Ecological engineering across organismal scales: trophic-mediated positive effects of microhabitat enhancement on fishes

Retrofitting microhabitat features is a common ecological engineering technique for enhancing biodiversity and abundance of small, epilithic organisms on artificial shorelines by providing refuge spaces and/or ameliorating abiotic conditions. These features are typically too small to be utilised as refugia by larger, highly motile consumers such as fish, but they may affect these organisms through other mechanisms. This study sought to determine whether microhabitat enhancement units alter the fish abundance, richness and assemblage composition on tropical seawalls and explores possible underlying trophic mechanisms. We created 12 experimental plots consisting of 6 enhanced plots, each with 20 microhabitat enhancement tiles, and 6 control plots without tiles on intertidal seawalls at Pulau Hantu, an offshore island south of mainland Singapore. Benthic cover and fish assemblage were surveyed within each plot using photoquadrats and underwater video cameras, respectively, from April 2018 to February 2019. We found greater abundance and species richness and distinct assemblages of fish in the enhanced plots compared to the control plots. These differences were driven largely by an increase in both abundance and richness of fish species with epibenthic-feeding strategies and were significantly associated with higher biotic cover in the enhanced plots, especially epilithic algal matrix (EAM). Our results indicate that, in addition to facilitating epilithic organisms, microhabitat enhancement can provide food resources for epibenthic-feeding fishes, increase fish biodiversity, and alter fish assemblages in tropical urbanised shorelines.

Emergent fauna from hard surfaces on the Great Barrier Reef, Australia

The community composition of a coral reef emergent fauna was quantified on Orpheus Island, Great Barrier Reef. Emergence traps deployed over hard surfaces revealed a wide diversity of organisms, spanning eight different phyla, of which Crustacea were particularly abundant. Within the Crustacea, harpacticoid copepods were the most common (24 ± 2 ind. 100 cm–2, mean ± s.e.). The composition of the emergent fauna differed markedly from previous descriptions of the cryptofauna in the epilithic algal matrix. Furthermore, the emergent fauna was two orders of magnitude less abundant than their benthic counterparts. Our results point to a limited trophic link between the benthos and the overlying nocturnal plankton assemblage.