Camp stability predicts patterns of hunter–gatherer cooperation

Humans regularly cooperate with non-kin, which has been theorized to require reciprocity between repeatedly interacting and trusting individuals. However, the role of repeated interactions has not previously been demonstrated in explaining real-world patterns of hunter–gatherer cooperation. Here we explore cooperation among the Agta, a population of Filipino hunter–gatherers, using data from both actual resource transfers and two experimental games across multiple camps. Patterns of cooperation vary greatly between camps and depend on socio-ecological context. Stable camps (with fewer changes in membership over time) were associated with greater reciprocal sharing, indicating that an increased likelihood of future interactions facilitates reciprocity. This is the first study reporting an association between reciprocal cooperation and hunter–gatherer band stability. Under conditions of low camp stability individuals still acquire resources from others, but do so via demand sharing (taking from others), rather than based on reciprocal considerations. Hunter–gatherer cooperation may either be characterized as reciprocity or demand sharing depending on socio-ecological conditions.

[1]  Alexander H. Bolyanatz Does the Use of Money Affect Results in Experimental Games? Comparing Cash and Betel Nut in Dictator and Ultimatum Games on New Ireland , 2010 .

[2]  P. Richerson,et al.  The evolution of reciprocity in sizable groups. , 1988, Journal of theoretical biology.

[3]  M. Gurven,et al.  Culture Sometimes Matters: Intra-Cultural Variation in Pro-Social Behavior Among Tsimane Amerindians , 2005, Journal of economic behavior & organization.

[4]  Reciprocity on Demand , 2015, Human nature.

[5]  David G. Rand,et al.  Humans display a ‘cooperative phenotype’ that is domain general and temporally stable , 2014, Nature Communications.

[6]  C. Lesorogol Bringing Norms In , 2007, Current Anthropology.

[7]  B. Winterhalder Gifts given, gifts taken: The behavioral ecology of nonmarket, intragroup exchange , 1997 .

[8]  Bruce Winterhalder,et al.  Diet choice, risk, and food sharing in a stochastic environment , 1986 .

[9]  N. Jones Tolerated theft, suggestions about the ecology and evolution of sharing, hoarding and scrounging: , 1987 .

[10]  R. Mace,et al.  Polygyny without wealth: popularity in gift games predicts polygyny in BaYaka Pygmies , 2015, Royal Society Open Science.

[11]  F. Marlowe Hunter‐gatherers and human evolution , 2005 .

[12]  Ruth Mace,et al.  Demography and ecology drive variation in cooperation across human populations , 2011, Proceedings of the National Academy of Sciences.

[13]  M. Gurven,et al.  From Forest to Reservation: Transitions in Food-Sharing Behavior among the Ache of Paraguay , 2002, Journal of Anthropological Research.

[14]  A. Hurtado,et al.  Reservation food sharing among the Ache of Paraguay , 2001, Human nature.

[15]  Tim Clutton-Brock,et al.  Cooperation between non-kin in animal societies , 2009, Nature.

[16]  Paul L. Hooper,et al.  Does Market Integration Buffer Risk, Erode Traditional Sharing Practices and Increase Inequality? A Test among Bolivian Forager-Farmers , 2015, Human ecology: an interdisciplinary journal.

[17]  D. Bird,et al.  Delayed Reciprocity and Tolerated Theft: The Behavioral Ecology of Food-Sharing Strategies , 1997, Current Anthropology.

[18]  W. Peterson SUMMARY REPORT OF TWO ARCHAEOLOGICAL SITES FROM NORTH-EASTERN LUZON , 1974 .

[19]  K. Hawkes,et al.  Hadza meat sharing. , 2001, Evolution and human behavior : official journal of the Human Behavior and Evolution Society.

[20]  Colin Camerer,et al.  “Economic man” in cross-cultural perspective: Behavioral experiments in 15 small-scale societies , 2005, Behavioral and Brain Sciences.

[21]  Paul L. Hooper,et al.  Inclusive fitness and differential productivity across the life course determine intergenerational transfers in a small-scale human society , 2015, Proceedings of the Royal Society B: Biological Sciences.

[22]  R. Mace,et al.  Cooperation is related to dispersal patterns in Sino-Tibetan populations , 2015, Nature Communications.

[23]  Antonio S Silva,et al.  Lost Letter Measure of Variation in Altruistic Behaviour in 20 Neighbourhoods , 2012, PloS one.

[24]  M. Gurven Economic Games Among the Amazonian Tsimane: Exploring the Roles of Market Access, Costs of Giving, and Cooperation on Pro-Social Game Behavior , 2004 .

[25]  K. L. Hutterer,et al.  Hunter-Gatherers and Their Neighbors from Prehistory to the Present [and Comments and Replies] , 1989, Current Anthropology.

[26]  N. Peterson Demand sharing: reciprocity and the pressure for generosity among foragers , 1993 .

[27]  R. Mace,et al.  Cooperation and conflict: field experiments in Northern Ireland , 2014, Proceedings of the Royal Society B: Biological Sciences.

[28]  A. Griffin,et al.  Cooperation and Competition Between Relatives , 2002, Science.

[29]  K Y Liang,et al.  Longitudinal data analysis for discrete and continuous outcomes. , 1986, Biometrics.

[30]  P. Wiessner,et al.  Experimental Games and Games of Life among the Ju/’hoan Bushmen , 2009, Current Anthropology.

[31]  Michael J Sailor,et al.  Mesoporous silicon sponge as an anti-pulverization structure for high-performance lithium-ion battery anodes , 2014, Nature Communications.

[32]  Andy Gardner,et al.  Cooperation and the Scale of Competition in Humans , 2006, Current Biology.

[33]  Michael Gurven,et al.  Reciprocal altruism, rather than kin selection, maintains nepotistic food transfers on an Ache reservation , 2008 .

[34]  M. Gurven,et al.  Reciprocity explains food sharing in humans and other primates independent of kin selection and tolerated scrounging: a phylogenetic meta-analysis , 2013, Proceedings of the Royal Society B: Biological Sciences.

[35]  David A. Nolin Food-Sharing Networks in Lamalera, Indonesia , 2010, Human nature.

[36]  R. Hitchcock,et al.  Bureaucratic Domination of Hunter‐Gatherer Societies: A Study of the San in Botswana , 1993 .

[37]  M. Hauser,et al.  Why be nice? Psychological constraints on the evolution of cooperation , 2004, Trends in Cognitive Sciences.

[38]  R. Mace,et al.  Saami reindeer herders cooperate with social group members and genetic kin , 2015 .

[39]  R. Mace,et al.  Sex equality can explain the unique social structure of hunter-gatherer bands , 2015, Science.

[40]  R. Trivers The Evolution of Reciprocal Altruism , 1971, The Quarterly Review of Biology.

[41]  N. Christakis,et al.  Social Networks and Cooperation in Hunter-Gatherers , 2011, Nature.

[42]  M. Gurven,et al.  Economic Experiments to Examine Fairness and Cooperation among the Ache Indians of Paraguay , 2004 .

[43]  Brian M Wood,et al.  Household and Kin Provisioning by Hadza Men , 2013, Human nature.

[44]  Kiridaran Kanagaretnam,et al.  Trust and Reciprocity with Transparency and Repeated Interactions , 2010 .

[45]  Kim Hill,et al.  Cooperative breeding in South American hunter–gatherers , 2009, Proceedings of the Royal Society B: Biological Sciences.

[46]  R. Mace,et al.  High mobility explains demand sharing and enforced cooperation in egalitarian hunter-gatherers , 2014, Nature Communications.

[47]  W. Hamilton The genetical evolution of social behaviour. I. , 1964, Journal of theoretical biology.

[48]  M. Gurven To give and to give not: The behavioral ecology of human food transfers , 2004, Behavioral and Brain Sciences.

[49]  T. Headland The wild yam question: How well could independent hunter-gatherers live in a tropical rain forest ecosystem? , 1987 .

[50]  Eric Alden Smith,et al.  Human Territoriality: An Ecological Reassessment , 1978 .

[51]  G. Schino,et al.  The relative roles of kinship and reciprocity in explaining primate altruism. , 2010, Ecology letters.

[52]  E. Smith,et al.  Risk and reciprocity in Meriam food sharing , 2002 .

[53]  Kim Hill,et al.  A theory of human life history evolution: Diet, intelligence, and longevity , 2000 .

[54]  A. Griffin,et al.  Evolutionary Explanations for Cooperation , 2007, Current Biology.

[55]  M. Gurven,et al.  Collective Action in Action: Prosocial Behavior in and out of the Laboratory , 2008 .

[56]  David G. Rand,et al.  Humans Display a 'Cooperative Phenotype' that is Domain General and Temporally Stable , 2014 .

[57]  W. Pan Akaike's Information Criterion in Generalized Estimating Equations , 2001, Biometrics.

[58]  G. Leckie,et al.  Multilevel modeling analysis of dyadic network data with an application to Ye'kwana food sharing. , 2015, American journal of physical anthropology.

[59]  Spatial Mobility and Access to Resources among the African Pygmies , 1992 .

[60]  BÓ Pedrodal,et al.  Cooperation under the Shadow of the Future : Experimental Evidence from Infinitely Repeated Games , 2005 .

[61]  W. Hamilton,et al.  The evolution of cooperation. , 1984, Science.

[62]  J. Henrich,et al.  Markets, Religion, Community Size, and the Evolution of Fairness and Punishment , 2010, Science.

[63]  D. A. Kenny,et al.  Interpersonal Perception: A Social Relations Analysis , 1988 .

[64]  M. Doebeli,et al.  The evolution of interspecific mutualisms. , 1998, Proceedings of the National Academy of Sciences of the United States of America.