• Title of article

    Design and validation of a spatially explicit simulation model for bottomland hardwood forests

  • Author/Authors

    Nuttle، نويسنده , , Tim and Haefner، نويسنده , , James W.، نويسنده ,

  • Pages
    13
  • From page
    20
  • To page
    32
  • Abstract
    Species composition in forests depends on the interaction of species traits and species availability. Yet many forest simulation models focus only on interactions of adult trees and saplings, ignoring how species become members of the community. We modify a published forest model for bottomland hardwood forests (program SWAMP [Phipps, R.L., 1979. Simulation of wetlands forest vegetation dynamics. Ecol. Modell. 7, 257–288]) to make it spatially explicit and incorporate explicit seed production and dispersal algorithms. The resulting individual-based, spatially explicit forest simulator (YAFSIM) combines mechanistic seed dispersal with growth and mortality of trees to track forest dynamics over time. We describe the structure of the model and test its validity for dynamics in small bottomland hardwood patches in the Mississippi Alluvial Valley. Dynamics of species composition and basal areas of trees predicted by Yazoo Forest Simulator (YAFSIM) were similar to those of natural second- and old-growth bottomland forests. However, diversity of simulated forest patches declined over time largely because of random dynamics acting on small, isolated populations.
  • Keywords
    Restoration , Mississippi Alluvial Valley , Individual-based model , Succession , Forest simulator , dispersal
  • Journal title
    Astroparticle Physics
  • Record number

    2083583