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UW
Launches $4.1 Million Effort To Track Salmon With Genetic Markers
The ability of salmon to migrate such extraordinary distances makes it hard at a management level to know whose fish are whose and at a biological level to unravel the mystery of their ocean migration.
The record holder in the
A $4.1 million effort
just launched by the
Jim and Lisa Seeb, known
for their groundbreaking work identifying salmon populations using
genetic markers, joined the UW this fall as research professors. Genetic
markers are key bits of a fish's DNA that, when compared to the same
spots on the DNA of other fish, can reveal if they are from the same
population or not.
Genetic markers are being
employed to study the human genome. The process, sometimes referred to
as DNA fingerprinting in humans, could be called DNA
"fin-printing" for fish when a bit of tissue from a fin is
used for the analysis.
Prior to genetic markers,
fisheries scientists primarily relied on capturing young fish, putting
metal or plastic tags on them and then releasing them in hopes they
would be caught by a fisherman willing to return the tags to scientists.
Discerning which rivers
and lakes salmon came from can be crucial when, for instance, countries
negotiate fishing agreements or local managers decide if they should
curtail fishing because high numbers of a vulnerable population are
found to be part of a run.
Using genetic markers is
one of the most rapidly growing fields in fisheries today, Jim Seeb
said. Current UW faculty are already leaders in using genetic markers to
understand where marine fish and shellfish -- such as cod, abalone and
salmon -- spend their lives, how they adapt to their environments and
handle effects of human activities and environmental change.
Groups including state
and federal agencies in the
"The $4.1 million
from the Gordon and Betty Moore Foundation to the UW will help promote
development of new genetic markers and provide a pathway for these
markers to be shared by interested labs in
The Seebs, who've been
working for the Alaska Department of Fish and Game, are considered
leaders in using single nucleotide polymorphism markers, referred to as
SNPs and pronounced "snips." Identified by chemically treating
a small bit of tissue, SNPs are differences along strands of DNA that
roughly match among members of a single population but differ between
populations. Salmon hatched in a certain drainage, for example, will
share a SNP profile different from that of salmon hatched in other
drainages.
A big key to successful
databases, the Seebs say, is using a genetic marker that will ensure
that instruments in
The UW School of Aquatic
and Fishery Sciences already has created a large database on the ranges
of high-seas salmon from physical tagging efforts and the new program
will work closely with the school's existing High Seas Salmon Project.
The school also has a wealth of salmon and environmental data collected
as part of its Alaskan Salmon Program, established 60 years ago before
"We feel extremely
fortunate to have a chance to build this new program at the
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Source: http://www.cbbulletin.com/Free/247147.aspx