Abstract
The interest and the relevance of the study of the population dynamics and the extinction phenomenon are our main motivation to investigate the induction of Allee Effect in von Bertalanffy’s population size functions. The adjustment or correction factor of rational type introduced allows us to analyze simultaneously strong and weak Allee’s functions and functions with no Allee effect, whose classification is dependent on the stability of the fixed point x = 0. This classification is founded on the concepts of strong and weak Allee’s effects to the population growth rates associated. The transition from strong Allee effect to no Allee effect, passing through the weak Allee effect, is verified with the evolution of the rarefaction critical density or Allee’s limit. The existence of cusp points on a fold bifurcation curve is related to this phenomenon of transition on Allee’s dynamics. Moreover, the “foliated” structure of the parameter plane considered is also explained, with respect to the evolution of the Allee limit. The bifurcation analysis is based on the configurations of fold and flip bifurcation curves. The chaotic semistability and the nonadmissibility bifurcation curves are proposed to this family of 1D maps, which allow us to define and characterize the corresponding Allee effect region.
Highlights
Introduction and motivationOne of the most familiar growth equation used to describe the growth of marine populations, namely fishes, seabirds, marine mammals, invertebrates, reptiles and sea turtles is von Bertalanffy’s equation, see for example [5], [8] and references therein
The adjustment or correction factor of rational type introduced allows us to analyze simultaneously strong and weak Allee’s functions and functions with no Allee effect, whose classification is dependent on the stability of the fixed point x = 0
The existence of cusp points on a fold bifurcation curve is related to this phenomenon of transition on Allee’s dynamics
Summary
- Von Bertalanffy's dynamics under a polynomial correction: Allee effect and big bang bifurcation J. - On the numerical simulation of population dynamics with density-dependent migrations and the Allee effects H N Sweilam, M M Khader and F R Al-Bar. - Numerical solution of a logistic growth model for a population with Allee effect considering fuzzy initial values and fuzzy parameters Z Amarti, N S Nurkholipah, N Anggriani et al. This content was downloaded from IP address 193.236.175.225 on 30/04/2020 at 20:53. Allee’s dynamics and bifurcation structures in von Bertalanffy’s population size functions
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