4.7 Article

The biogeography of community assembly: latitude and predation drive variation in community trait distribution in a guild of epifaunal crustaceans

Journal

Publisher

ROYAL SOC
DOI: 10.1098/rspb.2021.1762

Keywords

community assembly; functional traits; latitudinal gradient; predation; historical contingency; eelgrass epifauna

Funding

  1. National Science Foundation [NSF-OCE 1336206, OCE 1336905, OCE 1336741]
  2. Abo Akademi University Foundation

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This study used a model selection approach to investigate trait dispersion in crustaceans associated with eelgrass in two oceans. The results showed that dispersion increased with increasing predation and decreasing latitude. Additionally, the study found that ocean and epiphyte load were also predictors of trait dispersion.
While considerable evidence exists of biogeographic patterns in the intensity of species interactions, the influence of these patterns on variation in community structure is less clear. Studying how the distributions of traits in communities vary along global gradients can inform how variation in interactions and other factors contribute to the process of community assembly. Using a model selection approach on measures of trait dispersion in crustaceans associated with eelgrass (Zostera marina) spanning 30 degrees of latitude in two oceans, we found that dispersion strongly increased with increasing predation and decreasing latitude. Ocean and epiphyte load appeared as secondary predictors; Pacific communities were more overdispersed while Atlantic communities were more clustered, and increasing epiphytes were associated with increased clustering. By examining how species interactions and environmental filters influence community structure across biogeographic regions, we demonstrate how both latitudinal variation in species interactions and historical contingency shape these responses. Community trait distributions have implications for ecosystem stability and functioning, and integrating large-scale observations of environmental filters, species interactions and traits can help us predict how communities may respond to environmental change.

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