Perspectives in Ecology and Conservation (Apr 2022)

Neutral processes and reduced dispersal across Amazonian rivers may explain how rivers maintain species diversity after secondary contact

  • Sergio Santorelli Junior,
  • William E. Magnusson,
  • Cláudia Pereira de Deus,
  • Timothy H. Keitt

Journal volume & issue
Vol. 20, no. 2
pp. 151 – 158

Abstract

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Amazonian rivers are only partial barriers to the dispersal of most species, but they still form the limits between the distributions of many similar species. We show that two competitively-identical species may remain allopatric for hundreds of generations when a river only reduces the chance of a species crossing it. To illustrate this, we developed a two-dimensional cellular automata for two allopatric species under neutral-theory dynamics and recorded the time required for the first extinction of a species and the frequency with which it occurred across replicate simulations. Our results indicate that neutral processes associated with reduced dispersal across rivers can maintain competitively-identical species allopatric for hundreds of generations despite repeated river crossings. These cross-river incursions were rarely successful owing to the low likelihood of a rare invader outcompeting resident populations. This process provides a plausible mechanism for the maintenance of Amazonian biodiversity and may explain the spatial-distribution limits of species caused by large rivers in the Amazon that are not absolute barriers to dispersal.

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