Habitat attributes mediate herbivory and influence community development in algal metacommunities

Author:

Srednick Griffin1ORCID,Cohen Alyssa2,Diehl Olivia2,Tyler Kaela2,Swearer Stephen E.1ORCID

Affiliation:

1. National Centre for Coasts and Climate School of BioSciences, The University of Melbourne Parkville VIC Australia

2. Department of Biology California State University, Northridge Northridge California USA

Abstract

AbstractUnderstanding the drivers and impacts of spatiotemporal variation in species abundance on community trajectories is key to understanding the factors contributing to ecosystem resilience. Temporal variation in species trajectories across patches can provide compensation for species loss and can influence successional patterns. However, little is known about the underlying mechanisms that lead to patterns of species or spatial compensation and how those patterns may be mediated by consumer–resource relationships. Here we describe an experiment testing whether habitat attributes (e.g., structural complexity and spatial heterogeneity) mediate the effects of herbivory on tropical marine macroalgal communities by reducing accessibility and detectability, respectively, leading to variable trajectories among algal species at community (within patch) and metacommunity (i.e., among patch) scales. Reduced accessibility (greater habitat complexity) decreased the effects of herbivory (i.e., depressed consumption rate, increased algal species richness), and both accessibility and detectability (spatial heterogeneity) influenced algal community structure. Moreover, decreased accessibility at the community scale and a mosaic of accessibility at the metacommunity scale led to variation in community assembly. We suggest that habitat attributes can be important influencers of consumer–resource interactions on coral reefs, which in turn can increase species diversity, promote species succession, and enhance stability in algal metacommunities.

Funder

National Science Foundation

University of Melbourne

Publisher

Wiley

Subject

Ecology, Evolution, Behavior and Systematics

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