2013/2014

Andrew Higginson , Ph.D.

Biology, Theoretical Ecology

Universität Bristol

Born in 1979 in Manchester, UK
Studied Behavioural Science and Behavioural Ecology at the University of Nottingham

Fellowship

College for Life Sciences


Arbeitsvorhaben

A Unified Theory of Individual Variation in Collective Behaviour

The natural world abounds with animals associating with others of their species in groups, which can be as transient as flocks of birds, as persistent as the perennial colonies of ants, or intermediate, such as people engaged in business enterprise. The behaviour of individuals cooperating in groups combines to form the collective behaviour of the group. Evidence is accumulating that, even when the group members appear similar, as with honeybees, individuals are highly variable. For example, honeybees vary in their readiness to perform different tasks. It is clear that such variation must be useful, otherwise natural selection should have eliminated it. Variation enables some individuals to be specialists at particular tasks, either because they develop the morphology (e.g. the jaws of soldier ants) or become highly skilled (e.g. the flower handling of foraging bees). However, too much specialisation would reduce group flexibility, so that if conditions change the group may perform certain tasks poorly. In this project, I will review the characteristics of animal groups to elucidate the ecological factors that influence the extent of specialisation. I will then construct mathematical models to make predictions about how individual variation will be affected by factors such as task number, environmental changeability, group size and relatedness amongst group members. These models will also predict how specialisation happens, such as in the morphology of bodies or in the development of behaviour. This body of theory will unite currently separate studies of persistent groups of related individuals (e.g. army ants), on the one hand, with transient groups of unrelated individuals (e.g. foraging fish), on the other. By synthesizing mechanistic and functional approaches to understanding individual variation in collective behaviour, this work will have implications for the design of artificial systems and for business enterprises.

Recommended Reading

Higginson, A. D., T. W. Fawcett, P. C. Trimmer, J. M. McNamara, and A. I. Houston (2012). "Generalized optimal risk allocation: foraging and anti-predator behavior in a fluctuating environment." Am Nat 180: 589-603.
Daly, D., A. D. Higginson, C. Dong, G. D. Ruxton, and M. P. Speed (2012). "Density-dependent investment in costly antipredator defences: an explanation for the weak survival benefit of group living." Ecol Lett 15: 576-583.
Higginson, A. D. and G. D. Ruxton (2010). "Adaptive changes in size and age at metamorphosis can qualitatively vary with predator type and available defensive responses." Ecology 91: 2756-2768.

Publikationen aus der Fellowbibliothek

Higginson, Andrew ( 2014)
The evolution of decision rules in complex environments

Higginson, Andrew ( 2012)
The starvation-predation trade-off predicts trends in body size, muscularity, and adiposity between and within taxa

Higginson, Andrew ( 2012)
Reply to Chitnis and Smith, Fernandes, Gibbons, and Kane: Communicating theory effectively requires more explanation, not fewer equations

Higginson, Andrew ( 2012)
Heavy use of equations impedes communication among biologists

Higginson, Andrew ( 2012)
Is optimism optimal? : functional causes of apparent behavioural biase

Higginson, Andrew ( 2012)
Generalized optimal risk allocation : foraging and anti-predator behavior in a fluctuating environment

Higginson, Andrew ( 2012)
Effects of anti-predator defence through toxin sequestration on use of alternative food microhabitats by small herbivores

Higginson, Andrew ( 2012)
Density-dependent investment in costly antipredator defences: an explanation for the weak survival benefit of group living

Higginson, Andrew ( 2012)
Masquerade is associated with polyphagy and larval overwintering in Lepidoptera

Higginson, Andrew ( 2011)
Experimental wing damage affects foraging effort and foraging distance in honeybees Apis mellifera