Journal
ECOLOGY AND EVOLUTION
Volume 12, Issue 9, Pages -Publisher
WILEY
DOI: 10.1002/ece3.9324
Keywords
accumulator; big trees; dispersal; ISAR; repeller; shade tolerance; spatial heterogeneity
Categories
Funding
- CSIRO Julius Career Award
- TERN (the Australian Government's Terrestrial Ecosystem Research Network)
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Big trees and abundant species play important roles in driving the spatial distribution of species richness in forests, particularly through niche partitioning along disturbance gradients.
Big trees and abundant species dominate forest structure and composition. As a result, their spatial distribution and interactions with other species and individuals may contribute disproportionately to the emergence of spatial heterogeneity in richness patterns. We tested scale-dependent spatial patterning and species richness structures to understand the role of individual trees (big trees) and species (abundant species) in driving spatial richness patterns on a 25 ha plot in a diverse tropical forest of Australia. The individual species area relationship (ISAR) was used to assess species richness in neighborhoods ranging from 1 to 50 m radii around all big trees (>= 70 cm dbh, n = 296) and all species with more than 100 individuals in the plot (n = 53). A crossed ISAR function was also used to compute species richness around big trees for trees of different size classes. Big individuals exert some spatial structuring on other big and mid-sized trees in local neighborhoods (up to 30 m and 16 m respectively), but not on small trees. While most abundant species were neutral with respect to richness patterns, we identified consistent species-specific signatures on spatial patterns of richness for 14 of the 53 species. Seven species consistently had higher than expected species richness in their neighborhood (species accumulators), and seven had lower than expected (species repellers) across all spatial scales. Common traits of accumulators and repeller species suggest that niche partitioning along disturbance gradients is a primary mechanism driving spatial richness patterns, which is then manifested in large-scale spatial heterogeneity in species distributions across the plot.
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