DNA evidence shows that salmon hatcheries cause substantial, rapid genetic changes

DNA evidence shows that salmon hatcheries cause substantial, rapid genetic changes
Steelhead trout drift in an Oregon stream. Credit: Photo by John McMillan, courtesy of Oregon State University

A new study on steelhead trout in Oregon offers genetic evidence that wild and hatchery fish are different at the DNA level, and that they can become different with surprising speed.

The research, published today in Nature Communications, found that after one generation of hatchery culture, the offspring of wild fish and first-generation differed in the activity of more than 700 genes.

A single generation of adaptation to the hatchery resulted in observable changes at the DNA level that were passed on to offspring, scientists reported.

This research was conducted at Oregon State University in collaboration with the Oregon Department of Fisheries and Wildlife. Scientists say the findings essentially close the case on whether or not wild and hatchery fish can be genetically different.

Differences in survival and reproductive success between hatchery and wild fish have long offered evidence of rapid adaptation to the hatchery environment. This new DNA evidence directly measured the activity of all genes in the offspring of hatchery and wild fish. It conclusively demonstrates that the genetic differences between hatchery and wild fish are large in scale and fully heritable.

"A fish hatchery is a very artificial environment that causes strong natural selection pressures," said Michael Blouin, a professor of integrative biology in the OSU College of Science. "A concrete box with 50,000 other fish all crowded together and fed pellet food is clearly a lot different than an open stream."

It's not clear exactly what traits are being selected for, but the study was able to identify some genetic changes that may explain how the fish are responding to the novel environment in the hatchery.

"We observed that a large number of genes were involved in pathways related to wound healing, immunity, and metabolism, and this is consistent with the idea that the earliest stages of domestication may involve adapting to highly crowded conditions," said Mark Christie, lead author of the study.

Aside from crowding, which is common in the hatchery, injuries also happen more often and disease can be more prevalent.

The genetic changes are substantial and rapid, the study found. It's literally a process of evolution at work, but in this case it does not take multiple generations or long periods of time.

"We expected hatcheries to have a genetic impact," Blouin said. "However, the large amount of change we observed at the DNA level was really amazing. This was a surprising result."

With the question put to rest of whether hatchery fish are different, Blouin said, it may now be possible to determine exactly how they are different, and work to address that problem. When the that occur in a hatchery environment are better understood, it could be possible to change the way fish are raised in order to produce hatchery fish that are more like . This research is a first step in that direction.


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Evolution at warp speed: Hatcheries change salmon genetics after a single generation

Journal information: Nature Communications

Citation: DNA evidence shows that salmon hatcheries cause substantial, rapid genetic changes (2016, February 17) retrieved 19 September 2019 from https://phys.org/news/2016-02-dna-evidence-salmon-hatcheries-substantial.html
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Feb 17, 2016
These floating fish farms should only be made using "floating and sealed contrete tanks" with the water cleaned on a continual basis. This would contain all the issues with floating "net tanks" which allow disease and waste from the contained fish to spew all over the local waterways. Using floating tanks also minimizes the costs of maintaining the temperature year round. On land these tanks would require large external temperature control over the seasons. The floating net tanks should be completely eliminated.

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