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Simulating groundcover community assembly in a frequently burned ecosystem using a simple neutral model


Lee Dyer
Scott Pokswinski
Lora Richards
Jane Dell
J. Kevin Hiers



Publication type:

Scientific Journal (JRNL)

Primary Station(s):

Southern Research Station


Frontiers in Plant Science.


Fire is a keystone process that drives patterns of biodiversity globally. In frequently burned fire-dependent ecosystems, surface fire regimes allow for the coexistence of high plant diversity at fine scales even where soils are uniform. The mechanisms on how fire impacts groundcover community dynamics are, however, poorly understood. Because fire can act as a stochastic agent of mortality, we hypothesized that a neutral mechanism might be responsible for maintaining plant diversity. We used the demographic parameters of the unified neutral theory of biodiversity (UNTB) as a foundation to model groundcover species richness, using a southeastern US pine woodland as an example. We followed the fate of over 7,000 individuals of 123 plant species for 4 years and two prescribed burns in frequently burned Pinus palustris sites in northwest FL, USA. Using these empirical data and UNTB-based assumptions, we developed two parsimonious autonomous agent models, which were distinct by spatially explicit and implicit local recruitment processes. Using a parameter sensitivity test, we examined how empirical estimates, input species frequency distributions, and community size affected output species richness. We found that dispersal limitation was the most influential parameter, followed by mortality and birth, and that these parameters varied based on scale of the frequency distributions. Overall, these nominal parameters were useful for simulating fine-scale groundcover communities, although further empirical analysis of richness patterns, particularly related to fine-scale burn severity, is needed. This modeling framework can be utilized to examine our premise that localized groundcover assemblages are neutral communities at high fire frequencies, as well as to examine the extent to which niche-based dynamics determine community dynamics when fire frequency is altered.


Loudermilk, E. Louise; Dyer, Lee; Pokswinski, Scott; Hudak, Andrew T.; Hornsby, Benjamin; Richards, Lora; Dell, Jane; Goodrick, Scott L.; Hiers, J. Kevin; O'Brien, Joseph J. 2019. Simulating groundcover community assembly in a frequently burned ecosystem using a simple neutral model. Frontiers in Plant Science. 10: 1107.


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