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Demographic effects of seedling reintroduction on the viability of a vulnerable columnar cactus of the Chihuahuan Desert
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  • Gabriel Arroyo-Cosultchi,
  • Yesenia Ramírez,
  • Jordan Golubov,
  • Edgar Javier González
Gabriel Arroyo-Cosultchi
Universidad Nacional Autonoma de Mexico
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Yesenia Ramírez
Universidad Nacional Autonoma de Mexico
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Jordan Golubov
Universidad Autónoma Metropolitana - Xochimilco
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Edgar Javier González
Universidad Nacional Autonoma de Mexico

Corresponding Author:edgarjgonzalez@ciencias.unam.mx

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Abstract

Reintroduction is a crucial step in the conservation efforts aiming to restore ecosystems and protect threatened species. However, studies that incorporate and evaluate the effect of plant reintroduction are scarce. A study on a population of Cephalocereus polylophus, a vulnerable cactus endemic to the southern Chihuahuan Desert, allowed us to evaluate the effect of seedling reintroduction on the viability of this population. An integral projection model was used on a 5-year dataset to forecast population size over a century, and to simulate scenarios of seedling survival and protection. The study revealed an asymptotic population growth rate (λ) of 0.97 (95% CI = 0.96 – 0.99). Simulating the seedling survival and an increase in the seedling bank translated into a λ that showed only a slight increase, but remained below one, mainly because the recruitment and survival of small individuals were insufficient to compensate for the population decline. Protecting seedlings against herbivores and increasing their survival to 96.5% resulted in a larger population size (~ 5% average increase) and delayed extinction, in comparison with a no intervention and 60% survival rate scenario. This demonstrates that increasing seedling survival rates through protection and reintroduction efforts can only be conceived as a complementary conservation strategy to those focused on preserving existing individuals. Effective reintroduction strategies can help delay the extinction of the population of this cactus, but the conservation of the current population and its habitat is pivotal for its future survival.
11 Nov 2024Submitted to Population Ecology
17 Nov 2024Submission Checks Completed
17 Nov 2024Assigned to Editor
17 Nov 2024Review(s) Completed, Editorial Evaluation Pending
26 Nov 2024Reviewer(s) Assigned