Environmental disturbance events drive declines in juvenile wrasse biomass on inshore coral reefs of the Great Barrier Reef

Abstract

Environmental disturbances and fishing are well known drivers of coral reef fish population size, length-frequency, and assemblage structure. However, few studies have partitioned the spatial and temporal impacts of multiple disturbance events and long-term no-take marine reserve (NTMR) protection on the biomass of juvenile and adult reef-fishes based on the known size of sexual maturity. Here, we document responses in the biomass of juvenile and adult wrasses (Labridae) Hemigymnus melapterus, H. fasciatus, Cheilinus fasciatus, and Oxycheilinus digramma, to environmental disturbance events, NTMR protection, and predator density on inshore fringing coral reefs at the Palm and Whitsunday Island groups, Great Barrier Reef (GBR), Australia from 2007 to 2018 (12 years). The biomass of juvenile and adult wrasses on inshore GBR reefs were driven predominantly by benthic habitat associations, rather than by NTMR protection or density of wrasse predators (Plectropomus spp.). Despite similar species-specific associations of juvenile and adult wrasses with benthic cover, juvenile wrasse biomass consistently declined following coral bleaching and cyclone events. Conversely, adult wrasses had variable responses to disturbance events, including some increases in biomass. Disturbance-mediated declines in the biomass of juvenile wrasses are likely to generate ongoing reductions in the abundance of these species on inshore GBR reefs. Our findings provide further evidence that habitat loss impacts a range of coral reef fishes beyond those that are directly reliant upon live coral. Shifts in assemblage structure, loss of biodiversity, and reductions in fishery productivity will become increasingly apparent in coral reef ecosystems if anthropogenic global warming continues unabated.