Stochastic model of seed dispersal with homogeneous and non-homogeneous Poisson processes under habitat reduction conditions

IF 1.8 4区 生物学 Q3 BIOPHYSICS
Nevena Marić
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引用次数: 0

Abstract

This study presents a stochastic model of seed dispersal based on a branching random walk (BRW) framework, incorporating both homogeneous and non-homogeneous Poisson point processes (PPP). Building on the model introduced by Coletti et al. (2023), we examine the effects of habitat reduction on seed dispersal dynamics. We analyze the phase transition behavior of the BRW model under varying conditions of habitat fragmentation, focusing on how these conditions influence the critical dispersal rate. Specifically, we study a BRW on the real line with a non-homogeneous PPP driven by a log-normal density, constrained between spatial barriers. Our simulations localize the critical dispersal rate with respect to barrier positions and compare this dependence between homogeneous and non-homogeneous models.

Abstract Image

栖息地减少条件下种子扩散的同质和非同质泊松过程随机模型。
本研究基于分支随机游走(BRW)框架,结合同质和非同质泊松点过程(PPP),提出了种子扩散的随机模型。在 Coletti 等人(2023 年)提出的模型基础上,我们研究了栖息地减少对种子扩散动力学的影响。我们分析了不同生境破碎条件下 BRW 模型的相变行为,重点研究了这些条件如何影响临界扩散率。具体来说,我们研究了实线上的 BRW,该模型由对数正态密度驱动,具有非均质的 PPP,并受限于空间障碍。我们的模拟确定了临界扩散率与障碍物位置的关系,并比较了均质模型与非均质模型之间的这种依赖关系。
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来源期刊
Journal of Biological Physics
Journal of Biological Physics 生物-生物物理
CiteScore
3.00
自引率
5.60%
发文量
20
审稿时长
>12 weeks
期刊介绍: Many physicists are turning their attention to domains that were not traditionally part of physics and are applying the sophisticated tools of theoretical, computational and experimental physics to investigate biological processes, systems and materials. The Journal of Biological Physics provides a medium where this growing community of scientists can publish its results and discuss its aims and methods. It welcomes papers which use the tools of physics in an innovative way to study biological problems, as well as research aimed at providing a better understanding of the physical principles underlying biological processes.
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