Nonrandom community assembly and high temporal turnover promote regional coexistence in tropics but not temperate zone

A persistent challenge for ecologists is understanding the ecological mechanisms that maintain global patterns of biodiversity, particularly the latitudinal diversity gradient of peak species richness in the tropics. Spatial and temporal variation in community composition contribute to these pattern...

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Bibliographic Details
Published in:Ecology (Durham) 2015-01, Vol.96 (1), p.264-273
Main Authors: Freestone, Amy L, Inouye, Brian D
Format: Article
Language:English
Subjects:
Animals
aquatic invertebrates
Aquatic Organisms
Belize
beta diversity
Biodiversity
Biological taxonomies
Communities
community assembly
Community ecology
community structure
Ecologists
Ecosystem
Geography
invertebrate
Invertebrates
latitude
Marine
Marine ecology
null model
Predation
prediction
Species
Species diversity
Synecology
temperate
Temperate regions
Temperate zones
temporal turnover
temporal variation
Tropical Climate
Tropical climates
Tropical regions
tropics
United States
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Summary:A persistent challenge for ecologists is understanding the ecological mechanisms that maintain global patterns of biodiversity, particularly the latitudinal diversity gradient of peak species richness in the tropics. Spatial and temporal variation in community composition contribute to these patterns of biodiversity, but how this variation and its underlying processes change across latitude remains unresolved. Using a model system of sessile marine invertebrates across 25° of latitude, from the temperate zone to the tropics, we tested the prediction that spatial and temporal patterns of taxonomic richness and composition, and the community assembly processes underlying these patterns, will differ across latitude. Specifically, we predicted that high beta diversity (spatial variation in composition) and high temporal turnover contribute to the high species richness of the tropics. Using a standardized experimental approach that controls for several confounding factors that hinder interpretation of prior studies, we present results that support our predictions. In the temperate zone, communities were more similar across spatial scales from centimeters to tens of kilometers and temporal scales up to one year than at lower latitudes. Since the patterns at northern latitudes were congruent with a null model, stochastic assembly processes are implicated. In contrast, the communities in the tropics were a dynamic spatial and temporal mosaic, with low similarity even across small spatial scales and high temporal turnover at both local and regional scales. Unlike the temperate zone, deterministic community assembly processes such as predation likely contributed to the high beta diversity in the tropics. Our results suggest that community assembly processes and temporal dynamics vary across latitude and help structure and maintain latitudinal patterns of diversity.
ISSN:0012-9658
1939-9170
DOI:10.1890/14-0145.1