Cascading top-down effects on estuarine intertidal meiofaunal and algal assemblages

Interactions between organisms are important determinants of species distributions and abundances. Due to the high complexity of interactions between species in natural systems, the outcome of a given interaction can affect others, finally modifying community composition. In South-Western Atlantic intertidal mudflats, the zonation of the burrowin crab Neohelice (Chasmagnathus) granulate and the intertidal snail Heleobia australis rarely overlaps, suggesting that both species might have negative interactions; and, given that both species have different foraging strategies, these negative interactions can have top-down impacts on community composition. Zonation patterns of both species showed that snails are more abundant in areas without crab burrows, and field experiments revealed that snail density correlated with a reduction in crab density and that when crabs were excluded, snails were able to colonize those higher intertidal areas. Bioturbation and not competition seems to drive that pattern, given that crabs have no effects on microalgae, but negatively affect infaunal organisms such as copepods, flagellates, nauplli larvae and snails. Conversely, snails negatively affect algal assemblages, specifically cyanobacteria, chlorophytes, and euglenophytes, although diatoms, the most abundant group, was not modified. Our results show that crab-snail competition disrupts snail herbivoiy upon microalgae by limiting the area over which algal consumption occurs and highlight the complex web of interactions that frequently regulates community structure in natural systems. (C) 2013 Elsevier B.V. All rights reserved.