Abstract
Release of captively-bred individuals into the wild is one of the most popular tools in fisheries, forestry, and wildlife management, and introgression of hatchery-reared animals into wild populations is of global concern. However, research and monitoring of impacts on wild populations are generally lacking, and the benefit of hatcheries for long-term fisheries and conservation goals is unclear. Using spatio-temporal genetic monitoring and a four-dacade time series of catch data, we quantified the effects on the size and genetic diversity of wild populations of one of the world’s largest marine stock enhancement programs–the red sea bream (Pagrus major) in Kagoshima Bay, Japan. Our analyses found that the stock enhancement program reduced genetic diversity of the population, but the genetic effect diminished with increased size of the wild population. Increases to the seaweed communities and reduced fishing efforts were the primary factors associated with the wild population recovery; effects of aquaculture were much smaller. Our results represent crucial evidence that hatcheries for enhancement and conservation of populations cannot be successful over the long term unless sufficient efforts are also made to reduce harvest rates and rehabilitate natural habitats.
Highlights
Rigorous monitoring of a largescale marine stock enhancement program demonstrates the need for comprehensive management of fisheries and nursery habitat
Using a spatio-temporal genetic monitoring and four-dacade time series of catch data, we quantified the effects on the size and genetic diversity of wild populations of one of the world’s largest marine stock enhancement programs–the red sea bream (Pagrus major) in Kagoshima Bay, Japan
Habitat has been secured for each life stage of red sea bream and most of released juveniles could remain in the bay throughout the life cycle
Summary
Rigorous monitoring of a largescale marine stock enhancement program demonstrates the need for comprehensive management of fisheries and nursery habitat. Research and monitoring of impacts on wild populations are generally lacking, and the benefit of hatcheries for long-term fisheries and conservation goals is unclear. Our results represent crucial evidence that hatcheries for enhancement and conservation of populations cannot be successful over the long term unless sufficient efforts are made to reduce harvest rates and rehabilitate natural habitats. Hatchery release is one of the most popular tools in fisheries, forestry, and wildlife management[1], and it has become a standard conservation tool for Atlantic and Pacific salmon stocks listed under the Endangered Species. The most serious concern is genetic impacts of hatchery-reared animals on wild populations, which has long been discussed for salmon and marine species[6,7,8,9,10]. Modern parentage assignment studies provide evidence that the relative reproductive success (RRS) of hatchery-reared steelhead trout[11], Chinook and coho salmon[12] and farmed
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