Evaluating Dispersion Strategies in Growth Models Subject to Geometric Catastrophes
We consider stochastic growth models to represent population dynamics subject to geometric catastrophes. We analyze different dispersion schemes after catastrophes, to study how these schemes impact the population viability and comparing them with the scheme where there is no dispersion. In the sche...
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| Published in | Journal of statistical physics Vol. 183; no. 2 |
|---|---|
| Main Authors | , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
Springer US
01.05.2021
Springer Springer Nature B.V |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0022-4715 1572-9613 |
| DOI | 10.1007/s10955-021-02759-5 |
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| Abstract | We consider stochastic growth models to represent population dynamics subject to geometric catastrophes. We analyze different dispersion schemes after catastrophes, to study how these schemes impact the population viability and comparing them with the scheme where there is no dispersion. In the schemes with dispersion, we consider that each colony, after the catastrophe event, has
d
new positions to place its survivors. We find out that when
d
=
2
no type of dispersion considered improves the chance of survival, at best it matches the scheme where there is no dispersion. When
d
=
3
, based on the survival probability, we conclude that dispersion may be an advantage or not, depending on its type, the rate of colony growth and the probability that an individual will survive when exposed to a catastrophe. |
|---|---|
| AbstractList | We consider stochastic growth models to represent population dynamics subject to geometric catastrophes. We analyze different dispersion schemes after catastrophes, to study how these schemes impact the population viability and comparing them with the scheme where there is no dispersion. In the schemes with dispersion, we consider that each colony, after the catastrophe event, has d new positions to place its survivors. We find out that when d=2 no type of dispersion considered improves the chance of survival, at best it matches the scheme where there is no dispersion. When d=3, based on the survival probability, we conclude that dispersion may be an advantage or not, depending on its type, the rate of colony growth and the probability that an individual will survive when exposed to a catastrophe. We consider stochastic growth models to represent population dynamics subject to geometric catastrophes. We analyze different dispersion schemes after catastrophes, to study how these schemes impact the population viability and comparing them with the scheme where there is no dispersion. In the schemes with dispersion, we consider that each colony, after the catastrophe event, has d new positions to place its survivors. We find out that when d = 2 no type of dispersion considered improves the chance of survival, at best it matches the scheme where there is no dispersion. When d = 3 , based on the survival probability, we conclude that dispersion may be an advantage or not, depending on its type, the rate of colony growth and the probability that an individual will survive when exposed to a catastrophe. We consider stochastic growth models to represent population dynamics subject to geometric catastrophes. We analyze different dispersion schemes after catastrophes, to study how these schemes impact the population viability and comparing them with the scheme where there is no dispersion. In the schemes with dispersion, we consider that each colony, after the catastrophe event, has d new positions to place its survivors. We find out that when [Formula omitted] no type of dispersion considered improves the chance of survival, at best it matches the scheme where there is no dispersion. When [Formula omitted], based on the survival probability, we conclude that dispersion may be an advantage or not, depending on its type, the rate of colony growth and the probability that an individual will survive when exposed to a catastrophe. |
| ArticleNumber | 30 |
| Audience | Academic |
| Author | Roldán-Correa, Alejandro Junior, Valdivino Vargas Machado, Fábio Prates |
| Author_xml | – sequence: 1 givenname: Valdivino Vargas surname: Junior fullname: Junior, Valdivino Vargas organization: Institute of Mathematics and Statistics, Federal University of Goias – sequence: 2 givenname: Fábio Prates orcidid: 0000-0003-3053-4372 surname: Machado fullname: Machado, Fábio Prates email: fmachado@ime.usp.br organization: Statistics Department, Institute of Mathematics and Statistics, University of São Paulo – sequence: 3 givenname: Alejandro surname: Roldán-Correa fullname: Roldán-Correa, Alejandro organization: Instituto de Matemáticas, Universidad de Antioquia |
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| References | Huillet (CR5) 2020; 1 Brockwell, Gani, Resnick (CR2) 1982; 14 CR3 Schinazi (CR13) 2015; 159 Machado, Roldan-Correa, Junior (CR11) 2018; 173 Economou, Gomez-Corral (CR4) 2007; 23 Kumar, Gupta (CR10) 2020; 22 Kumar, Barbhuiya, Gupta (CR8) 2020; 54 Junior, Machado, Roldan-Correa (CR6) 2016; 164 Kapodistria, Phung-Duc, Resing (CR7) 2016; 30 Artalejo, Economou, Lopez-Herrero (CR1) 2007; 4 Machado, Roldan-Correa, Schinazi (CR12) 2017; 14 Kumar, Gupta (CR9) 2019 VV Junior (2759_CR6) 2016; 164 S Kapodistria (2759_CR7) 2016; 30 N Kumar (2759_CR8) 2020; 54 N Kumar (2759_CR9) 2019 T Huillet (2759_CR5) 2020; 1 R Schinazi (2759_CR13) 2015; 159 FP Machado (2759_CR11) 2018; 173 N Kumar (2759_CR10) 2020; 22 PJ Brockwell (2759_CR2) 1982; 14 FP Machado (2759_CR12) 2017; 14 JR Artalejo (2759_CR1) 2007; 4 A Economou (2759_CR4) 2007; 23 2759_CR3 |
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| SubjectTerms | Analysis Catastrophes Catastrophic events Dispersion Growth Growth models Mathematical and Computational Physics Physical Chemistry Physics Physics and Astronomy Population biology Quantum Physics Statistical Physics and Dynamical Systems Survival Theoretical |
| Title | Evaluating Dispersion Strategies in Growth Models Subject to Geometric Catastrophes |
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