Using wild salmon to spawn the next generation of hatchery fish can help rebuild endangered salmon runs without passing on genetic problems, a new study shows.
GRANTS PASS, Ore. — New research has found that a hatchery using wild salmon to spawn the next generation can help rebuild endangered salmon runs without passing on genetic problems that threaten future returns.
The study, published Monday in the online edition of the scientific journal Molecular Ecology, contrasts earlier research suggesting that hatcheries themselves genetically select for fish that go on to fail once they are released into the wild.
Researchers from the Columbia River Intertribal Fish Commission and the Nez Perce Tribe tracked an endangered run of chinook salmon in Johnson Creek in the Salmon River Basin in Idaho from 1998 through 2010 — more than two full generations. The commission and the Nez Perce Tribe have long been strong advocates for using hatcheries to rebuild endangered salmon runs, a practice questioned by some scientists.
Genetic sampling from 7,726 adult fish returning to spawn showed that fish born and raised in the hatchery from parents taken from the wild produced adult fish that returned from the ocean at a higher rate — an average of 4.69 times higher — than fish spawned naturally in the river.
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When those returning fish spawned naturally in the river, they produced offspring that returned at an average rate of 1.32 times higher over two brood years. They also found that male fish raised in hatcheries typically had a lower rate of success reproducing than wild males.
“This helps us realize that supplementation programs can be effective at boosting populations that are endangered while having very limited genetic impact on wild populations,” said co-author Shawn Narum, lead geneticist for the commission.