Disparate social structures are underpinned by distinct social rules across a primate radiation

Jacob A. Feder; Susan C. Alberts; Elizabeth A. Archie; Małgorzata E. Arlet; Alice Baniel; Jacinta C. Beehner; Thore J. Bergman; Alecia J. Carter; Marie J.E. Charpentier; Kenneth L. Chiou; Catherine Crockford; Guy Cowlishaw; Federica Dal Pesco; David Fernández; Julia Fischer; James P. Higham; Elise Huchard; Auriane Le Floch; Julia Lehmann; Amy Lu; Gráinne M. McCabe; Alexander Mielke; Liza R. Moscovice; Benjamin Mubemba; Megan Petersdorf; Caroline Ross; India A. Schneider-Crease; Robert M. Seyfarth; Noah Snyder-Mackler; Larissa Swedell; Franziska Trede; Jenny Tung; Anna H. Weyher; Roman M. Wittig; Jason M. Kamilar; Joan B. Silk

doi:10.1073/pnas.2520774123

Disparate social structures are underpinned by distinct social rules across a primate radiation

Jacob A. Feder
, Susan C. Alberts
, Elizabeth A. Archie
, Małgorzata E. Arlet
, Alice Baniel
, Jacinta C. Beehner
, Thore J. Bergman
, Alecia J. Carter
, Marie J.E. Charpentier
, Kenneth L. Chiou
, Catherine Crockford
, Guy Cowlishaw
, Federica Dal Pesco
, David Fernández
, Julia Fischer
, James P. Higham
, Elise Huchard
, Auriane Le Floch
, Julia Lehmann
, Amy Lu

Gráinne M. McCabe, Alexander Mielke, Liza R. Moscovice, Benjamin Mubemba, Megan Petersdorf, Caroline Ross, India A. Schneider-Crease, Robert M. Seyfarth, Noah Snyder-Mackler, Larissa Swedell, Franziska Trede, Jenny Tung, Anna H. Weyher, Roman M. Wittig, Jason M. Kamilar, Joan B. Silk

Anthropology

Arizona State University
Duke University
University of Notre Dame
Adam Mickiewicz University in Poznań
Université de Montpellier
University of Michigan, Ann Arbor
University College London
Gobabeb Namib Research Institute
Max Planck Institute of Animal Behavior
University of Alabama at Birmingham
University of Lyon
CNRS
Zoological Society of London Institute of Zoology
German Primate Center – Leibniz Institute for Primate Research
University of Göttingen
University of Calgary
New York University
University of Neuchatel
Roehampton University
Wilder Institute
Queen Mary University of London
Leibniz Institute for Farm Animal Biology
Copperbelt University
Tulane University
University of Pennsylvania
City University of New York
New York Consortium of Evolutionary Primatology
University of Cape Town
Max Planck Institute for Evolutionary Anthropology
University of Massachusetts

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

Abstract

Over six decades of research on wild baboons and their close relatives (collectively, the African papionins) have uncovered substantial variation in their behavior and social systems. While most papionins form discrete social groups (single-level societies), a few others form small social units that are nested within larger supergroups (multi-level societies). These two systems are generally thought to be qualitatively distinct, but data from wild populations increasingly suggest that there may be areas of overlap. To quantify this potential gradient in social structure, a more systematic, comparative analysis is needed. Here, we constructed a database of behavioral and demographic records spanning 135 group-years, 28 social groups, 13 long-term field studies, and 11 species to quantify variation in grooming network structure and identify the individual and dyadic properties (e.g., kinship and social status effects) that underlie this variation. Consistent with accumulating field observations, the single-level species could be divided into two categories: cohesive and cliquish. Cohesive single-level networks were dense, kin-biased, and moderately rank-structured, while cliquish single-level networks were more differentiated, slightly more kin-biased, and strongly rank-structured. As expected, multi-level networks were very modular and shaped by females’ ties to specific dominant males but varied in their kin biases. Taken together, these data suggest that in the African papionins i) kin and rank biases are widespread but vary in their strength; ii) male-centered subgroups are exclusive to multi-level systems; and iii) increases in network modularity can emerge in response to heightened nepotism and male-centered clustering.

Original language	English
Article number	e2520774123
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	123
Issue number	20
DOIs	https://doi.org/10.1073/pnas.2520774123
State	Published - May 19 2026

Keywords

baboon
papionin
social organization
social structure

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10.1073/pnas.2520774123

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Feder, J. A., Alberts, S. C., Archie, E. A., Arlet, M. E., Baniel, A., Beehner, J. C., Bergman, T. J., Carter, A. J., Charpentier, M. J. E., Chiou, K. L., Crockford, C., Cowlishaw, G., Pesco, F. D., Fernández, D., Fischer, J., Higham, J. P., Huchard, E., Le Floch, A., Lehmann, J., ... Silk, J. B. (2026). Disparate social structures are underpinned by distinct social rules across a primate radiation. Proceedings of the National Academy of Sciences of the United States of America, 123(20), Article e2520774123. https://doi.org/10.1073/pnas.2520774123

@article{3ade5ee749234330a0c247b57a4dc9bd,

title = "Disparate social structures are underpinned by distinct social rules across a primate radiation",

abstract = "Over six decades of research on wild baboons and their close relatives (collectively, the African papionins) have uncovered substantial variation in their behavior and social systems. While most papionins form discrete social groups (single-level societies), a few others form small social units that are nested within larger supergroups (multi-level societies). These two systems are generally thought to be qualitatively distinct, but data from wild populations increasingly suggest that there may be areas of overlap. To quantify this potential gradient in social structure, a more systematic, comparative analysis is needed. Here, we constructed a database of behavioral and demographic records spanning 135 group-years, 28 social groups, 13 long-term field studies, and 11 species to quantify variation in grooming network structure and identify the individual and dyadic properties (e.g., kinship and social status effects) that underlie this variation. Consistent with accumulating field observations, the single-level species could be divided into two categories: cohesive and cliquish. Cohesive single-level networks were dense, kin-biased, and moderately rank-structured, while cliquish single-level networks were more differentiated, slightly more kin-biased, and strongly rank-structured. As expected, multi-level networks were very modular and shaped by females{\textquoteright} ties to specific dominant males but varied in their kin biases. Taken together, these data suggest that in the African papionins i) kin and rank biases are widespread but vary in their strength; ii) male-centered subgroups are exclusive to multi-level systems; and iii) increases in network modularity can emerge in response to heightened nepotism and male-centered clustering.",

keywords = "baboon, papionin, social organization, social structure",

author = "Feder, \{Jacob A.\} and Alberts, \{Susan C.\} and Archie, \{Elizabeth A.\} and Arlet, \{Ma{\l}gorzata E.\} and Alice Baniel and Beehner, \{Jacinta C.\} and Bergman, \{Thore J.\} and Carter, \{Alecia J.\} and Charpentier, \{Marie J.E.\} and Chiou, \{Kenneth L.\} and Catherine Crockford and Guy Cowlishaw and Pesco, \{Federica Dal\} and David Fern{\'a}ndez and Julia Fischer and Higham, \{James P.\} and Elise Huchard and \{Le Floch\}, Auriane and Julia Lehmann and Amy Lu and McCabe, \{Gr{\'a}inne M.\} and Alexander Mielke and Moscovice, \{Liza R.\} and Benjamin Mubemba and Megan Petersdorf and Caroline Ross and Schneider-Crease, \{India A.\} and Seyfarth, \{Robert M.\} and Noah Snyder-Mackler and Larissa Swedell and Franziska Trede and Jenny Tung and Weyher, \{Anna H.\} and Wittig, \{Roman M.\} and Kamilar, \{Jason M.\} and Silk, \{Joan B.\}",

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

year = "2026",

month = may,

day = "19",

doi = "10.1073/pnas.2520774123",

language = "English",

volume = "123",

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

issn = "0027-8424",

number = "20",

}

Feder, JA, Alberts, SC, Archie, EA, Arlet, ME, Baniel, A, Beehner, JC, Bergman, TJ, Carter, AJ, Charpentier, MJE, Chiou, KL, Crockford, C, Cowlishaw, G, Pesco, FD, Fernández, D, Fischer, J, Higham, JP, Huchard, E, Le Floch, A, Lehmann, J, Lu, A, McCabe, GM, Mielke, A, Moscovice, LR, Mubemba, B, Petersdorf, M, Ross, C, Schneider-Crease, IA, Seyfarth, RM, Snyder-Mackler, N, Swedell, L, Trede, F, Tung, J, Weyher, AH, Wittig, RM, Kamilar, JM & Silk, JB 2026, 'Disparate social structures are underpinned by distinct social rules across a primate radiation', Proceedings of the National Academy of Sciences of the United States of America, vol. 123, no. 20, e2520774123. https://doi.org/10.1073/pnas.2520774123

TY - JOUR

T1 - Disparate social structures are underpinned by distinct social rules across a primate radiation

AU - Feder, Jacob A.

AU - Alberts, Susan C.

AU - Archie, Elizabeth A.

AU - Arlet, Małgorzata E.

AU - Baniel, Alice

AU - Beehner, Jacinta C.

AU - Bergman, Thore J.

AU - Carter, Alecia J.

AU - Charpentier, Marie J.E.

AU - Chiou, Kenneth L.

AU - Crockford, Catherine

AU - Cowlishaw, Guy

AU - Pesco, Federica Dal

AU - Fernández, David

AU - Fischer, Julia

AU - Higham, James P.

AU - Huchard, Elise

AU - Le Floch, Auriane

AU - Lehmann, Julia

AU - Lu, Amy

AU - McCabe, Gráinne M.

AU - Mielke, Alexander

AU - Moscovice, Liza R.

AU - Mubemba, Benjamin

AU - Petersdorf, Megan

AU - Ross, Caroline

AU - Schneider-Crease, India A.

AU - Seyfarth, Robert M.

AU - Snyder-Mackler, Noah

AU - Swedell, Larissa

AU - Trede, Franziska

AU - Tung, Jenny

AU - Weyher, Anna H.

AU - Wittig, Roman M.

AU - Kamilar, Jason M.

AU - Silk, Joan B.

PY - 2026/5/19

Y1 - 2026/5/19

N2 - Over six decades of research on wild baboons and their close relatives (collectively, the African papionins) have uncovered substantial variation in their behavior and social systems. While most papionins form discrete social groups (single-level societies), a few others form small social units that are nested within larger supergroups (multi-level societies). These two systems are generally thought to be qualitatively distinct, but data from wild populations increasingly suggest that there may be areas of overlap. To quantify this potential gradient in social structure, a more systematic, comparative analysis is needed. Here, we constructed a database of behavioral and demographic records spanning 135 group-years, 28 social groups, 13 long-term field studies, and 11 species to quantify variation in grooming network structure and identify the individual and dyadic properties (e.g., kinship and social status effects) that underlie this variation. Consistent with accumulating field observations, the single-level species could be divided into two categories: cohesive and cliquish. Cohesive single-level networks were dense, kin-biased, and moderately rank-structured, while cliquish single-level networks were more differentiated, slightly more kin-biased, and strongly rank-structured. As expected, multi-level networks were very modular and shaped by females’ ties to specific dominant males but varied in their kin biases. Taken together, these data suggest that in the African papionins i) kin and rank biases are widespread but vary in their strength; ii) male-centered subgroups are exclusive to multi-level systems; and iii) increases in network modularity can emerge in response to heightened nepotism and male-centered clustering.

AB - Over six decades of research on wild baboons and their close relatives (collectively, the African papionins) have uncovered substantial variation in their behavior and social systems. While most papionins form discrete social groups (single-level societies), a few others form small social units that are nested within larger supergroups (multi-level societies). These two systems are generally thought to be qualitatively distinct, but data from wild populations increasingly suggest that there may be areas of overlap. To quantify this potential gradient in social structure, a more systematic, comparative analysis is needed. Here, we constructed a database of behavioral and demographic records spanning 135 group-years, 28 social groups, 13 long-term field studies, and 11 species to quantify variation in grooming network structure and identify the individual and dyadic properties (e.g., kinship and social status effects) that underlie this variation. Consistent with accumulating field observations, the single-level species could be divided into two categories: cohesive and cliquish. Cohesive single-level networks were dense, kin-biased, and moderately rank-structured, while cliquish single-level networks were more differentiated, slightly more kin-biased, and strongly rank-structured. As expected, multi-level networks were very modular and shaped by females’ ties to specific dominant males but varied in their kin biases. Taken together, these data suggest that in the African papionins i) kin and rank biases are widespread but vary in their strength; ii) male-centered subgroups are exclusive to multi-level systems; and iii) increases in network modularity can emerge in response to heightened nepotism and male-centered clustering.

KW - baboon

KW - papionin

KW - social organization

KW - social structure

UR - https://www.scopus.com/pages/publications/105037773248

U2 - 10.1073/pnas.2520774123

DO - 10.1073/pnas.2520774123

M3 - Article

C2 - 42066042

AN - SCOPUS:105037773248

SN - 0027-8424

VL - 123

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 - 20

M1 - e2520774123

ER -

Disparate social structures are underpinned by distinct social rules across a primate radiation

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