Salmon are Salmon

Scientists finally agree, as this article from UC Santa Cruz Newsroom reports.

An excerpt.

“Historically, spring-run and fall-run Chinook salmon have been considered as separate subspecies, races, ecotypes, or even as separate species of fish. A new genetic analysis, however, shows that the timing of migration in Chinook salmon is determined entirely by differences in one short stretch of DNA in their genomes.

“The new findings, published October 29 in Science, mean that within a drainage basin like the Klamath River, the different runs of Chinook salmon are all part of a single diverse population.

“It’s like blue and brown eye color in humans—it just depends on what genotype you inherit from your parents,” said corresponding author John Carlos Garza, adjunct professor of ocean sciences at UC Santa Cruz and a research geneticist with NOAA’s Southwest Fisheries Science Center.

“The study has profound implications for conservation and management of Chinook salmon, the largest species of salmon, and makes restoration of the beleaguered Klamath River spring run more feasible if plans for the removal of dams on the river move forward.

“We view this as very good news,” Garza said.

“Genome sequencing

“Garza’s team began by sequencing the complete genomes of 160 Chinook salmon from the Klamath River and Sacramento River drainages. The only consistent differences they found between spring-run and fall-run fish occurred within a single region on chromosome 28. Within that region, they identified a shorter “Region of Strongest Association” (RoSA) that occurs in two versions, dubbed “E” for early migration and “L” for late migration.

“RoSA includes parts of two genes and the stretch of DNA between them. The E and L versions differ in multiple places, making them “haplotypes,” the term for a set of DNA variations that are inherited together. Salmon, like all vertebrates, inherit two sets of chromosomes, one from each parent, so their RoSA “genotype” can be either EE, LL, or EL.

“Armed with genetic markers for the E and L haplotypes, the researchers sampled 502 Chinook salmon harvested by the Yurok Tribe in the Klamath River Estuary. For fish with the “homozygous” EE and LL genotypes, there was no overlap in the timing of migration, when the fish leave the ocean to swim up the Klamath and spawn. EE fish migrate early (spring run), and LL fish migrate later (fall run).

“Fish with the “heterozygous” EL genotype had intermediate migration times, overlapping with those of the homozygous genotypes. The migration times of EL salmon were skewed toward the spring run, but some overlapped with fall-run salmon.

“According to Garza, these results show that seasonal differences in migration are completely attributable to the RoSA genetic variants. “That was an extraordinary finding,” he said. “I know of no other gene region that so completely determines a complex migratory behavior in the wild in a vertebrate.”

“This finding is especially striking because people have long noted differences between spring-run and fall-run salmon in their fat content and other features, which were presumed to be part of a suite of heritable traits characterizing the different runs. But in fact, Garza said, all those differences are tied to the timing of migration as determined by the RoSA genotype.

“Spring-run salmon enter freshwater early in the year, where they encounter different environmental conditions, notably warmer water, which likely accelerates their maturation. The fish spend the summer in cool, deep pools near their spawning habitat before spawning in the fall.

“People notice differences in fat content and body condition because they are encountering spring-run fish earlier in the maturation process than fall-run fish,” Garza said. “Spring-run and fall-run fish all start maturing at the same time in the ocean, but during that period after the spring run enters freshwater, they experience different environmental conditions, leading to differences in where and when they spawn.”

“When the researchers sampled the carcasses of salmon that had died after spawning in the Salmon River, a major tributary of the Klamath, they found evidence that the spring-run and fall-run salmon were freely interbreeding. The ratios of EE, LL, and EL genotypes were close to what would be expected for random mating patterns. Garza noted that if two EL fish mate, their offspring will include EE, LL, and EL fish.

“In other words, a spring-run salmon can have a fall-run sibling.

“It’s hard to come up with any scenario where you could classify individuals from the same nest as belonging to different populations,” he said. “For me, one of the underlying messages is that, in our attempt to categorize things, we’ve overlooked the fact that these are fundamentally the same animal.”

“The researchers extended their survey of post-spawning carcasses to rivers throughout northern California and the Siletz River in Oregon. Again, they found that heterozygous (EL) fish were widespread where early-migrating fish occur and suitable habitat for them exists”

Retrieved October 30, 2020 from https://news.ucsc.edu/2020/10/chinook-salmon.html

About David H Lukenbill

I am a native of Sacramento, as are my wife and daughter. I am a consultant to nonprofit organizations, and have a Bachelor of Science degree in Organizational Behavior and a Master of Public Administration degree, both from the University of San Francisco. We live along the American River with two cats and all the wild critters we can feed. I am the founding president of the American River Parkway Preservation Society and currently serve as the CFO and Senior Policy Director. I also volunteer as the President of The Lampstand Foundation, a nonprofit organization I founded in 2003.
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