Comparison of Coral Reef Ecosystems along a Fishing Pressure Gradient

Mariska Weijerman,Frank A Parrish,Elizabeth A Fulton,Fabiano Thompson

doi:10.1371/journal.pone.0063797

Abstract

Three trophic mass-balance models representing coral reef ecosystems along a fishery gradient were compared to evaluate ecosystem effects of fishing. The majority of the biomass estimates came directly from a large-scale visual survey program; therefore, data were collected in the same way for all three models, enhancing comparability. Model outputs–such as net system production, size structure of the community, total throughput, production, consumption, production-to-respiration ratio, and Finn’s cycling index and mean path length–indicate that the systems around the unpopulated French Frigate Shoals and along the relatively lightly populated Kona Coast of Hawai’i Island are mature, stable systems with a high efficiency in recycling of biomass. In contrast, model results show that the reef system around the most populated island in the State of Hawai’i, O’ahu, is in a transitional state with reduced ecosystem resilience and appears to be shifting to an algal-dominated system. Evaluation of the candidate indicators for fishing pressure showed that indicators at the community level (e.g., total biomass, community size structure, trophic level of the community) were most robust (i.e., showed the clearest trend) and that multiple indicators are necessary to identify fishing perturbations. These indicators could be used as performance indicators when compared to a baseline for management purposes. This study shows that ecosystem models can be valuable tools in identification of the system state in terms of complexity, stability, and resilience and, therefore, can complement biological metrics currently used by monitoring programs as indicators for coral reef status. Moreover, ecosystem models can improve our understanding of a system’s internal structure that can be used to support management in identification of approaches to reverse unfavorable states.

Highlights

Resource managers are confronted with a range of challenges in their mission to sustain and restore coral reef goods and services that humans desire
Sensitivity analyses showed that the model was least sensitive to a change in Q/B ratio for the meiobenthos, with only crustacean biomass changing more than 10% with a 50% applied increase or decrease of their Q/B ratio
Candidate indicators for fishing pressure showed that indicators at the community level showed the clearest trend with increased fishing mortality

Summary

Introduction

Resource managers are confronted with a range of challenges in their mission to sustain and restore coral reef goods and services that humans desire. About three-quarters of all coral reefs are threatened by increased stress from pollution, extensive fishing, and climate change [3]. At the Great Barrier Reef, coral cover has halved in the last three decades [5]. Reductions in herbivorous fish biomass may affect the microbial diversity with a shift to more pathogenic microbes and reduced microbial species richness, affecting the condition of the reef [11]. It is our opinion that management should focus on assessment and improvement of reef resilience to maximize the capacity of corals to respond to the imminent threats of global climate change [14,15]

Methods

Results

Discussion

Conclusion