Simulations of the social organization of large schools of fish whose perception is obstructed
Authored by Charlotte Hemelrijk, Hanspeter Kunz
Date Published: 2012
DOI: 10.1016/j.applanim.2012.02.002
Sponsors:
Rosalind Franklin Fellowship
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Mathematical description
Model Code URLs:
Model code not found
Abstract
Individual-based models have shown that simple interactions among moving
individuals (repulsion, attraction and alignment) result in travelling
schools that resemble those of real fish. In most models individuals
interact with all neighbours within sensory range which usually includes
almost all the individuals of the school. Thus, it implies (almost)
global perception. However, in reality in large groups, individuals will
only interact with their neighbours close by, because they cannot
perceive those farther away, since they are masked by closer ones. Here, we have developed a new model to investigate how such obstruction of
perception influences aspects of social organization in schools of up to
10,000 individuals. We will show that in small schools of up to
approximately 30 individuals group shape and density resembles that
obtained with global perception, because in small schools hardly anyone
is masked by others: school shape is oblong and the density is highest
in the frontal half of the school. With increasing group size, from
approximately 200 individuals onwards, internal density becomes variable
over time, regions of high and low density develop at any location
within a school, and group shape becomes more complex, in the sense that
inward bounds and appendages occur more frequently. The complexity of
shape and internal structure arises because, due to their limited
perception, individuals interact relatively more locally in larger
schools. In case of global perception, however, shape remains elliptical
for all group sizes and in groups above 1000 individuals, the schools
become unrealistically dense. In sum, our results show that obstructed
perception in itself suffices to generate a realistic organization of
large schools and that no extra rules for `coping' with many individuals
are needed. (C) 2012 Elsevier B.V. All rights reserved.
Tags
behavior
Dynamics
movement
patterns
Model
Animal groups
Density
Size
Shape
Multibeam sonar