[env-trinity] FW from George Guillen: Klamath Herald and News- Parasite spreading concernon Klamath River
Tom Stokely
tstokely at trinityalps.net
Tue Jun 15 06:18:22 PDT 2004
----- Original Message -----
From: George Guillen
To: 'Tom Stokely'
Sent: Monday, June 14, 2004 7:28 PM
Subject: RE: [env-trinity] Klamath Herald and News- Parasite spreading concernon Klamath River
FYI,
I think Dylan must have mis-quoted Dr. Barholomew:
"The microscopic parasite spends part of its life floating in the river as a tiny, 3-millimeter-long worm, said
Jerri Bartholomew, an assistant professor of
microbiology at Oregon State University."
** WRONG - the free swimming microscopic parasite infects the an invertebrate host - a polychaete worm. It alternates between infecting this host and the infected fish.
Most of the rest of the story is close enough.
Also, I think based on the information provided at the Klamath Symposium it is clear that there are other variables the influence the life history of this parasite and it's intermediate worm host. The data presented by Dr. Bartholomew regarding the small scale distribution of the polychaete host points also to the need to consider habitat, velocity, and the role of nutrients. There is an urgent need to evaluate the effect of the "modified" river including flow regime, velocity, changed habitat, and nutrient dynamics on the survival of the "worm" and C. shasta. Maybe what is needed is evaluation and development of HSC for the worm host!
However, flow is a controllable variable that should effect the density and transmission rate of the parasite, assuming all other modifying variables remain constant.
George G.
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From: env-trinity-bounces at velocipede.dcn.davis.ca.us [mailto:env-trinity-bounces at velocipede.dcn.davis.ca.us] On Behalf Of Tom Stokely
Sent: Monday, June 14, 2004 1:57 PM
To: env-trinity
Subject: [env-trinity] Klamath Herald and News- Parasite spreading concernon Klamath River
http://www.heraldandnews.com/articles/2004/06/10/news/top_stories/top1.txt
Parasite spreading concern on Klamath River
Published June 10, 2004
By DYLAN DARLING
A parasite that is causing infection and death among young salmon in the lower Klamath River is raising
concerns for federal and state officials and other water
interests.
The high level of infection in fish comes as a surprise because water conditions in the river are relatively
good, sources say.
"It has us real worried," said Dave Sabo, manager of the Klamath Reclamation Project.
U.S. Bureau of Reclamation officials are worried that the Klamath Project will be blamed if something
happens to salmon fingerlings being sent down the river
from the Iron Gate fish hatchery near Yreka.
The parasite Ceratomyxa shasta, called C shasta for short, is common in the main stem of the Klamath River
system, from the Pacific Ocean to the Williamson
River.
The microscopic parasite spends part of its life floating in the river as a tiny, 3-millimeter-long worm, said
Jerri Bartholomew, an assistant professor of
microbiology at Oregon State University.
The worms find their way into the digestive tracts of salmonid fish, which include salmon, steelhead and
trout.
Some fish are resistant to the parasite. Most are not.
Inside the fish's intestine, the parasite feeds on tissue and reproduces, often killing the fish by causing an
infection.
Depending on the water temperature and other factors, the fish will die within 20 to 30 days after the
parasite has entered it. The warmer the temperature, the
faster the spread of the parasite and possible spread of infection.
"We are seeing a high incidence of disease in our out-migrant fish," said Toz Soto, fisheries biologist for the
Karuk Tribe, one of the downstream tribes.
"It's always around, but we are really concerned because the infection rate seems to be really high this year,"
Soto said.
In early May, scientists on the Klamath River started finding dead salmon fingerlings in traps between I-5
and the Scott River, said Al Donner, spokesman for the
U.S. Fish and Wildlife Service. The parasite has killed 50 to 80 percent of the young salmon in some places.
At the Happy Camp trapping site on the river, tribal scientists found 75 to 80 percent of the young salmon
headed downstream appear to be suffering from
infection.
Officials and scientists couldn't immediately estimate how many total fish the parasite might kill. It's
presumed that some dead fish can't be seen in the murky
water, and that birds consume many dead fish before they are seen by scientists.
Adding to the mystery of the infection outbreak is the lack of stressful conditions often blamed when fish start
dying.
"The temperatures are good and the oxygen levels are good for fish," said John Engbring, director of the Fish
and Wildlife Service's California and Nevada
Operations office in Sacramento.
He said scientists will continue to collect samples to try to figure out what is causing the parasite to spread.
"At this point, we don't know if this is more natural, or if there are some human causes that are making it
more significant," Engbring said.
Sabo said the Bureau is doing what it can to help the situation, but higher flows might not be the answer.
"We want to make sure that the fishery is as healthy as it can be," Sabo said.
Observers hope the infection doesn't affect as many fish as it did in 2000, when an estimated 300,000 young
salmon and steelhead died from the same parasite
and a fungus that attacks the gills.
The California Department of Fish and Game released more than 5 million fish from the Iron Gate Fish
hatchery over the past month.
The fingerlings were released a million at a time, about four or five days apart, with the first release on May
13 and the last on June 3, said Kim Rushton,
hatchery manager. The hatchery also held back 900,000 young salmon to be released in the fall.
The C shasta parasite is just one of the many dangers salmon face in their life cycle. Larger fish, birds, seals
and fishermen all take a toll on fish populations.
"You raise millions to get a few thousand back," Rushton said.
He said the average return for each run of adult chinook salmon is 10,000 to 15,000. The hatchery needs
8,000 adults to collect eggs.
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