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Autores principales: Cuesta, Fernando Alcalde, Guerberoff, Gustavo, Rojo, Álvaro Lozano
Formato: Preprint
Publicado: 2026
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Acceso en línea:https://arxiv.org/abs/2601.09737
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author Cuesta, Fernando Alcalde
Guerberoff, Gustavo
Rojo, Álvaro Lozano
author_facet Cuesta, Fernando Alcalde
Guerberoff, Gustavo
Rojo, Álvaro Lozano
contents In this paper, we study the absorption and fixation times for evolutionary processes on graphs, under different updating rules. While in Moran process a single neighbour is randomly chosen to be replaced, in proliferation processes other neighbours can be replaced using Bernoulli or binomial draws depending on $0 < p \leq 1$. There is a critical value $p_c$ such that the proliferation is advantageous or disadvantageous in terms of fixation probability depending on whether $p > p_c$ or $p < p_c$. We clarify the role of symmetries for computing the fixation time in Moran process. We show that the Maruyama-Kimura symmetry depend on the graph structure induced in each state, implying asymmetry for all graphs except cliques and cycles. There is a fitness value, not necessarily $1$, beyond which the fixation time decreases monotonically. We apply Harris' graphical method to prove that the fixation time decreases monotonically depending on $p$. Thus there exists another value $p_t$ for which the proliferation is advantageous or disadvantageous in terms of time. However, at the critical level $p=p_c$, the proliferation is highly advantageous when $r \to +\infty$.
format Preprint
id arxiv_https___arxiv_org_abs_2601_09737
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Absorption and fixation times for evolutionary processes on graphs
Cuesta, Fernando Alcalde
Guerberoff, Gustavo
Rojo, Álvaro Lozano
Populations and Evolution
Mathematical Physics
Probability
60J10
G.3
In this paper, we study the absorption and fixation times for evolutionary processes on graphs, under different updating rules. While in Moran process a single neighbour is randomly chosen to be replaced, in proliferation processes other neighbours can be replaced using Bernoulli or binomial draws depending on $0 < p \leq 1$. There is a critical value $p_c$ such that the proliferation is advantageous or disadvantageous in terms of fixation probability depending on whether $p > p_c$ or $p < p_c$. We clarify the role of symmetries for computing the fixation time in Moran process. We show that the Maruyama-Kimura symmetry depend on the graph structure induced in each state, implying asymmetry for all graphs except cliques and cycles. There is a fitness value, not necessarily $1$, beyond which the fixation time decreases monotonically. We apply Harris' graphical method to prove that the fixation time decreases monotonically depending on $p$. Thus there exists another value $p_t$ for which the proliferation is advantageous or disadvantageous in terms of time. However, at the critical level $p=p_c$, the proliferation is highly advantageous when $r \to +\infty$.
title Absorption and fixation times for evolutionary processes on graphs
topic Populations and Evolution
Mathematical Physics
Probability
60J10
G.3
url https://arxiv.org/abs/2601.09737