The importance of individual-to-society feedbacks in animal ecology and evolution

Cantor, Maurício; Chaparro, Adriana Alexandra Maldonado; Beck, Kristina Barbara; Carter, Gerald G.; He, Peng; Hillemann, Friederike; Irby, James Klarevas; Lang, S.; Ogino, Mina; Papageorgiou, Danai; Prox, Lea; Farine, Damien R.

doi:10.32942/osf.io/m62gb

Cited by 44 publications

(86 citation statements)

References 148 publications

(166 reference statements)

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“…Alberts (2019)) and social network analysis provides powerful tools to describe social interactions and analyse their evolution through time (Hinde, 1976). In fact, social network analysis has transformed research in ecology and evolution (for a review see Cantor et al (2019)). Here, we have analysed the temporal (in)stability of a social group of baboons using an automatically collected high-resolution longterm dataset.…”

Section: Discussionmentioning

confidence: 99%

Detecting social (in)stability in primates from their temporal co-presence network

et al. 2019

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The stability of social relationships is important to animals living in groups, and social network analysis provides a powerful tool to help characterize and understand their (in)stability and the consequences at the group level. However, the use of dynamic social networks is still limited in this context because it requires longterm social data and new analytical tools. Here, we study the dynamic evolution of a group of 29 Guinea baboons (Papio papio) using a dataset of automatically collected cognitive tests comprising more than 16M records collected over 3 years. We first built a monthly aggregated temporal network describing the baboon's copresence in the cognitive testing booths. We then used a null model, considering the heterogeneity in the baboons' activity, to define both positive (association) and negative (avoidance) monthly networks. We tested social balance theory by combining these positive and negative social networks. The results showed that the networks were structurally balanced and that newly created edges also tended to preserve social balance. We then investigated several network metrics to gain insights into the individual level and group level social networks long-term temporal evolution. Interestingly, a measure of similarity between successive monthly networks was able to pinpoint periods of stability and instability and to show how some baboons' egonetworks remained stable while others changed radically. Our study confirms the prediction of social balance theory but also shows that large fluctuations in the numbers of triads may limit its applicability to study the dynamic evolution of animal social networks. In contrast, the use of the similarity measure proved to be very versatile and sensitive in detecting relationships' (in)stabilities at different levels. The changes we identified can be linked, at least in some cases, to females changing primary male, as observed in the wild.

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Section: Discussionmentioning

confidence: 99%

Detecting social (in)stability in primates from their temporal co-presence network

et al. 2019

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“…Our results demonstrate that social phenotypes translate into the heterospecific social environment, with individuals showing marked inter-individual variation in overall gregariousness, and connectedness to heterospecifics in multi-species networks. Given the growing evidence for the effects of individuals’ social environment on modulating evolutionary and ecological processes (Cantor et al 2019), the importance of decisions about the heterospecific social associations could be widely under-appreciated.…”

Section: Discussionmentioning

confidence: 99%

“…For example, both grouping and use of heterospecific social information have been shown to provide anti-predator benefits (Magrath et al 2015; Meise et al 2018; Goodale et al 2019) and foraging benefits (Dolby & Grubb 1998; Farine et al 2015) to members of mixed-species groups. In turn, interactions with heterospecifics could influence the positions of individuals within their social networks, and thereby contribute to ecological and evolutionary processes arising via the social environment (see Cantor et al 2019 for a review).…”

Section: Introductionmentioning

confidence: 99%

“…Such a bottom-up approach accounts for the effect of inter-individual differences in traits and has long been applied to study sociality in single-species groups, thus providing a theoretical and analytical basis for analysing heterospecific sociality. Social Network Analysis (SNA) has become an important method for quantifying individuals’ social decisions (such as partner choice), interaction pattern among individuals, and the emerging social structure of groups and populations (Cantor et al 2019). To our knowledge, only two studies have analysed dyadic interactions to explore the role of individual-level decisions in shaping heterospecific groups and both focus on within-species variation in measures of social behaviour (Farine et al 2012; Farine & Milburn 2013).…”

Section: Introductionmentioning

confidence: 99%

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Wild songbirds exhibit consistent individual differences in inter-specific social behaviour

Hillemann

Cole

Farine

et al. 2019

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10 1. Natural populations and communities consist of individuals that differ in their 11 phenotypes. There is increasing evidence in community ecology that consistent 12 intraspecific variation in behaviour changes the outcome of ecological interactions.13 2. Differences in intra-and inter-specific interactions are expected to play a major role in 14 determining patterns of species coexistence and community structure. However, the 15 question of whether individuals vary in their propensity to associate with heterospecifics 16 has been neglected.173. We used social network analysis to characterise pattern of heterospecific associations 18 in wild mixed-species flocks of songbirds, and assessed whether individuals adopt 19 consistent social strategies in their broader, heterospecific, social environment. We 20 quantified heterospecific foraging associations using data from a large automatically 21 monitored PIT-tagged population of birds, involving more than 300 000 observations of 22 flock membership, collected over three winters, for two tit species (Paridae), blue tits, 23Cyanistes caeruleus, and great tits, Parus major. 24 4. We assessed individual consistency in interspecific social preferences over both short-25 term (week-to-week) and longer-term (year-to-year) timescales for a total of 4610 26 individuals, and found that blue tits and great tits exhibited marked and consistent 27 intraspecific differences in heterospecific social phenotypes in terms of both absolute 28 2 and relative number of associates. Further, we found that these consistent differences 29 were significantly greater than expected from spatial and temporal differences in 30 population densities. 31 5. Heterospecific associations represent a major component of the social environment for 32 many species, and our results show that individuals vary consistently in their social 33 decisions with respect to heterospecifics. These findings provide support for the notion 34 that intraspecific trait variation contributes to patterns at community and ecosystem 35 levels. 36 37

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“…More generally, the ability to make predictions about social networks in changing environments can have direct implications for disease management, population level dynamics, as well as other ecological and evolutionary processes where social network structures have been shown to be an influential component [43]. Additionally, increases in geospatial infrastructure have made a growing amount of environmental data available, particularly from freely available satellite remote sensing datasets (e.g., Sentinel-2, Landsat, Modis) [44, 45], facilitating the integration of dynamic social networks with environmental measures.…”

Section: Discussionmentioning

confidence: 99%

Network reaction norms: taking into account network position and network plasticity in response to environmental change

Bonnell

Vilette

Henzi

et al. 2019

Preprint

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6Recent studies have highlighted the link between consistent inter-individual differences 1 7 in behaviour and consistency in social network position. There is also evidence that network 1 8 structures can show temporal dynamics, suggesting that consistency in social network position 1 9 3 1 behaviour. 3 2 3 3 Introduction: 3 4Consistent inter-individual differences in behaviour are common in animal groups [1, 2]. 5How such behavioural differences develop, are maintained, and selected form the focus of 3 6 current research efforts, as do questions relating to the ecological and evolutionary consequences 3 7of such inter-individual differences [3, 4]. There is also great interest in the extent to which 3 8 animals are able to vary their behaviour in response to environmental changes, and whether and 3 9 how this behavioural plasticity co-varies with inter-individual differences in mean behavioural 4 0rates. This is captured by the notion of a "behavioural reaction norm" (BRN)-the set of 4 1 behavioural phenotypes an individual produces in a given set of environments-a concept drawn 4 2 from life history theory [5, 6]. Analytically, a BRN can be identified using multi-level regression 4 3 models, where the fitting of random intercepts captures inter-individual differences in the 4 4 expression of a given behaviour, and random slopes capture individual differences in plasticity 4 5 across an environmental gradient. Thus, BRNs provide information on how animals differ both 4 6 in their mean level of a given behavioural trait, and in how strongly they respond to 4 7 environmental variation. 4 8 Within social groups, patterns of inter-individual consistency have also been observed in 4 9 social network position (e.g., central individuals remain central across time) [7-11]. Again, it is 5 0an open question as to how these differences arise and are maintained [12]. There is also 5 1 evidence to suggest that consistent inter-individual differences in behaviour and social network 5 2 position interact [13, 14], which implies either that, for social animals, network position reflects 5 3 certain behavioural predispositions, and/or that certain behavioural predispositions may arise in 5 4 7 1 whether some animals are more consistently central -measured as eigenvector centrality -over 7 2 time (i.e., inter-individual differences in intercepts); (ii) the extent to which individuals on 7 3 average respond to social and environmental changes (i.e., mean network plasticity in the 7 4 population/group); (iii) the extent to which individuals differ from this mean response (i.e., 7 5inter-individual differences in network plasticity or variation in slope); and finally, (iv) to 7 6 quantify the relationship between inter-individual differences in mean network position and 7 7 network plasticity (i.e., covariation between intercepts and slopes), e.g., do more (or less) central 7 8 individuals display a stronger (or weaker) response to environmental changes? 7 9 Methods: 8 0 Networks through time: 8 1 Social networks are often built on...

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The importance of individual-to-society feedbacks in animal ecology and evolution

Cited by 44 publications

References 148 publications

Detecting social (in)stability in primates from their temporal co-presence network

Detecting social (in)stability in primates from their temporal co-presence network

Wild songbirds exhibit consistent individual differences in inter-specific social behaviour

Network reaction norms: taking into account network position and network plasticity in response to environmental change

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