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A coupled ecological–hydrodynamic model for the spatial distribution of sessile aquatic species in thermally forced basins

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  • Mari, Lorenzo
  • Biotto, Cristian
  • Decoene, Astrid
  • Bonaventura, Luca

Abstract

The life cycle of several sessile or highly sedentary aquatic species is characterized by a pelagic stage, during which propagules are dispersed by the water flow. As a consequence, hydrodynamics plays a crucial role in redistributing offspring. In this work, we describe an integrated modeling framework that couples a minimal – yet biologically well founded – ecological model for the population dynamics at the local scale to an efficient numerical model of three dimensional free surface flows in a thermally forced basin. The computed hydrodynamical fields are employed in a Lagrangian description of larval transport at the basin scale. The developed modeling framework has been applied to a realistic case study, namely the spread of an idealized aquatic sedentary population in Lake Garda, Italy. The analysis of this case study shows that the long-term interplay between demography and hydrodynamics can produce complex spatiotemporal dynamics. Our results also evidence that larvae can travel over relatively long distances even in a closed basin. A sensitivity analysis of the model outcomes shows that both biological traits and external forcings may remarkably influence the evolution of diffusion patterns in space and time.

Suggested Citation

  • Mari, Lorenzo & Biotto, Cristian & Decoene, Astrid & Bonaventura, Luca, 2009. "A coupled ecological–hydrodynamic model for the spatial distribution of sessile aquatic species in thermally forced basins," Ecological Modelling, Elsevier, vol. 220(18), pages 2310-2324.
    • Handle: RePEc:eee:ecomod:v:220:y:2009:i:18:p:2310-2324
    DOI: 10.1016/j.ecolmodel.2009.05.012
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