Abstract
For plants dispersed by frugivores, spatial patterns of recruitment are primarily influenced by the spatial arrangement and characteristics of parent plants, the digestive characteristics, feeding behaviour and movement patterns of animal dispersers, and the structure of the habitat matrix. We used an individual-based, spatially-explicit framework to characterize seed dispersal and seedling fate in an endangered, insular plant-disperser system: the endemic shrub Daphne rodriguezii and its exclusive disperser, the endemic lizard Podarcis lilfordi. Plant recruitment kernels were chiefly determined by the disperser's patterns of space utilization (i.e. the lizard's displacement kernels), the position of the various plant individuals in relation to them, and habitat structure (vegetation cover vs. bare soil). In contrast to our expectations, seed gut-passage rate and its effects on germination, and lizard speed-of-movement, habitat choice and activity rhythm were of minor importance. Predicted plant recruitment kernels were strongly anisotropic and fine-grained, preventing their description using one-dimensional, frequency-distance curves. We found a general trade-off between recruitment probability and dispersal distance; however, optimal recruitment sites were not necessarily associated to sites of maximal adult-plant density. Conservation efforts aimed at enhancing the regeneration of endangered plant-disperser systems may gain in efficacy by manipulating the spatial distribution of dispersers (e.g. through the creation of refuges and feeding sites) to create areas favourable to plant recruitment.
Highlights
The spatial distributions of dispersed seeds play a crucial role in determining the structure and dynamics of plant-populations [1,2]
While it is generally acknowledged that the spatial distribution of seeds set the template on which subsequent demographic processes take place, shaping the spatial pattern of adult plants [2,3,4,5,6], our knowledge of the factors that determine the observed patterns of seed deposition is still limited
For plants dispersed by frugivores, these factors include the density, spatial arrangement and characteristics of adult plants, the feeding behaviour and movement patterns of animal dispersers and the structure of the habitat matrix [7,8,9,10]
Summary
The spatial distributions of dispersed seeds play a crucial role in determining the structure and dynamics of plant-populations [1,2]. Most studies on seed shadows and plant recruitment patterns use seed traps and seedling surveys to estimate the relationship between seed (or seedling) density and distance from the seed source (the ‘‘dispersal kernel’’) using various statistical models [11,12,13]. These models (hereafter referred to as ‘‘1D dispersal kernels’’) are generally based on unimodal distributions with a peak close to the source and a long tail. These differences often underscore the anisotropy and context-dependence of dispersal kernels [13], we are not aware of any study that has attempted to generate spatially-explicit kernels based on animal movement data (but see [23] for an example of spatial heterogeneity generated by the overlap of isotropic kernels)
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