Abstract
The results of intra-explicit contention including predators in the predator–prey condition are what this present examination centers around. To offer bits of knowledge into the significant results, that are a consequence of the exchange of deterministic, deferred, and dispersion process, a careful outline of the examination is offered scientifically. In particular, the dauntlessness and bifurcation examination of this model is remarkable in its own specific manner. Rivalry among the predator populace, without a sad remnant of uncertainty, obliges for different predator–prey models by keeping the populace stable at a positive inside balance. The suppositions that oversee the examination are upheld by the numerical arrangements acquired for the model’s help.
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References
Jana D, Ray S (2016) Impact of physical and behavioral prey refuge on the stability and bifurcation of Gause type Filippov prey-predator system. Model Earth Syst Environ 2:24
Kar TK (2005) Stability analysis of a prey-predator model incorporating a prey refuge. Commun Nonlinear Sci Numer Simul 10:681–691
Jana D, Agrawal R, Upadhyay RK (2015) Dynamics of generalist predator in a stochastic environment effect of delayed growth and prey refuge. Appl Math Comput 268:1072–1094
Ruxton GD (1995) Short term refuge use and stability of predator-prey models. Theor Popul Biol 47:1–17
González-Olivares E, Ramos-Jiliberto R (2003) Dynamic consequences of prey refuges in a simple model system: more prey, fewer predators and enhanced stability. Ecol Model 166:135–146
Huang Y, Chen F, Li Z (2006) Stability analysis of prey-predator model with Holling type response function incorporating a prey refuge. Appl Math Comput 182:672–683
Taylor RJ (1984) Predation. Chapman & Hall, New York
Real LA (1977) The kinetics of functional response. Am Nat 111:289–300
McNair JM (1986) The effects of refuges on predator-prey interactions: a reconsideration. Theor Popul Biol 29:38–63
Murdoch WW, Oaten A (1975) Predation and population stability. Adv Ecol Res 9:2–132
Ma Z, Li W, Zhao Y, Wang W, Zhang H, Li Z (2009) Effects of prey refuges on a predator-prey model with a class of functional responses: the role of refuges. Math Biosci 218:73–79
Wang J, Pan L (2012) Qualitative analysis of a harvested predator-prey system with Holling-type III functional response incorporating a prey refuge. Adv Differ Equ 96
Hassell MP (1978) The dynamics of arthropod predator-prey systems. Princeton University Press, Princeton
McNair JN (1987) Stability effects of prey refuges with entry-exit dynamics. J Theor Biol 125:449–464
Kuang Y (1993) Delay differential equations with applications in population dynamics. Academic Press, Boston
Saha T, Bandyopadhyay M (1986) Dynamical analysis of a delayed ratio-dependent prey-predator model within fluctuating environment. Appl Math Comput 196(1):458–478
Samanta GP (1986) The effects of random fluctuating environment on interacting species with time delay. Int J Math Ed Sci Tech 27(1):13–21
Chen SS, Shi JP (2012) Stability and Hopf bifurcation in a diffusive logistic population model with nonlocal delay effect. J Differ Equ 253(12):3440–3470
Arino J, Wang L, Wolkowicz GSK (2006) An alternative formulation for a delayed logistic equation. J Theor Biol 241(1):109–119
Cantrell RS, Cosner C (2003) Spatial ecology via reaction-diffusion equations. Wiley, Chichester, Hoboken
Choudhury SR (1994) Turing instability in competition models with delay I: linear theory. SIAM J Appl Math 54(5):1425–1450
Yan XP (2007) Stability and Hopf bifurcation for a delayed prey-predator system with diffusion effects. Appl Math Comput 192(2):552–566
Sen S, Ghosh P, Riaz SS, Ray DS (2009) Time delay induced instabilities in reaction-diffusion systems. Phys Rev E 80(4):046212
Hadeler KP, Ruan SG (2007) Interaction of diffusion and delay. Discrete Contin Dyn Syst Ser B 8(1):95–105
Su Y, Wei JJ, Shi JP (2009) Hopf bifurcations in a reaction-diffusion population model with delay effect. J Differ Equ 247(4):1156–1184
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We express our heartfelt gratitude to anonymous reviewers for their valuable suggestions and questions.
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Shiva Reddy, K., Ranjith Kumar, G., Srinivas, M.N., Pavan Kumar, C.V., Ramesh, K. (2020). Spatiotemporal and Delay Dynamics on a Prey–Predator Fishery Model. In: Chillarige, R., Distefano, S., Rawat, S. (eds) Advances in Computational Intelligence and Informatics. ICACII 2019. Lecture Notes in Networks and Systems, vol 119. Springer, Singapore. https://doi.org/10.1007/978-981-15-3338-9_21
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