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A simple spatially explicit neutral model explains the range size distribution of reef fishes
Alzate, A.; Janzen, T.; Bonte, D.; Rosindell, J.; Etienne, R.S. (2019). A simple spatially explicit neutral model explains the range size distribution of reef fishes. Glob. Ecol. Biogeogr. 28(7): 875-890. https://dx.doi.org/10.1111/geb.12899
In: Global Ecology and Biogeography. Blackwell Science: Oxford. ISSN 1466-822X; e-ISSN 1466-8238, meer
Peer reviewed article  
Beschikbaar in  Auteurs 
Trefwoorden
    Pisces [WoRMS]
    Marien/Kust
Author keywords
    dispersal; neutral model; range size; range size distribution; reeffishes; spatially explicit
Auteurs  Top 
  • Alzate, A., meer
  • Janzen, T.
  • Bonte, D., meer
  • Rosindell, J.
  • Etienne, R.S.
Abstract
    Aim

    The great variation in range sizes among species has fascinated ecologists for decades. Reef‐associated fish species live in highly spatially structured habitats and adopt a wide range of dispersal strategies. We consequently expect species with greater dispersal ability to occupy larger ranges. However, empirical evidence for such a positive relationship between dispersal and range size remains scarce. Here, we unveil the role of dispersal on the range size distribution of reef‐associated fishes using empirical data and a novel spatially explicit model.

    Location

    Tropical Eastern Pacific.

    Major taxa studied

    Reef‐associated fishes.

    Time period

    Underlying records are from the 20th and 21st centuries.

    Methods

    We estimated range size distributions for all reef‐associated fishes separated into six guilds, each with different dispersal abilities. We used a one‐dimensional spatially explicit neutral model, which simulates the distribution of species along a linear and contiguous coastline, to explore the effect of dispersal, speciation and sampling on the distribution of range sizes. Our model incorporates biologically important long‐distance dispersal events with a fat‐tailed dispersal kernel and also adopts a more realistic gradual “protracted” speciation process than originally used in neutral theory. We fitted the model to the empirical data using an approximate Bayesian computation approach, with a sequential Monte Carlo algorithm.

    Results

    Stochastic birth, death, speciation and dispersal events alone can accurately explain empirical range size distributions for six different guilds of tropical, reef‐associated fishes. Variation in range size distributions among guilds are explained purely by differences in dispersal ability with the best dispersers being distributed over larger ranges.

    Main conclusions

    Neutral processes and guild‐specific dispersal ability provide a general explanation for both within‐ and across‐guild range size variation. Our results support the theoretically expected, but empirically much debated, hypothesis that high dispersal capacity promotes the establishment of large range size.

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