Evidence Shows Marine Reserves Replenish Fish Populations
An international team of scientists has gathered the first conclusive evidence that marine reserves can help restock exploited fish populations on neighboring reefs, which are open to both commercial and recreational fishing.
The groundbreaking study was carried out in the Keppel Island group on Australia’s Great Barrier Reef by researchers from the ARC Centre of Excellence for Coral Reef Studies (CoECRS), in conjunction with other leading research institutions and is reported in the latest issue of the journal Current Biology.
Its findings help to resolve a long-running debate in Australia and worldwide about whether marine reserves, areas closed to all forms of fishing, can help to replenish fish numbers in areas left open to fishing.
Tracking the Babies
Using DNA fingerprinting technology, the team of scientists tracked the dispersal pathways of baby coral trout and stripey snappers from the marine reserves in the Keppel island group where they were spawned. They found that a very large proportion of baby fish settled on reefs in areas that are open to fishing, up to 30 kilometres from the place they were spawned. Most of the baby fish settled within 1-5kms of reserves but a significant proportion dispersed 10 kilometres or more to find a new home.
“The study provides conclusive evidence that fish populations in areas open to fishing can be replenished from populations within marine reserves.”
“We found that the marine reserves, which cover about 28 percent of the 700 hectare reef area of the Keppels, had in fact generated half the baby fish, both inside and outside of the reserves,” says lead author Hugo Harrison, of CoECRS and James Cook University. “The study provides conclusive evidence that fish populations in areas open to fishing can be replenished from populations within marine reserves.”
Team leader Professor Geoff Jones adds “We’ve known for some time that if you close an area of reef to fishing, both fish numbers and sizes within the reserve increase. But the fate of the offspring of fish in the reserves has been a long-standing mystery. Now we can clearly show that the benefits of reserves spread beyond reserve boundaries, providing a baby bonus to fisheries.”
Fisheries and Conservation Benefits
The research establishes proof-of-concept for the idea that setting aside networks of marine reserves within a larger managed ecosystem like the Great Barrier Reef Marine Park, can simultaneously provide significant fishery and conservation benefits.
Local recreational fishers worked with the research team to sample adult fish populations within the reserves. Recreational fishing sector representative and manager of the CapReef program Bill Sawynok says “Local fishers who assisted in the project have been keenly anticipating the results for some time.”
Co-author Professor Garry Russ adds, “Networks of marine reserves on coral reefs are a central strategy for ensuring food security for millions of people in the Coral Triangle region, just to the north of Australia. This study in the Keppel Islands, for the first time, demonstrates that reserve networks can contribute substantially to the long-term sustainability of coral reef fisheries, and thus to food security and livelihoods in the region.”
The researchers conclude, “The fact that local fishing communities can directly benefit from a source of recruitment from their local reserves is the strongest support yet that reserve networks can be an effective tool for sustaining future generations of both fish and fishers.”
This work was funded by the Marine and Tropical Sciences Research Facility (MTSRF), the Australian Research Council and the Packard Foundation.
Their paper Larval Export From Marine Reserves and the Recruitment Benefit for Fish and Fisheries by Hugo B. Harrison, David H. Williamson, Richard D. Evans, Glenn R. Almany, Simon R. Thorrold, Garry R. Russ, Kevin A. Feldheim, Lynne van Herwerden, Serge Planes, Maya Srinivasan, Michael L. Berumen and Geoffrey P. Jones appears in the latest online issue of Current Biology.