A Minimal Model of Pursuit-Evasionin a Predator-Prey System

Y. Tyutyunov; L. Titova; R. Arditi

doi:10.1051/mmnp:2008028

Abstract

A conceptual minimal model demonstrating spatially heterogeneous wave regimesinterpreted as pursuit-evasion in predator-prey system is constructed and investigated. Themodel is based on the earlier proposed hypothesis that taxis accelerations of prey and predators are proportional to the density gradient of another population playing a role of taxis stimulus. Considering acceleration rather than immediate velocity allows obtaining realistic solutions even while ignoring variations of total abundances of both modelled populations. Linear analysis of the model shows that stationary homogeneous regime becomes oscillatory unstable with respect to small heterogeneous perturbations if either taxis activities or total population abundances are high enough. The ability for active directed movement of both prey and predators is the necessary condition for spatial self-organization. Numerical simulations illustrate analytical results. The relation between the proposed model and conventional two-component systems with cross-diffusion is discussed.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Tsyganov, M. A. Biktashev, V. N. and Ivanitsky, G. R. 2009. Negative refractoriness in excitable systems with cross-diffusion. Biophysics, Vol. 54, Issue. 4, p. 513.

MÉDOC, V. SPATARO, T. and ARDITI, R. 2013. Prey: predator ratio dependence in the functional response of a freshwater amphipod. Freshwater Biology, Vol. 58, Issue. 5, p. 858.

Tyutyunov, Yu. V. Kovalev, O. V. Titova, L. I. Auger, P. Bravo de la Parra, R. Codling, E. Kooi, B. Morozov, A. Poggiale, J. C. Tyson, R. Tyutyunov, Yu.V. and Venturino, E. 2013. Spatial Demogenetic Model for Studying Phenomena Observed upon Introduction of the Ragweed Leaf Beetle in the South of Russia. Mathematical Modelling of Natural Phenomena, Vol. 8, Issue. 6, p. 80.

Ddumba, H. Mugisha, J.Y.T. Gonsalves, J.W. and Kerley, G.I.H. 2013. Periodicity and limit cycle perturbation analysis of a predator–prey model with interspecific species’ interference, predator additional food and dispersal. Applied Mathematics and Computation, Vol. 219, Issue. 15, p. 8338.

Goudon, Thierry Nkonga, Boniface Rascle, Michel and Ribot, Magali 2015. Self-organized populations interacting under pursuit-evasion dynamics. Physica D: Nonlinear Phenomena, Vol. 304-305, Issue. , p. 1.

Médoc, Vincent Albert, Hélène and Spataro, Thierry 2015. Functional response comparisons among freshwater amphipods: ratio-dependence and higher predation for Gammarus pulex compared to the non-natives Dikerogammarus villosus and Echinogammarus berilloni. Biological Invasions, Vol. 17, Issue. 12, p. 3625.

Tyutyunov, Yuri V. Titova, Lyudmila I. and Senina, Inna N. 2017. Prey-taxis destabilizes homogeneous stationary state in spatial Gause–Kolmogorov-type model for predator–prey system. Ecological Complexity, Vol. 31, Issue. , p. 170.

Thakur, Nilesh Kumar Gupta, Rashi and Upadhyay, Ranjit Kumar 2017. Complex dynamics of diffusive predator–prey system with Beddington–DeAngelis functional response: The role of prey-taxis. Asian-European Journal of Mathematics, Vol. 10, Issue. 03, p. 1750047.

Tyutyunov, Yuri V. and Titova, Lyudmila I. 2017. Simple models for studying complex spatiotemporal patterns of animal behavior. Deep Sea Research Part II: Topical Studies in Oceanography, Vol. 140, Issue. , p. 193.

Tyutyunov, Yuri V. Sen, Deeptajyoti Titova, Lyudmila I. and Banerjee, Malay 2019. Predator overcomes the Allee effect due to indirect prey–taxis. Ecological Complexity, Vol. 39, Issue. , p. 100772.

Tyutyunov, Yuri V. Zagrebneva, Anna D. Govorukhin, Vasiliy N. and Titova, Lyudmila I. 2019. Advanced Mathematical Methods in Biosciences and Applications. p. 221.

Lyapunova, I A and Fomenko, N A 2020. The use of mathematical modeling tools to predict the yield of genetically modified crops. IOP Conference Series: Earth and Environmental Science, Vol. 421, Issue. 4, p. 042012.

Fuest, Mario 2020. Global Solutions near Homogeneous Steady States in a Multidimensional Population Model with Both Predator- and Prey-Taxis. SIAM Journal on Mathematical Analysis, Vol. 52, Issue. 6, p. 5865.

Amorim, Paulo and Telch, Bruno 2021. A chemotaxis predator-prey model with indirect pursuit-evasion dynamics and parabolic signal. Journal of Mathematical Analysis and Applications, Vol. 500, Issue. 1, p. 125128.

Tao, Youshan and Winkler, Michael 2021. A fully cross-diffusive two-component evolution system: Existence and qualitative analysis via entropy-consistent thin-film-type approximation. Journal of Functional Analysis, Vol. 281, Issue. 4, p. 109069.

Cao, Qian and Wu, Jianhua 2021. Pattern formation of reaction–diffusion system with chemotaxis terms. Chaos: An Interdisciplinary Journal of Nonlinear Science, Vol. 31, Issue. 11,

Zuo, Wenjie and Song, Yongli 2021. Stability and Double-Hopf Bifurcations of a Gause–Kolmogorov-Type Predator–Prey System with Indirect Prey-Taxis. Journal of Dynamics and Differential Equations, Vol. 33, Issue. 4, p. 1917.

Telch, Bruno 2021. Global boundedness in a chemotaxis quasilinear parabolic predator–prey system with pursuit-evasion. Nonlinear Analysis: Real World Applications, Vol. 59, Issue. , p. 103269.

Pagès, Jordi F. Bartumeus, Frederic Romero, Javier and Alcoverro, Teresa 2021. The scent of fear makes sea urchins go ballistic. Movement Ecology, Vol. 9, Issue. 1,

Bellomo, N. Outada, N. Soler, J. Tao, Y. and Winkler, M. 2022. Chemotaxis and cross-diffusion models in complex environments: Models and analytic problems toward a multiscale vision. Mathematical Models and Methods in Applied Sciences, Vol. 32, Issue. 04, p. 713.

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A Minimal Model of Pursuit-Evasionin a Predator-Prey System

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