2023
DOI: 10.1002/ecy.4071
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Movement drives population dynamics of one of the most mobile ungulates on Earth: Insights from a mechanistic model

Abstract: Long‐distance movements are hypothesized to positively influence population size and stability of mobile species. We tested this hypothesis with a novel modeling approach in which moving herbivores interact with the environment created by a dynamic global vegetation model using highly mobile Mongolian gazelles in the eastern Mongolian grasslands as a case study. Gazelle population dynamics were modeled from 1901 to 2018 under two scenarios, one allowing free movement and one restricting movement. Gazelles were… Show more

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Cited by 2 publications
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“…isolate saiga population, leading to reduced genetic diversity, increased vulnerability to environmental stochasticity, and limited access to crucial resources (Keyghobadi 2007; Holdo et al 2011; Ito et al 2013; Rey-Iglesia et al 2022). Moreover, fragmented habitats hinder the saiga's ability to respond and adapt to climate change via recolonization of their historical ranges, making them more susceptible to extinction risks(Stratmann et al 2023). Maintaining functional connectivity between the saiga core habitats is therefore essential to ensure their survival.…”
mentioning
confidence: 99%
“…isolate saiga population, leading to reduced genetic diversity, increased vulnerability to environmental stochasticity, and limited access to crucial resources (Keyghobadi 2007; Holdo et al 2011; Ito et al 2013; Rey-Iglesia et al 2022). Moreover, fragmented habitats hinder the saiga's ability to respond and adapt to climate change via recolonization of their historical ranges, making them more susceptible to extinction risks(Stratmann et al 2023). Maintaining functional connectivity between the saiga core habitats is therefore essential to ensure their survival.…”
mentioning
confidence: 99%