies, Max Planck Institute of Animal Behaviour. Fábio Daura-Jorge was supported by CAPES (#88887.374128/2019-00), CNPq (#308867/2019-0).
PY - 2022/8
Y1 - 2022/8
N2 - Human-wildlife cooperation is a type of mutualism in which a human and a wild, free-living animal actively coordinate their behaviour to achieve a common beneficial outcome. While other cooperative human-animal interactions involving captive coercion or artificial selection (including domestication) have received extensive attention, we lack integrated insights into the ecology and evolution of human-wildlife cooperative interactions. Here, we review and synthesise the function, mechanism, development, and evolution of human-wildlife cooperation. Active cases involve people cooperating with greater honeyguide birds and with two dolphin species, while historical cases involve wolves and orcas. In all cases, a food source located by the animal is made available to both species by a tool-using human, coordinated with cues or signals. The mechanisms mediating the animal behaviours involved are unclear, but they may resemble those underlying intraspecific cooperation and reduced neophobia. The skills required appear to develop at least partially by social learning in both humans and the animal partners. As a result, distinct behavioural variants have emerged in each type of human-wildlife cooperative interaction in both species, and human-wildlife cooperation is embedded within local human cultures. We propose multiple potential origins for these unique cooperative interactions, and highlight how shifts to other interaction types threaten their persistence. Finally, we identify key questions for future research. We advocate an approach that integrates ecological, evolutionary and anthropological perspectives to advance our understanding of human-wildlife cooperation. In doing so, we will gain new insights into the diversity of our ancestral, current and future interactions with the natural world.
AB - Human-wildlife cooperation is a type of mutualism in which a human and a wild, free-living animal actively coordinate their behaviour to achieve a common beneficial outcome. While other cooperative human-animal interactions involving captive coercion or artificial selection (including domestication) have received extensive attention, we lack integrated insights into the ecology and evolution of human-wildlife cooperative interactions. Here, we review and synthesise the function, mechanism, development, and evolution of human-wildlife cooperation. Active cases involve people cooperating with greater honeyguide birds and with two dolphin species, while historical cases involve wolves and orcas. In all cases, a food source located by the animal is made available to both species by a tool-using human, coordinated with cues or signals. The mechanisms mediating the animal behaviours involved are unclear, but they may resemble those underlying intraspecific cooperation and reduced neophobia. The skills required appear to develop at least partially by social learning in both humans and the animal partners. As a result, distinct behavioural variants have emerged in each type of human-wildlife cooperative interaction in both species, and human-wildlife cooperation is embedded within local human cultures. We propose multiple potential origins for these unique cooperative interactions, and highlight how shifts to other interaction types threaten their persistence. Finally, we identify key questions for future research. We advocate an approach that integrates ecological, evolutionary and anthropological perspectives to advance our understanding of human-wildlife cooperation. In doing so, we will gain new insights into the diversity of our ancestral, current and future interactions with the natural world.
KW - animal culture
KW - cooperation
KW - dolphins
KW - honeyguides
KW - human-wildlife interaction
KW - mutualism
KW - orcas
KW - social learning
KW - wolves
UR - http://www.scopus.com/inward/record.url?scp=85131581302&partnerID=8YFLogxK
U2 - 10.1002/pan3.10369
DO - 10.1002/pan3.10369
M3 - Review article
VL - 4
SP - 841
EP - 855
JO - People and Nature
JF - People and Nature
SN - 2575-8314
IS - 4
ER -