What happens to fisheries when coral reefs bleach?

How long-term datasets and an international collaboration uncovered climate impacts

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Nov 30, 2018
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A marine heatwave that turned coral reefs into seaweed fields has made reef fisheries less predictable and more productive, impacting small-scale fishers over 20 years later. In our new paper, we document how a mass coral bleaching changed the composition of fish communities, and how this led an increase in the amount of fish caught by artisanal fishers.

Our research was the result of a collaboration between nine ecologists and fisheries scientists working across three countries for over 20 years. I want to explain why teamwork and sharing monitoring data were critical to the success of our study.

When coral reefs are exposed to heat stress and corals bleach, complex and diverse underwater seascapes can turn into flat rubble habitats that are easily overgrown with seaweeds. Coral reefs also provide food and employment for billions of people - by reducing fish habitat, bleaching is expected to lower fisheries' productivity and so impact food security in the tropics. But fisheries landing data do not exist for most reefs, meaning we have very little empirical evidence of how climate change will affect tropical food security.

The link between coral bleaching and reef fisheries is complex. Corals can recover, and fish can be slow to respond to habitat changes. The seaweeds that replace corals, though providing a less complex habitat, can be highly productive and support several species of fish important to artisanal fishers.

We work in Seychelles, an island group in the Indian Ocean where, in 1998, a mass bleaching event caused >90% of corals in the inner island group to die. Since 1994, our team have collaborated with Seychelles Fishing Authority (SFA) and other organisations to collect an underwater time-series that has been highly influential for understanding climate impacts on coral reefs. Seychelles is also a nation of fishers, and SFA have collected data on small-scale catches from coral reefs for over 25 years.

The datasets are exceptional: from 1994 to 2016, SFA spent almost 6,000 days talking to fishermen to catalogue over 40,000 catches, while scuba divers spent 1,000's of hours underwater counting over 60,000 reef fish. These data were a unique opportunity to study long-term climate impacts, and all that was left was interpretation: we turned noisy information into ecological patterns with R code and statistical models

Reef fishery catch survey by technicians with Seychelles Fishing Authority. Surveys record the weight and identity of species caught by small-scale trap fishermen. Photo: James Robinson

We found that catches increased or were stable in the 20 years following bleaching, which coincided with higher numbers of herbivores on the reef. However, overgrowth by seaweeds at some reefs led to greater spatial variation in habitat types and, as fish species started to associate with either seaweed or coral habitats, the variability in catch sizes also increased. Our findings suggest that bleached reefs can still provide food, but their fisheries are less predictable, and may become dominated by seaweed-feeding rabbitfishes.

The 1998 bleaching event caused >90% coral mortality and led to habitat collapse. Over the next 20 years, reefs either recovered branching coral structure or underwent a regime shift to macroalgal states. Photos: Nick Graham

This work was only possible because our collaboration allowed us to combine fishery-dependent (catches) with fishery-independent (underwater) information spanning over 20 years. By drawing on the expertise of ecologists, statisticians, and fisheries scientists, we were able to present several lines of evidence that linked complex ecosystem changes to fishers' catches.

Coral reefs will continue to change as the planet warms - such collaborative and interdisciplinary research will be critical if we are to detect and adapt to future climate impacts. 

Go to the profile of James Robinson

James Robinson

Senior Research Associate, Lancaster University

Coral reefs, fisheries, climate change

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