207 research outputs found
Individuals that are consistent in risk-taking benefit during collective foraging
This is the final version of the article. Available from the publisher via the DOI in this record.It is well established that living in groups helps animals avoid predation and locate resources, but maintaining a group requires collective coordination, which can be difficult when individuals differ from one another. Personality variation (consistent behavioural differences within a population) is already known to be important in group interactions. Growing evidence suggests that individuals also differ in their consistency, i.e. differing in how variable they are over time, and theoretical models predict that this consistency can be beneficial in social contexts. We used three-spined sticklebacks (Gasterosteus aculeatus) to test whether the consistency in, as well as average levels of, risk taking behaviour (i.e. boldness) when individuals were tested alone affects social interactions when fish were retested in groups of 2 and 4. Behavioural consistency, independently of average levels of risk-taking, can be advantageous: more consistent individuals showed higher rates of initiating group movements as leaders, more behavioural coordination by joining others as followers, and greater food consumption. Our results have implications for both group decision making, as groups composed of consistent individuals are more cohesive, and personality traits, as social interactions can have functional consequences for consistency in behaviour and hence the evolution of personality variation.This work was supported by an Association for
the Study of Animal Behaviour research grant (CCI), a Leverhulme Trust Early Career Fellowship ECF-2011-628 (CCI) and a NERC Independent Research Fellowship NE/K009370/1 (CCI
Marine mammal behavior: a review of conservation implications
This is the author accepted manuscript. The final version is available from Frontiers Media via the DOI in this record.The three orders which comprise the extant marine mammals exhibit a wide range of behaviors, varying social structures and differences in social information use. Human impacts on marine mammals and their environments are ubiquitous; from chemical and noise pollution, to marine debris, prey depletion and ocean acidification. As a result, no marine mammal populations remain entirely unaffected by human activities. Conservation may be hindered by an inadequate understanding of the behavioral ecology of some of these species. As a result of social structure, social information use, culture and even behavioral syndromes, marine mammal social groups and populations can be behaviorally heterogeneous. As a result responses to conservation initiatives, or exploitation, may be complex to predict. Previous commentators have highlighted the importance of incorporating behavioral data into conservation management and we review these considerations in light of the emerging science in this field for marine mammals. Since behavioral canalization may lead to vulnerability, whereas behavioral plasticity may provide opportunity for resilience, we argue that for many of these socially complex, cognitive species understanding their behavioral ecology, capacity for social learning and individual behavioral variation, may be a central tenant for their successful conservation.The lead author’s research is funded by WDC (Whale and Dolphin Conservation)
Towards a behavioural ecology of obesity
This is the author accepted manuscript. The final version is available from Cambridge University Press via the DOI in this record.Addressing the obesity epidemic depends on a holistic understanding of the reasons that people become and
maintain excessive fat. Theories about the causes of obesity usually focus proximately or evoke evolutionary
mismatches, with minimal clinical value. There is potential for substantial progress by adapting strategic bodymass
regulation models from evolutionary ecology to human obesity by assessing the role of information
Effects of ambient noise on zebra finch vigilance and foraging efficiency
This is the final version. Available on open access from Public Library of Science via the DOI in this recordAmbient noise can affect the availability of acoustic information to animals, altering both foraging and vigilance behaviour. Using captive zebra finches Taeniopygia guttata, we examined the effect of ambient broadband noise on foraging decisions. Birds were given a choice between foraging in a quiet area where conspecific calls could be heard or a noisy area where these calls would be masked. Birds foraging in noisy areas spent a significantly more time vigilant than those in quiet areas, resulting in less efficient foraging. Despite this there was no significant difference in the amount of time spent in the two noise regimes. However there did appear a preference for initially choosing quiet patches during individuals’ second trial. These results emphasise how masking noise can influence the foraging and anti-predation behaviour of animals, which is particularly relevant as anthropogenic noise becomes increasingly prevalent in the natural worl
A case for environmental statistics of early life effects
This is the author accepted manuscript. The final version is available from The Royal Society via the DOI in this record.There is enduring debate over the question which early life effects are adaptive and which ones
are not. Mathematical modelling shows that early life effects can be adaptive in environments
that have particular statistical properties, such as reliable cues to current conditions and high
autocorrelation of environmental states. However, few empirical studies have measured these
properties, leading to an impasse. Progress, therefore, depends on research that quantifies cue
reliability and autocorrelation of environmental parameters in real environments. These
statistics may be different for social and non-social aspects of the environment. In this paper, we
summarise evolutionary models of early life effects. Then we discuss empirical data on
environmental statistics from a range of disciplines. We highlight cases where data on
environmental statistics have been used to test competing explanations of early-life effects. We
conclude by providing guidelines for new data collection and reflections on future directions.Leverhulme Trus
The evolution of individual and cultural variation in social learning
AcceptedReviewIt is often assumed in experiments and models that social learning abilities – how often individuals copy others, plus who and how they copy – are species-typical. Yet there is accruing evidence for systematic individual variation in social learning within species. Here we review evidence for this individual variation, placing it within a continuum of increasing phenotypic plasticity, from genetically polymorphic personality traits, to developmental plasticity via cues such as maternal stress, to the individual learning of social learning, and finally the social learning of social learning. The latter, possibly restricted to humans, can generate stable between-group cultural variation in social learning. More research is needed to understand the extent, causes, and consequences of this individual and cultural variation.Economic and Social Research Council (UK)Research Grants Council (Hong Kong)Leverhulme Trust International NetworkBBSRC David Phillips Fellowshi
An evolutionary ecology of individual differences
publication-status: Publishedtypes: ArticleIndividuals often differ in what they do. This has been recognised since antiquity. Nevertheless, the ecological and evolutionary significance of such variation is attracting widespread interest, which is burgeoning to an extent that is fragmenting the literature. As a first attempt at synthesis, we focus on individual differences in behaviour within populations that exceed the day-to-day variation in individual behaviour (i.e. behavioural specialisation). Indeed, the factors promoting ecologically relevant behavioural specialisation within natural populations are likely to have far reaching ecological and evolutionary consequences. We discuss such individual differences from three distinct perspectives: individual niche specialisations, the division of labour within insect societies and animal personality variation. In the process, while recognising that each area has its own unique motivations, we identify a number of opportunities for productive 'cross-fertilisation' among the (largely independent) bodies of work. We conclude that a complete understanding of evolutionary and ecologically relevant individual differences must specify how ecological interactions impact the basic biological process (e.g. Darwinian selection, development, information processing) that underpin the organismal features determining behavioural specialisations. Moreover, there is likely to be co-variation amongst behavioural specialisations. Thus, we sketch the key elements of a general framework for studying the evolutionary ecology of individual differences
Detection vs selection: integration of genetic, epigenetic and environmental cues in fluctuating environments
ArticleThere are many inputs during development that influence an organism's fit to current or upcoming environments. These include genetic effects, transgenerational epigenetic influences, environmental cues and developmental noise, which are rarely investigated in the same formal framework. We study an analytically tractable evolutionary model, in which cues are integrated to determine mature phenotypes in fluctuating environments. Environmental cues received during development and by the mother as an adult act as detection-based (individually observed) cues. The mother's phenotype and a quantitative genetic effect act as selection-based cues (they correlate with environmental states after selection). We specify when such cues are complementary and tend to be used together, and when using the most informative cue will predominate. Thus, we extend recent analyses of the evolutionary implications of subsets of these effects by providing a general diagnosis of the conditions under which detection and selection-based influences on development are likely to evolve and coexist.This work was supported by a Leverhulme Trust International Network Grant to the four authors and by a grant from the Swedish Research Council (621-2010-5437) to O.L
Loser-effect duration evolves independently of fighting ability
This is the author accepted manuscript. The final version is available from Royal Society via the DOI in this record.Data supporting this paper can be found in the Dryad Digital Repository: https://doi.org/10.5061/dryad.34b1466 [67].Winning or losing contests can impact subsequent competitive behaviour and the duration of these effects can be prolonged. While it is clear effects depend on social and developmental environments, the extent to which they are heritable, and hence evolvable, is less clear and remains untested. Furthermore, theory predicts that winner and loser effects should evolve independently of actual fighting ability, but again tests of this prediction are limited. Here we used artificial selection on replicated beetle populations to show that the duration of loser effects can evolve, with a realized heritability of about 17%. We also find that naive fighting ability does not co-evolve with reductions in the duration of the loser effect. We discuss the implications of these findings and how they corroborate theoretical predictions.Japan Society for the Promotion of Scienc
A framework for studying ecological energy in the contemporary marine environment
This is the final version. Available from Oxford University Press via the DOI in this record. Data availability statement:
No datasets were used in this reviewHistoric limitations have resulted in marine ecological studies usually overlooking some well-established concepts from behavioural ecology. This is likely because the methods available were easily overwhelmed by the scale of ecological processes and sampling resolution in the marine environment. Innovations in technology, data management, and statistical modelling now provide the capacity to fully embrace behavioural ecology concepts and study marine ecological interactions from a more holistic perspective. To facilitate this vision, we propose a novel perspective and workflow for marine ecology: the Seascape of Ecological Energy, or SEE-scapes. SEE-scapes contextualizes the accumulated knowledge from marine biology and behavioural ecology research and provides a guide for marine scientists interested in grounding their research in behavioural ecology's first principles. SEE-scapes specifies relevant considerations for contemporary seascapes, with special attention to relationships between individuals and their conspecifics, competitors, predators, and the abiotic environment. It is formulated to account for how the unique features of marine vertebrates require revisions to standard, terrestrially focused methodological approaches, and offers solutions for how to sample and model the eco-evolutionary drivers of behaviour across the dynamic and hierarchical seascape. Simply put, SEE-scapes provides the guidance to translate a dynamic system and reveal opportunities for collaborative and integrative research.Pew Charitable Trust
- …