Immigration, Local Dispersal Limitation, and the Repeatability of Community Composition under Neutral and Niche Dynamics
Authored by Gang Wang, Dexiecuo Ai, Chengjin Chu, Philippe Desjardins-Proulx
Date Published: 2012
DOI: 10.1371/journal.pone.0046164
Sponsors:
Chinese National Natural Science Foundation
Platforms:
No platforms listed
Model Documentation:
Other Narrative
Mathematical description
Model Code URLs:
Model code not found
Abstract
Repeatability of community composition has been a critical aspect for
community structure, which is closely associated with community
stability, predictability, conservation biology and ecological
restoration. It has been shown that both immigration and local dispersal
limitation can affect the community composition in both neutral and
niche model. Hence, we use a spatially explicit individual-based model
to investigate the potential influence of immigration rate and strength
of local dispersal limitation on repeatability in both neutral and niche
models. Similarity measures are used to quantify repeatability. We
examine the repeatability of community composition among replicate
communities (which means the same community repeats many times), and
between niche and neutral replicate communities. We find the correlation
between repeatability and immigration rate is positive in the neutral
model and an inverted unimodal in the niche model. The correlation
between repeatability and local dispersal distance is positive in the
niche model and negative in the neutral model. High repeatability
between niche communities and neutral communities is observed with high
immigration rates or when high local dispersal distance appears in the
niche model or low local dispersal distance in the neutral model. Our
results show that repeatability of community composition is not only
dependent on the types of community models (niche vs. neutrality) but
also strongly determined by immigration rates and local dispersal
limitation.
Tags
Biodiversity
ecology
predictability
stability
Abundance
Competitive-exclusion
Species-diversity
Beta-diversity
Tropical forests
Source-sink metacommunities