Narcisa Apreutesei scite author profile

Narcisa Apreutesei

5Publications

209Citation Statements Received

42Citation Statements Given

How they've been cited

202

206

How they cite others

Affiliations

Gheorghe Asachi Technical University of Iași

Publications

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Spatial structures and generalized travelling waves for an integro-differential equation

Apreutesei¹,

Bessonov²,

Volpert³

et al. 2010

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International audienceSome models in population dynamics with intra-specific competition lead to integro-differential equations where the integral term corresponds to nonlocal consumption of resources [8][9]. The principal difference of such equations in comparison with traditional reaction-diffusion equation is that homogeneous in space solutions can lose their stability resulting in emergence of spatial or spatio-temporal structures [4]. We study the existence and global bifurcations of such structures. In the case of unbounded domains, transition between stationary solutions can be observed resulting in propagation of generalized travelling waves (GTW). GTWs are introduced in [18] for reaction-diffusion systems as global in time propagating solutions. In this work their existence and properties are studied for the integro-differential equation. Similar to the reaction-diffusion equation in the monostable case, we prove the existence of generalized travelling waves for all values of the speed greater or equal to the minimal one. We illustrate these results by numerical simulations in one and two space dimensions and observe a variety of structures of GTWs

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Travelling waves for integro-differential equations in population dynamics

Apreutesei¹,

Ducrot²,

Volpert³

2009

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Competition of Species with Intra-Specific Competition

Apreutesei

Ducrot

Volpert

2008

Math. Model. Nat. Phenom.

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Abstract. Intra-specific competition in population dynamics can be described by integro-differential equations where the integral term corresponds to nonlocal consumption of resources by individuals of the same population. Already the single integro-differential equation can show the emergence of nonhomogeneous in space stationary structures and can be used to model the process of speciation, in particular, the emergence of biological species during evolution [6], [7]. On the other hand, competition of two different species represents a well known and well studied model in population dynamics. In this work we study how the intra-specific competition can influence the competition between species. We will prove the existence of travelling waves for the case where the support of the kernel of the integral is sufficiently narrow. Numerical simulations will be carried out in the case of large supports.

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On a prey–predator reaction–diffusion system with Holling type III functional response

Apreutesei

Dimitriu

2010

Journal of Computational and Applied Mathematics

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MSC: t r a c tIn this paper we study a prey-predator model defined by an initial-boundary value problem whose dynamics is described by a Holling type III functional response. We establish global existence and uniqueness of the strong solution. We prove that if the initial data are positive and satisfy a certain regularity condition, the solution of the problem is positive and bounded on the domain Q = (0, T ) × and then we deduce the continuous dependence on the initial data. A numerical approximation of the system is carried out with a spectral method coupled with the fourth-order Runge-Kutta time solver. The biological relevance of the comparative numerical results is also presented.

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An optimal control problem for a two-prey and one-predator model with diffusion

Apreutesei

Dimitriu

Strugariu

2014

Computers & Mathematics with Applications

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