Social immunity and the evolution of group living in insects

Meunier, Joël

doi:10.1098/rstb.2014.0102

Cited by 159 publications

(197 citation statements)

References 110 publications

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“…There exist many behavioural strategies of anti-parasite defence, observed across a wide range of species ( [1][2][3][4][5][6]; see also Meunier [7]). These strategies include specific behavioural tendencies that are stimulated by existing infections and that help to promote recovery from those infections (e.g.…”

Section: Introductionmentioning

confidence: 99%

Implications of the behavioural immune system for social behaviour and human health in the modern world

Schaller

Murray

Bangerter

2015

Phil. Trans. R. Soc. B

140

135

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The ‘behavioural immune system’ is composed of mechanisms that evolved as a means of facilitating behaviours that minimized infection risk and enhanced fitness. Recent empirical research on human populations suggests that these mechanisms have unique consequences for many aspects of human sociality—including sexual attitudes, gregariousness, xenophobia, conformity to majority opinion and conservative sociopolitical attitudes. Throughout much of human evolutionary history, these consequences may have had beneficial health implications; but health implications in modern human societies remain unclear. This article summarizes pertinent ways in which modern human societies are similar to and different from the ecologies within which the behavioural immune system evolved. By attending to these similarities and differences, we identify a set of plausible implications—both positive and negative—that the behavioural immune system may have on health outcomes in contemporary human contexts. We discuss both individual-level infection risk and population-level epidemiological outcomes. We also discuss a variety of additional implications, including compliance with public health policies, the adoption of novel therapeutic interventions and actual immunological functioning. Research on the behavioural immune system, and its implications in contemporary human societies, can provide unique insights into relationships between fitness, sociality and health.

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Section: Introductionmentioning

confidence: 99%

Implications of the behavioural immune system for social behaviour and human health in the modern world

Schaller

Murray

Bangerter

2015

Phil. Trans. R. Soc. B

140

135

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“…Interesting new angles on this question were raised in this theme issue, including social immunity in insects [9] and the behavioural immune system in humans [12]. Yet other questions arise.…”

Section: Discussionmentioning

confidence: 99%

“…In that first chapter, the authors highlighted how transitions from a solitary lifestyle to group living resulted in new health-related costs and risks, and thus favoured the evolution of new counterstrategies to these costs that involve behaviour, physiology and immune responses. This evolutionary pattern is well illustrated by Meunier's [9] analysis of social immunity and group living in insects, where social immunity refers to collective anti-parasitic defences, such as systematic removal of dead animals from the nest. His review of the macroevolutionary patterns highlights the many diverse solutions that natural selection has discovered to control infection after group living evolves.…”

Section: Synthesis and Exceptions (A) Synthesismentioning

confidence: 99%

“…In group-living species, it is thought that many behavioural strategies to reduce parasite transmission have evolved [3,9,35]. The basic principles underlying these 'social immunity' strategies serve as the basis for hypotheses linking parasitism to cross-species variation in the structure of social groups [3,19,36].…”

Section: (A) Society-level Defences Against Infectious Diseasementioning

confidence: 99%

“…Other papers in this issue have investigated the fitness consequences of sociality and parasitism, for example in Columbian ground squirrels [8]. The papers also take a wide range of approaches, including broad-scale comparative and meta-analysis [3,7,9], long-term field research on food availability, stress and population density [10], social networks and disease spread in wild animals [4], and experimental studies of behaviour in captive primates [5].…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

The sociality–health–fitness nexus: synthesis, conclusions and future directions

Nunn

Craft

Gillespie

et al. 2015

Phil. Trans. R. Soc. B

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This theme issue has highlighted the links between sociality, health and fitness in a broad range of organisms, and with approaches that include field and captive studies of animals, comparative and meta-analyses, theoretical modelling and clinical and psychological studies of humans. In this concluding chapter, we synthesize the results of these diverse studies into some of the key concepts discussed in this issue, focusing on risks of infectious disease through social contact, the effects of competition in groups on susceptibility to disease, and the integration of sociality into research on life-history trade-offs. Interestingly, the studies in this issue both support pre-existing hypotheses, and in other ways challenge those hypotheses. We focus on unexpected results, including a lack of association between ectoparasites and fitness and weak results from a meta-analysis of the links between dominance rank and immune function, and place these results in a broader context. We also review relevant topics that were not covered fully in this theme issue, including self-medication and sickness behaviours, society-level defences against infectious disease, sexual selection, evolutionary medicine, implications for conservation biology and selective pressures on parasite traits. We conclude by identifying general open questions to stimulate and guide future research on the links between sociality, health and fitness.

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Social immunity in honeybees—Density dependence, diet, and body mass trade‐offs

Jones

Shipley

Arnold

2018

Ecology and Evolution

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Group living is favorable to pathogen spread due to the increased risk of disease transmission among individuals. Similar to individual immune defenses, social immunity, that is antiparasite defenses mounted for the benefit of individuals other than the actor, is predicted to be altered in social groups. The eusocial honey bee (Apis mellifera) secretes glucose oxidase (GOX), an antiseptic enzyme, throughout its colony, thereby providing immune protection to other individuals in the hive. We conducted a laboratory experiment to investigate the effects of group density on social immunity, specifically GOX activity, body mass and feeding behavior in caged honey bees. Individual honeybees caged in a low group density displayed increased GOX activity relative to those kept at a high group density. In addition, we provided evidence for a trade‐off between GOX activity and body mass: Individuals caged in the low group density had a lower body mass, despite consuming more food overall. Our results provide the first experimental evidence that group density affects a social immune response in a eusocial insect. Moreover, we showed that the previously reported trade‐off between immunity and body mass extends to social immunity. GOX production appears to be costly for individuals, and potentially the colony, given that low body mass is correlated with small foraging ranges in bees. At high group densities, individuals can invest less in social immunity than at low densities, while presumably gaining shared protection from infection. Thus, there is evidence that trade‐offs at the individual level (GOX vs. body mass) can affect colony‐level fitness.

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Social immunity and the evolution of group living in insects

Cited by 159 publications

References 110 publications

Implications of the behavioural immune system for social behaviour and human health in the modern world

Implications of the behavioural immune system for social behaviour and human health in the modern world

The sociality–health–fitness nexus: synthesis, conclusions and future directions

Social immunity in honeybees—Density dependence, diet, and body mass trade‐offs

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