The importance of long-distance seed dispersal for the demography and distribution of a canopy tree species
Authored by T Trevor Caughlin, Jake M Ferguson, Jeremy W Lichstein, Sarayudh Bunyavejchewin, Douglas J Levey
Date Published: 2014
DOI: 10.1890/13-0580.1
Sponsors:
United States National Science Foundation (NSF)
Platforms:
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Model Documentation:
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Abstract
Long-distance seed dispersal (LDD) is considered a crucial determinant
of tree distributions, but its effects depend on demographic processes
that enable seeds to establish into adults and that remain poorly
understood at large spatial scales. We estimated rates of seed arrival, germination, and survival and growth for a canopy tree species (Miliusa
horsfieldii), in a landscape ranging from evergreen forest, where the
species' abundance is high, to deciduous forest, where it is extremely
low. We then used an individual-based model (IBM) to predict sapling
establishment and to compare the relative importance of seed arrival and
establishment in explaining the observed distribution of seedlings.
Individuals in deciduous forest, far from the source population, experienced multiple benefits (e.g., increased germination rate and
seedling survival and growth) from being in a habitat where conspecifics
were almost absent. The net effect of these spatial differences in
demographic processes was significantly higher estimated sapling
establishment probabilities for seeds dispersed long distances into
deciduous forest. Despite the high rate of establishment in this
habitat, Miliusa is rare in the deciduous forest because the arrival of
seeds at long distances from the source population is extremely low.
Across the entire landscape, the spatial pattern of seed arrival is much
more important than the spatial pattern of establishment for explaining
observed seedling distributions. By using dynamic models to link
demographic data to spatial patterns, we show that LDD plays a pivotal
role in the distribution of this tree in its native habitat.
Tags
Coexistence
movements
Recruitment
Populations
Climate-change
Abundance
Seasonal tropical forest
Western thailand
East-asia
Limitation