Salmon Enhancement

Rockfish

Well-Known Member
This is interesting; the decline over the years in the numbers/size of Salmon and Steelhead could be linked in part to the reduction of nutrients and therefore the food supply when they are young. Perhaps we will start to see a return of larger size salmon in years to come or a least more of them.

I looked up the BC Conservation Foundation and it looks like DFO is a partner in that organization which is one of the organizations that are supporting this project along with many others. Something to praise DFO on; you don't hear that much on this forum do you?


Fertilizers boost declining B.C. fish populationsenhancement
Fry grow up to 95-per-cent bigger in streams treated with nutrients, fisheries biologists say
By RANDY SHORE, Vancouver Sun February 13, 2011 Comments (2)
•Story•Photos ( 1 )
Young steelhead and salmon grew dramatically in streams seeded with sacks of slow-release fertilizer, a method that shows real promise to help rebuild collapsed spawning populations, according to B.C. biologists.Photograph by: Ric Ernst, PNG filesYoung steelhead and salmon grew dramatically in streams seeded with sacks of slow-release fertilizer, a method that shows real promise to help rebuild collapsed spawning populations, according to B.C. biologists.

The method has proven effective at improving steelhead growth and survival in Vancouver Island streams in programs dating back to 1989.

Steelhead fry in treated areas are typically about 95-per-cent larger than those in untreated streams, while coho fry are about 40-per-cent bigger. Fish counts in the Keogh River found a 50-per-cent increase in the number of coho that survived the freshwater stage of life.

Fisheries biologists are using fertilizers to replace the nutrients that would be added to the stream naturally by the rotting carcasses of fish that die after spawning, said Kevin Pellett of the B.C. Conservation Foundation. Enhancement programs are operating in 15 watersheds and 28 rivers on the Island and southwestern B.C.

When spawners fail to return, die and rot due to overfishing or ecological conditions, the entire food chain of the stream, from algae and insects to fish fry, goes into decline.

The fertilizers are designed to stimulate growth of certain algaes that in turn cause the populations of insects such as mayfly and stonefly to thrive. Juvenile salmon and steelhead fry feed on those insects.

“When you fertilize a stream it really stimulates algae growth,” said Pellett. “It’s the brown slime that we are really after because the key insects prefer the brown diatomaceous algae.”

Steelhead fry growing downstream from the fertilizer caches are bigger and typically 75- to 250-per-cent heavier than those upstream, which would not be expected to benefit from the improved food supply, according to the most recent data. Larger, more robust fish are more likely to survive and return as spawning adults.

“When those fish go into key overwintering periods, that’s where you see a lot of mortality,” Pellett said.

“The bigger those fish are, the more of them will survive.”

The first application of fertilizer is timed to benefit the tiny steelhead and coho fry that hatch and emerge from the stream bed gravel in the early spring.

Since the first stream enhancement programs started in 1989, a variety of fertilizers and delivery systems have been employed, including liquid fertilizers and fish meal.

“We’ve since switched to a new product called Crystal Green,” he said.

Crystal Green is a slow-release agricultural fertilizer comprised of nitrogen and phosphate recovered from municipal waste water using a technology invented by civil engineers at the University of B.C. The Vancouver-based manufacturer, Ostara, is harvesting a waste material called struvite for the fertilizer from the sewage stream in suburban Portland.

“This is not a panacea, but it is a good tool to increase productivity and it may increase the rate of rebuilding [spawning populations] if we see an increase in the ocean survival,” according to Greg Wilson of the Ministry of Natural Resource Operations.

“[Struvite] is one of the most cost-effective techniques that we have to help out populations,” said Wilson. “Using recycled phosphorus really reduces the carbon footprint of the project, because fertilizer is quite energy intensive to make.”

Testing on Crystal Green showed the material is extraordinarily pure with few measurable contaminants or metals.

“It’s the cleanest fertilizer we’ve ever worked with,” said Wilson.

Metro Vancouver is running a pilot project at the Lulu Island sewage treatment facility to produce its own version of the fertilizer to be used in the Seymour River, Wilson said.

Crystal Green Pellets are dropped into the stream in burlap sacks, which decay over time. That simple system eliminates the need for expensive liquid fertilizer delivery systems that require maintenance and that are prone to vandalism.

The concept of fertilizing fish habitat dates back thousands of years to China, where carp ponds were fertilized with human feces, Wilson explained.

More recently, the federal and provincial governments have partnered with conservation organizations since the 1990s to fertilize a number of lakes in B.C. with the aim of improving trout and kokanee salmon populations.

Nutrient additions to the Allouette Reservoir in 1999 generated a 12-fold increase in the resident kokanee population and sparked the first adult sockeye returns to the reservoir since 1928, he said.

That unexpected result gives fisheries biologists hope that this approach could help B.C.’s collapsed salmon spawning populations recover enough to become self-sufficient again.

Steelhead and coho in the test streams benefit from two seasons of enhanced growth, the first as tiny fry and the second as a smolt ready to begin its adult life.

Pellett says hatchery data show that the larger salmon smolts are when they leave freshwater for salt water, the more adult spawners return. Fertilizer-based enhancement programs are sending bigger smolts to sea and more smolts overall.

“The more smolts we send out the more adults we get back,” he said.

As spawning populations grow, the rotting carcasses of dead spawners are expected to regain their position as the natural source of elemental nutrients in spawning streams.

“We are starting to see critical mass developing in the steelhead and coho populations on Vancouver Island,” Pellett said.

The Vancouver Island fertilizer enhancement programs are run by the B.C. Conservation Foundation with support from the province, Living Rivers — Georgia Basin Vancouver Island, Habitat Conservation Trust Foundation and a handful of other conservation organizations.

rshore@vancouversun.com

© Copyright (c) The Vancouver Sun

Read more: http://www.vancouversun.com/technol...+populations/4275643/story.html#ixzz1DvFAOA8I
 
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would it not be more ecologically sound and mimic nature exactly to simply dump the fish carcases back into the streams? they started doing that around here some years ago. once the hatcheries reach their allocated egg taking, all of those other hatchery clones are bonked, checked for wire tags, loaded into a trailer and hauled to several area bridges and dumped.
 
Pretty sad we are having to rely on these sorts of methods to keep our fish stocks from possible extinction. Wouldn't it be nice if we could get back to the days where Mother Nature ran the show... good luck with that I suppose. At this point I think we need to be looking at all possible solutions though because if we don't we could be serious f'd in terms of wild salmon on the coast. When will Ottawa (and BC gov't for that matter) actually start to give a f*ck?
 
Yes-- thats the way its done on the Puntledge River and a few others on Vancouver Island


"would it not be more ecologically sound and mimic nature exactly to simply dump the fish carcases back into the streams? they started doing that around here some years ago. once the hatcheries reach their allocated egg taking, all of those other hatchery clones are bonked, checked for wire tags, loaded into a trailer and hauled to several area bridges and dumped"
 
Adding fertilizer (nutrients) to water bodies to increase productivity is not a new idea; it has been done for years. It is a successful technique improving the survival of sockeye fry rearing in lakes.
It has been used on Great Central, Henderson and other Vancouver Island lakes with good results. I believe it has also been used on the Keogh and Adam rivers to produce larger trout. The
additional nutrients produce increased phytoplankton growth which, in turn, supports more zooplankton which the salmonid fry feed upon. This produces larger smolts going to sea and because
of this, their survival is also increased.
 
There was a segment on chek 6 last week where they layed out chum salmon carcases to add nutrients to Colquitz Creek system.
 
It was also done in the Great Lakes many years ago - on purpose and not - only to find that if dosed too high and too long the lake will flip and it will have the reverse effect. It should be done very carefully and only to make up for the lack of nutrients from salmon carcasses. Artificially boosting the production of a natural ecosystem is usually not a good idea. Best to leave nature alone. But in some cases, temporarily and under close observation it can achieve positive results.
 
Fertilizing streams is not a new idea by any means. Some of it is "accidental" (ie the wonderful Bow River in Alberta with it's monster rainbows and Browns) as runoff from farmland ads phosphates to the water encouraging plant growth which in turn increases both insect and baitfish populations. The second option is through the addition of chemicals in slow release pellets by "seeding" the stream.

But now there is a third option which was developed just south of us in Oregon and Washington. They came up with an all natural fertilizing system made from the remains of processed fish. Called Salmon Analogs, they are the equivalent of a salmon carcass but in a semi-dried pellet form. 100 pounds of pellets is the equivalent of 500 pounds of fish carcasses. The pellets are spread throughout the stream and become lodged in the rocks at the bottom which helps them from being swept away by current. They then slowly disintegrate just like a rotting Salmon Carcass adding valuable nutrients to the food chain and promoting increased and accelerated growth in all forms of aquatic life.

The advantage to these pellets is that they are odorless, transport easily, and are all natural having no negative effect on the environment and not adding excess phosphates to the water which can create stream choking weed growth if over done. The Analogs are also pasteurized to kill off any viruses or pathogens such as whirling disease.

I'm sure with the commercial fishery in as much trouble as the sport fishery, it would not be difficult to convince them to supply the processed carcasses at no charge to the DFO or any enterprising individual that might be interested in producing them here and aiding in the improvement of Canadian fisheries. The other advantage is that any fish carcass can be processed into the pellets. Putting the nutrients back into the ecosystem instead of the landfill would probably go a very long way to helping put things back into balance in our salmon and Trout fisheries.
 
There was a segment on chek 6 last week where they layed out chum salmon carcases to add nutrients to Colquitz Creek system.
I know they have been doing this at Douglas Creek which runs into Cordova Bay. This is probably what you saw on Chek 6. They are not putting chum carcasses into
Colquitz Creek. Colquitz is a very productive urban creek and needs no help with additional nutrients. The coho smolts coming out of this system are larger in size than
those from Craigflower Creek. This is a direct result of the difference in watershed productivity.
 
My mistake S.S I caught the tail end of the new's cast it looked like the section under the hyway where burnside enters.They have been doing a lot of work on the Colquitz last few years, hope it all pays off for the Waterfront guys & everyone else for that matter.
 
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