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J Math Biol


Title:Territorial pattern formation in the absence of an attractive potential
Author(s):Potts JR; Lewis MA;
Address:"School of Mathematics and Statistics, University of Sheffield, Sheffield, UK. j.potts@sheffield.ac.uk. Department of Mathematical and Statistical Sciences, Centre for Mathematical Biology, University of Alberta, Edmonton, Canada"
Journal Title:J Math Biol
Year:2016
Volume:20150331
Issue:1-Feb
Page Number:25 - 46
DOI: 10.1007/s00285-015-0881-4
ISSN/ISBN:1432-1416 (Electronic) 0303-6812 (Linking)
Abstract:"Territoriality is a phenomenon exhibited throughout nature. On the individual level, it is the processes by which organisms exclude others of the same species from certain parts of space. On the population level, it is the segregation of space into separate areas, each used by subsections of the population. Proving mathematically that such individual-level processes can cause observed population-level patterns to form is necessary for linking these two levels of description in a non-speculative way. Previous mathematical analysis has relied upon assuming animals are attracted to a central area. This can either be a fixed geographical point, such as a den- or nest-site, or a region where they have previously visited. However, recent simulation-based studies suggest that this attractive potential is not necessary for territorial pattern formation. Here, we construct a partial differential equation (PDE) model of territorial interactions based on the individual-based model (IBM) from those simulation studies. The resulting PDE does not rely on attraction to spatial locations, but purely on conspecific avoidance, mediated via scent-marking. We show analytically that steady-state patterns can form, as long as (i) the scent does not decay faster than it takes the animal to traverse the terrain, and (ii) the spatial scale over which animals detect scent is incorporated into the PDE. As part of the analysis, we develop a general method for taking the PDE limit of an IBM that avoids destroying any intrinsic spatial scale in the underlying behavioral decisions"
Keywords:"Algorithms Animals Behavior, Animal/physiology Computer Simulation Ecosystem Homing Behavior/physiology Linear Models Mathematical Concepts *Models, Biological Odorants Pattern Recognition, Automated Pheromones/physiology Probability Stochastic Processes;Animals;"
Notes:"MedlinePotts, Jonathan R Lewis, Mark A eng Research Support, Non-U.S. Gov't Germany 2015/03/31 J Math Biol. 2016 Jan; 72(1-2):25-46. doi: 10.1007/s00285-015-0881-4. Epub 2015 Mar 31"

 
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