Keeping it together : the effect of familiarity, personality, and active interactions on group coordination

Riley, Riva Jyoti

January 2019

Group coordination is a universal feature of social life. Animals form social groups for a variety of reasons, including predator evasion and more efficient foraging, and individuals living in social groups must coordinate their activities in order for groups to function. Consequently, the factors that facilitate or impede group coordination are of great interest in understanding the lives of social animals. Familiarity between individuals has well-documented effects on group coordination, with familiar groups outperforming unfamiliar ones in predator evasion, foraging, and cohesion. Individuals also generally prefer to coordinate with familiar conspecifics over unfamiliar ones. Despite these advantages, the mechanisms through which familiarity might aid group coordination are poorly understood. Similarly, the individual personalities of group members have well-documented effects on group performance: bold individuals are more likely to be 'leaders' and determine the direction of group movements, and groups comprised of individuals of differing personalities outperform groups of all bold or all shy individuals. While the effect of individual personalities on group behaviour has been recorded extensively, the ways in which individuals affect each other's behaviour are still poorly documented. In particular, active interactions where one individual can directly affect the behaviour of others have received limited attention, as it is difficult to distinguish such actions from passive effects. I used two systems to investigate how individual behaviours can lead to group coordination. In three-spined sticklebacks (Gasterosteus aculeatus), well-established boldness assays allowed me to assess the effects of personality and familiarity on 1) coordination between pairs of fish; I found that individuals in unfamiliar pairs exhibited coordination patterns consistent with their individual personalities, with bold individuals more likely to leave cover independently, while in familiar pairs, individuals behaved in ways seemingly unrelated to their boldness scores. I also investigated how personality and familiarity affect 2) group coordination and individual performance in a problem-solving paradigm. I found that familiarity, relative individual personality, and group mean personality interact to affect individual foraging success, and that group cohesion was affected by the interaction of group familiarity and group mean personality. These results suggest that individual characteristics can impact the behaviour of groups, and that the characteristics of an individual's group can in turn affect an individual's behaviour and success. In the Bronze Cory catfish (Corydoras aeneus), I described a novel tactile interaction style termed 'nudging' that individuals use during group coordination. I investigated 3) the effect of familiarity on nudging and coordination in pairs and triplets. These results show that nudging can be used to overcome the disadvantages of familiarity, which has important implications for how communication can underlie group coordination in the absence of familiarity. I then investigated how 4) nudging affects group coordination following a flight response to a potential threat. I demonstrated that nudging leads to a higher likelihood of group cohesion and longer group flight times. This shows how active interactions can mediate group responses and affect the ecologically relevant scenario of predator evasion. Finally, I investigated 5) the development of this nudging behaviour. My results show that Bronze Cory catfish larvae develop toleration for tactile stimulation with age alongside their propensity to nudge conspecifics. This suggests that Bronze Cory catfish larvae require social feedback to develop appropriate responses to nudges from conspecifics and supports the important role of nudging in Bronze Cory catfish sociality. The presence of active interactions in the Bronze Cory catfish` modifies the way that social behaviour manifests in this species and has great potential for further questions about social behaviour and group functioning.

PLATO: A Coordination Framework for Designers of Multi-Player Real-Time Games

2013 April 1900

Player coordination is a key element in many multi-player real-time digital games and cooperative real-time multi-player modes are now common in many digital-game genres. Coordination is an important part of the design of these games for several reasons: coordination can change the game balance and the level of difficulty as different types and degrees of coordination can make the game easier or more difficult; coordination is an important part of ‘playing like a team’ which affects the quality of play; and coordination as a shared activity is a key to sociality that can add to the sociability of the game. Being able to exercise control over the design of these coordination requirements is an important part of developing successful games. However, it is currently difficult to understand, describe, analyze or design coordination requirements in game situations, because current frameworks and theories do not mesh with the realities of video game design. I developed a new framework (called PLATO) that can help game designers to understand, describe, design and manipulate coordination episodes. The framework deals with five atomic aspects of coordinated activity: Players, Locations, Actions, Time, and Objects. PLATO provides a vocabulary, methodology and diagram notation for describing and analyzing coordination. I demonstrate the framework’s utility by describing coordination situations from existing games, and by showing how PLATO can be used to understand and redesign coordination requirements.

Group Coordination

Real-time Multi-player Games

Design

Group Coordination Processes and Determinants of Leadership in Red-fronted Lemurs (Eulemur rufifrons)

Sperber, Anna Lucia

14 December 2018

No description available.

570

group coordination

collective movements

vocalisations

leadership

personality

mimetism

primates

Eulemur

Biologie (PPN619462639)

Group coordination during collective movements in Guinea baboons (Papio papio)

Montanari, Davide

29 April 2019

No description available.

570

Guinea baboons

Group coordination

Group movement

Group departure

Group progression

Leadership

Group decision-making

Biologie (PPN619462639)

Determinants and outcomes of group coordination and decision-making in red-fronted lemurs (Eulemur rufifrons) / Determinanten und Konsequenzen von Gruppenkoordination und Entscheidungsfindung bei Rotstirnmakis (Eulemur rufifrons)

Pyritz, Lennart

30 June 2011

No description available.

590 Tiere (Zoologie)

Biology (incl. Psychology)

Gruppenkoordination

Gruppenkohäsion

Entscheidungsfindung

Anführerschaft

Rotstirnmakis

Eulemur rufifrons

Madagaskar

Bewegungsmuster

Raubfeind-Mobbing

group coordination

group cohesion

consensus decision-making

leadership

red-fronted lemurs

Eulemur rufifrons

Madagascar

ranging behaviour

predator mobbing

42.66

42.60

WN

WZ