Stability of Ecosystem Induced by Mutual Interference between Predators
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1 Available online at Procedia Environmental Sciences (00) 4 48 International Society for Environmental Information Sciences 00 Annual Conference (ISEIS) Stability of Ecosystem Induced by Mutual Interference between Predators Jianfeng Feng a *, Lin Zhu a, Hongli Wang b a Key Laboratory of Pollution Processes and Environmental Criteria at Ministry of Education, College of Environmental Science and Engineering, Nankai University, Tianjin 30007, China b Department of Mechanics, School of Mechanical Engineering, Tianjin University, Tianjin 30007, China Abstract A three-species predator-prey model with Beddington-DeAngelis functional response was established with a food chain including two species of zooplanktons and one of phytoplankton. With nonlinear dynamical theory, the influences of competitions between two zooplanktons and semi-saturation constant on the stability of the system were investigated. Results showed that, in a certain range, increasing competition and saturation constant factor ccould stabilize the ecosystem. We also found that the system only appears Hopf and transcritical bifurcation in a certain range of parameters. Furthermore, the ecological significance of the two bifurcations was presented. 00 Published by Elsevier Ltd. Open access under CC BY-NC-ND license. Keywords: Beddington-DeAngelis; Functional response; Mutual interference; Stabilizing influence; Population dynamics. Introduction Early studies of the ecological model have focused on the predation role, but neglected the role of mutual interference among predators. In 975, the Beddington-DeAngelis functional response for the predator-prey model was proposed[-]. This function was more fit with the actual natural ecosystems due to the added competition among predators[3-4]. A number of studies have investigated the effect of mutual interference on population dynamics and population stability[6-8]. This model has been used to study the persistence or extinction of species in spatially explicit reaction diffusion models[9]. From theoretical and empirical studies, a consensus has emerged that interference has a stabilizing influence on population dynamics[0-5], although there is an upper limit on the interference constant beyond which the dynamics becomes unstable[6]. Furthermore, the predator prey model predicts that increasing * Corresponding author. Tel.: address: fengjf@nankai.edul.cn Published by Elsevier doi:0.06/j.proenv Open access under CC BY-NC-ND license.
2 Jianfeng Feng et al. / Procedia Environmental Sciences (00) interference has a positive effect on asymptotic stability and resilience of the biological system when the interference is low, and that the opposite is true when the interference is high[6]. In this paper, we established a predator-prey model involving three species with Beddington-DeAngelis functional response according to a food chain including two species of zooplanktons and one of phytoplankton. We investigated the influence of mutual interference of predators at different trophic levels on the stability of the food prey predator chain system. To our knowledge, there have been few studies paying attention to the effect of mutual interference among two predators. Here, we shall demonstrate that in a certain range, the additional mutual interference and saturation constant clearly exerts a stabilizing influence.. Model To investigate the effect of mutual interference of predators, according to a food chain including two species of zooplanktons and one of phytoplankton[7], we consider the following model: dx X RX( ) F( X, Y) Y F( X, Z) Z dt K dy CF( X, Y) Y DY dt dz CF( X, Z) Z DZ dt where AU i FUV i (, ) for i, Bi U MV i In model (), X denotes the population density of prey, and Y, Z are the population density of two predators. The prey species grow logistically with a maximum growth rate R and carrying capacities K. The trophic function between prey species and predator species was described by a Beddington DeAngelis functional response with a maximum grazing rate A i and fixed half saturation value A i. The factor M i denotes mutual interference of predators. The parameter C i is the conversion ratios of prey to predator. The factor D i is the death ratios of species Y and Z respectively. All parameters are positive constants. The model () has parameters in all, which make mathematical analysis complex. In order to avoid such difficulties, we reduce the number of parameters by using the following transformations: X AY,,, z= A i Z t RT x y K RK RK These substitutions and simplifying yield the following system of equations, where the variables x, y, z are new scaled (nondimensional) measures of population size, and t is a new variable of time: dx xy xz x( x) g( x, y, z) x dt bx my bx mz dy xy () a dyg( x, y, z) y dt bx my dz xz a dzg3(, x y,) z z dt bx mz 3. Stability Analysis In this section, the existence and local stability of non-negative equilibrium points in model () are investigated. Five non-negative equilibrium points are found in all(a, A, A 3, A 4, A 5 ), we can analyze the local stability of model () using its Jacobin matrix at (x, y, z):
3 44 Jianfeng Feng et al. / Procedia Environmental Sciences (00) A (0,0,0) The Jacobin matrix of A (0,0,0) is : J 3.. A (,0,0) g g g x g x x x y z g g g J y y g y x y z g g g x y z z z z g d d where 0, so A (0,0,0) is saddle point. b b The Jacobin matrix of A (,0,0) is a d( b ),The roots of the characteristic J 0 0 b a d( b ) 0 0 b equation of J are: ad( b) a d( b ),, 3. According to the Routh-Hurwitz criterion, b b ad( b) 0 A (,0,0) is locally and asymptotically stable if : b. a d( b ) 3 0 b 3.3. A3 ( x, y,0) satisfy: The roots of the characteristic equation of the Jacobin matrix of model () at A3 ( x, y,0) equilibrium point xy( a m ) x x 3 d b x ( x b ym) x yam xyab x b 4 ym ( x b ym) ( x b ym) ( ) The stability of A3 ( x, y,0) in the positive z direction depends on 3. A3 ( x, y,0) is stable in the positive z direction if 3 0. So the condition of stability xa ( d) bd, ( G G ) 0, GG GG 0, x/( bx) d 0. is: 3
4 Jianfeng Feng et al. / Procedia Environmental Sciences (00) A4 ( x,0, z ) The method of mathematical analysis of A 4 ( x,0, z ) is the same as A 3 ( x, y,0), and the conditions of stability is: x xa ( d) bd, ( G G ) 0, GG GG 0, 3 d 0 b x w w 4abdm x The equilibrium point am Section headings should be left justified, with A 4 ( x,0, z ) xa ( d) bd z dm the first letter capitalized and numbered consecutively, starting with the Introduction. Sub-section headings should be in capital and lower-case italic letters, numbered.,., etc, and left justified, with second and subsequent lines indented. You may need to insert a page break to keep a heading with its text. * * * 3.5. A5 ( x, y, z ) V V V3 * * * The Jacobin matrix of A5 ( x, y, z ) is: J5 V V V, The characteristic equation of J 5 is 3 V3 V3 V where ( V V V 33 ), ( VV 33 VV 33 VV VV VV 3 3), * * * ( VVV VVV VVV ). According to the Routh-Hurwitz criterion, A5 ( x, y, z ) is locally and asymptotically stable if 4. Bifuracation Analysis y x ( a d ) bd ( ) 0, x a d z b d 0, 0, 3 0,. 3 dm dm * * * * In order to obtain a more systematic investigation of the effect of mutual interference of predators and half saturation constants, we constructed bifurcation diagrams by numerical simulation. The correspondence between the eight nondimensional parameters and the original parameters was shown in Table. Table Values of the nondimensional parameters used in this study Nondimensional Dimensional Parameters Value used Parameters a CA / R 0.3 a CA/ R 0. d D / 0.03 d D / 0.0 b b m / m B / 0~ B / 0~ M R A 0~.4 M R/ A 0~.4
5 46 Jianfeng Feng et al. / Procedia Environmental Sciences (00) 4 48 To accurately calculate value of bifurcation parameters, we used software MatCont in this study. MatCont is a graphical Matlab package for the interactive numerical study of dynamical systems. The package MatCont is freely available for non-commercial use and can be downloaded from Effect of b and m on the stability First, we studied the effect of b and m on the system stability. We set b =0., m =, and b =0.5. We obtained bifurcation diagram of x, y variables with bifurcation parameters by using numerical simulation. Obviously, there was a Hopf bifurcation and a transcritical bifurcation in the system when m =.05 and 0.58, respectively (Fig. a, b). As b increased from 0. to 0.6, the Hopf bifurcation occurred at m =0.35. For m >0, system didn t occur trans-critical bifurcation (Fig. c, d). However, if we increased b (b =0.8) further (Fig. e, f), for m >0, system was always in a steady state. This indicates that increasing the value of b and m can enhance the system stability. Fig. Bifurcation diagrams for the model. Plots of the value of x and the value of y versus m for (a) the setting of b =0., m =b =0.5, (b) the setting of b =0.6, m =b =0.5, (c)the setting of b =0.8, m =b =0.5. Other parameter values are as listed in Tab Effect of b and m on the stability Then, we studied the impact of b and m on the system stability. First, we set m =0, b =, m =0 (Fig. a). We obtained bifurcation diagram of x, y variables and bifurcation parameters b by using numerical simulation. System occurred Hopf bifurcation when b =0.83 (Fig. b). This means when 0< b <0.83, point attractor in the model became a limit cycle. As m increased from 0 to 0.5, the Hopf bifurcation occurred at b =0.35 and trans-critical bifurcation occurred at b =0.5(Fig c, d). However, if we increased m (m =) further (Fig. e, f), for b >0.0, system was always in a steady state. Fig. Bifurcation diagrams for the model. Plots of the value of x and the value of y versus b for (a) the setting of m =0b =, m =0, (b) the setting of m =0.5b =, m =0, (c)the setting of m =b =, m =0. Other parameter values are listed in Tab..
6 Jianfeng Feng et al. / Procedia Environmental Sciences (00) From Fig., with the increase of m, the occurrence of the bifurcation point of bifurcation values became smaller, which means in a certain range of system, stability region is expanded. Thus, increasing the value of b and m can enhance the system stability. 5. Conclusions In this paper, we established a three-species predator-prey model with Beddington-DeAngelis functional response according to a food chain including two species of zooplanktons and one of phytoplankton, and analyzed the stability and bifurcation of this model. The influences of competitions between two zooplanktons and semisaturation constant on the stability of the system were investigated. The conclusion is that, in a certain range, increasing competition and saturation constant factor can increase the stability of the system. However, due to the complexity of the system equation, we don t get specific bifurcation parameter value at the time of occurrence of bifurcation through mathematical analysis. So we used numerical simulation methods to investigate the specific bifurcation parameter value. On one hand, through the numerical simulation results, we could verify whether the results of using analytical method are correct. On the other hand, through numerical simulation, we find out when bifurcation happens and what type of bifurcation is. We find that the system only appears Hopf and transcritical bifurcation in a certain range. The first type of bifurcation is the Hopf bifurcation denoted H. Hopf bifurcation occurs as a pair of complex conjugate eigenvalues of the linearization around the fixed point cross the imaginary axis of the complex plane. At the Hopf bifurcation, the involved equilibrium switches from stable point to limit cycle. Although the limit cycle is also stable in the significance of ecology, Hopf bifurcations is generally interpreted as a point of destabilization [8]. The system will present periodic behavior when a stable limit cycle attractor is born. The transition from a stable equilibrium to stable periodic behavior is often connected to destabilization [8,9]. Acknowledgements Financial supports from National Natural Science Foundation of China (No.0773), Youth Foundation of Nankai University (650039) and National Water Project of China (008ZX ). References [] Beddington J R(975). Mutual interference between parasites or predators and its effect on searching efficiency. Journal Animal Ecology, 44(): [] DeAngelis D L, Goldstein R A. O Neill R V(975). A. Model for trophic interaction. Ecology, 56(4): [3] E H Van Nes, M Scheffer(005). A strategy to improve the contribution of complex simulation models to ecological theory. Ecological Modelling,85 (-4): [4] B Boldin(006), Introducing a population into a steady community: The critical case, the center manifold and the direction of the bifurcation. SIAM Journal on Applied Mathematics, 66 (4): [5] M P Hassell, D J Rogers(97). Insect parasite responses in the development of population models. Journal Animal Ecology, 4(3): [6] Hassell M P, May R M(973). Stability in insect host parasite models. Journal Animal Ecology,4(3): [7] C A Free, J R Beddington, J H. Lawton(977). On the inadequacy of simple models of mutual interference for parasitism and predation. Journal Animal Ecology, 46(): [8] D Rogers, M P Hassell(974). General models for insect parasite and predator searching behaviour: interference. Journal Animal Ecology, 43(): [9] Cantrell RS, Cosner C(00). On the dynamics of predator prey models with the Beddington DeAngelis functional response. Journal of Mathematical Analysis and Applications, 57():06. [0] Begon M, Mortimer M, Thompson DJ(996). Population ecology: a unified study of animals and plants [M]. Blackwell Science, Oxford.
7 48 Jianfeng Feng et al. / Procedia Environmental Sciences (00) 4 48 [] B C Rall, C Guill, U Brose(008), Food-web connectance and predator interference dampen the paradox of enrichment, Oikos, 7 ():0 3. [] S Rinaldi, A Gragnani(004), Destabilizing factors in slow-fast systems. Ecological Modelling, 80 (4): [3] GAK van Voorn, D Stiefs, T Gross,et al(008). Stabilization due to predator interference: comparison of different analysis approaches. Mathathematical BioSciences and Engineering, 5(3): [4] Williams R J, Martinez N D(004b). Stabilization of chaotic and non-permanent food web dynamics. European Physical Journal B, 38(): [5] Trzcinski M K, Walde S J, Taylor P D et al(005). Stability of pitcher-plant microfaunal populations depends on food web structure. Oikos, 0(): [6] R Arditi, Jean-Marc Callois, Yuri Tyutyunov, et al(004). Does mutual interference always stabilizes predator prey dynamics? A comparison of models, Comptes Rendus Biologies, 37(): [7] Raid K Naji, Alla T B(007). Dynamical Behavior of a three species food chain model with Beddington-DeAngelis functional response, Chaos, Solitons and Fractals, 3(5): [8] Rosenzweig M L(97). Paradox of enrichment: Destabilization of exploitation ecosystems in ecological time, Science, 7(3969): [9] S Roy, J Chattopadhyay(007). The stability of ecosystems: A brief overview of the paradox of enrichment. Journal of Biosciences,3 ():4 48.
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