Baker river Salmon Documentary

Paige

Wishing I was fishing the Sauk
Just seen this video on Baker River Sockeye that has our own @Salmo_g in it, and was quite interesting.

Steve, the whole video talked about Sockeye, but did mention Steelhead at one point.

Do you know what the numbers were of all species before and after the dams were installed? Especially Steelhead!

From the state " As of July 21, the state and tribal co-managers updated in-season forecast is 90,000 sockeye returning this season, headed for the Baker River and Baker Lake. The pre-season forecast was 60,214.

This year had over 54k so far, but the video stated 67k was the highest, but WDFW site gong back to 1970 stated the highest at 47k. Either way, thats a lot of fish!
 
There are whispers that Salmo was the impetus, if not the originator of the current transportation idea which makes it all work.
 
Paige, No one knows how many fish of each species were originally produced in the Baker River sub-basin, except for sockeye. The old US Fish & Wildlife Service operated a sockeye hatchery on Silver Creek on the historical Baker Lake, where the sockeye salmon run was up to 20,000 fish. Runs varied quite a bit as there were 28 fish traps operating in Skagit Bay in the early 20th century. Historical runs of other species are largely unknown, but steelhead were estimated in the range of 1,200 to 2,000 and up to 26,000 coho.

The Baker sockeye restoration has exceeded expectations, to say the least. I wrote a Baker River white paper in 1992 regarding restoration of the Baker River sockeye population, which in 1989 had fallen to just 99 returning adult salmon. In that paper, using examples from lakes in British Columbia and Alaska, I estimated that the two Baker hydroelectric reservoirs could produce enough sockeye smolts to create adult returns of about 60,000 sockeye. State and tribal harvest management biologists kinda' laughed at that, saying that would rival the sockeye run of the much larger Lake Washington system, and generally eclipse the Skagit River Chinook and coho runs. Oh well . . .

WW, I wouldn't say that I'm the originator of the Baker smolt passage system. Credit for that belongs to a cast of characters. I simply had the advantage of having been involved in one way or another with the Baker hydroelectric project's effects on salmon going back to about 1979, a long view, you might say. Puget Sound Energy (PSE) had to relicense the Baker Project under the Federal Power Act in 2006. I tried to get things going much earlier, but without the carrot and stick of the federal license, I had to rely on the goodwill of PSE. That resulted in some fish passage studies, but no major investments.

PSE understood that it was on the hook for fish passage under the new Federal Energy Regulatory Commission (FERC) license. Somehow I persuaded PSE to host a fish passage symposium for this purpose that would gather all the most experienced fish passage engineers in the country for a 2 or 3-day session in 2003 at the Baker Lodge to hash out the concept for a new fish passage system. Using a play on words, Mel Gibson had released a movie that year called "What Women Want," so I wanted to title the symposium "What Fish Want." I felt this was important because fish passage systems are expensive, and the track record is replete with fish passage plans that are modified by utility company bean counters such that the fishways are half-assed and half effective.

Section 18 of the Federal Power Act calls for fishways that are "safe, timely, and effective," so I tried to make that the over-riding consideration principle both at the symposium and in the fishway design. Over time, to my amazement, and to Puget's credit, company biologists and even the engineer in charge of relicensing bought in (they were paying for it, after all) to the fishway effort, and then there was no looking back. NMFS' engineer John Meyer, former WDFW engineer Ken Bates, and a couple consulting engineers that Puget hired produced a design that made the Baker Floating Surface Collector (FSC) a reality. I wrote the Section 18 fishway prescription that included the nearly impossible smolt collection efficiency standard of 75% (the details of which are far too long to include here). So PSE invested heavily, and they are really proud of owning and operating what appears to be the most effective smolt passage system on the planet. Puget produced a video that shows how the FSC works - it's a real puff piece for PSE, and I'm OK with that. Then they also produced a video about the Baker River ecosystem. I'm not sure which one Brian is referring to, but both used to be readily accessible on PSE's website, and maybe they still are.

At the time I retired, the Baker committee was testing to see if spring Chinook and steelhead might be restored to the Baker sub-basin the way sockeye - and let's not forget coho, they've come back gangbusters too - have. It looks like Chinook and steelhead don't take to reservoir migration as effectively as sockeye and coho do. So this kind of juvenile fish passage system may not be universally applicable to all species. Oh, bull trout are using the system as well, but the adults really like to hang out at the fishway entrance and eat sockeye smolts.

Sorry if this was a bit long winded, but projects like these are why I loved my job as a fish biologist.
 
...and all this time I always heard you destroyed the fisheries in this state.
:)

Interesting story, like to see the video.
 
Does anyone know off the top of their head if the Baker spawning beaches/ponds are being used for fry production? If not, I'll do some searching to find out but I did some volunteer work there a long time ago as part of my Skagit Valley College education and am wondering if there might be application of that approach to other areas as well. I'm curious if that is still being used for if it was discontinued.
 
The Baker sockeye restoration has exceeded expectations, to say the least. I wrote a Baker River white paper in 1992 regarding restoration of the Baker River sockeye population, which in 1989 had fallen to just 99 returning adult salmon. In that paper, using examples from lakes in British Columbia and Alaska, I estimated that the two Baker hydroelectric reservoirs could produce enough sockeye smolts to create adult returns of about 60,000 sockeye.
Thanks for your work on the project and the detailed recap here. The Baker lake sockeye season is a bright spot in PNW sports fishing.
 
Baker sockeye is indeed an impressive case of salmon recovery however there is a bug or two in that story!

NMFS in the Puget Sound Steelhead recovery plan lists the historic abundance of Skagit steelhead as 57,205 of which 5,495 (9.6%) were considered to be from the Baker. Those are just estimates of historic abundance though it would be fair to say that both Baker steelhead and Chinook are now functional extinct.

Of additional concern in the process of catching those sockeye in Skagit bay and the river itself (both tribal nets and recreational fisheries) there has been significant by-catches of adult bull trout. Additional factors such as climate change are also affecting the bull trout, I feel that by-catch has had the largest impact. Since 2014 the number of bull trout redds counted in spawning ground indexes have fall by approximately 80%. In addition to the decrease in the number of bull trout redds that number of the repeat spawners have also declined. Those old and larger repeat spawners are much more fecund (more eggs) leading to even large decreases in the number of eggs deposit in those redds and with fewer repeat spawners in the population the resilience of the bull trout has fallen.

While I have enjoyed fishing for those adult sockeye in Baker Lake from a multiple species view I consider the Baker story a failure: trading an artificial enhanced population for lower abundances of other species.

Curt
 
Does anyone know off the top of their head if the Baker spawning beaches/ponds are being used for fry production? If not, I'll do some searching to find out but I did some volunteer work there a long time ago as part of my Skagit Valley College education and am wondering if there might be application of that approach to other areas as well. I'm curious if that is still being used for if it was discontinued.
Of the original artificial spawning beaches, one is still in use, but passively, meaning adults are allowed to recruit to it on their own instead of being trucked to it. Four "new" artificial spawning beaches were constructed along with the "new" Baker hatchery near Sulphur Springs below Upper Baker Dam. The restored and enhanced Baker sockeye population is maintained by "not putting all the eggs in one basket." Some of the returning adults are placed in the new spawning beaches - I don't remember the number, but it is based on maximizing egg to fry survival; another about 4,000 adults are placed in holding ponds to be spawned for the hatchery using Alaska sockeye hatchery protocol to limit the effects of IHN, which is present in all waters and is especially virulent to sockeye. The remaining returning adults are hauled to Baker Lake (reservoir) to be enjoyed by the recreational fishery with the uncaught fish allowed to find natural spawning areas in tributary streams.

Smalma raises an important point regarding the impacts of the mixed stock fishery that the Baker sockeye run through. The Baker sockeye run timing is unique compared to nearby Fraser River sockeye stocks. The Baker sockeye run earlier than all the Fraser sockeye excepting the Early Stuart run, meaning very few ever get harvested in overlapping marine water fisheries. So nearly the entire population makes it back to Skagit Bay and the Skagit River. However, once in the river, the sockeye overlap with co-mingled spring and summer Chinook, the very few summer steelhead the Skagit supports, and bull trout. Impacts to other species could be entirely avoided if the managers wanted. The entire treaty share of sockeye could easily and efficiently be harvested right at the Baker adult fish trap. The trap is designed such that adult fish are shunted into flumes directing them to desired holding ponds. If wanted, they could be shunted directly into fish totes on trucks to be hauled to a fish processing facility. But that kind of commercial fishing "socialism" is frowned on by individual fishermen because the sale proceeds would go to the tribe. And the fishermen would forego the act of active fishing. Tribal fishermen insist on exercising their fishing rights such that the benefits of fishing - the dollars - flow directly to the person who catches the fish.

To reduce the impacts on other fish species, primarily the ESA listed Chinook, the treaty tribes do a lot of their sockeye fishing in that short stretch of the lower Baker River between the fishway and the Skagit, where the fish have self separated themselves from the other fish that remain in the Skagit. They also fish in the Skagit downstream of the Baker River to intercept migrating sockeye, and that is where the impacts to co-mingled species that Smalma refers to occurs.

If the Baker story is a failure, it's a failure resulting from playing the cards we were dealt. There is the fishery management failure of choosing to fish where mixed stocks occur when fishing for the segregated sockeye is possible. And there is the mitigation failure of restoring only sockeye and coho (and Baker bull trout, let's not forget!) but not restoring Chinook, chum, pink, and steelhead. The Baker hydroelectric dams were not going to be removed because, unlike the Klamath dams in California and the Elwha dams on the Olympic peninsula, the Baker dams are very viable economically. The combined reservoir and tributary habitat works for coho and sockeye salmon, but it doesn't work for steelhead and the other salmon species. The challenge remains to develop fishway systems that work effectively for these other species.
 
Of the original artificial spawning beaches, one is still in use, but passively, meaning adults are allowed to recruit to it on their own instead of being trucked to it. Four "new" artificial spawning beaches were constructed along with the "new" Baker hatchery near Sulphur Springs below Upper Baker Dam. The restored and enhanced Baker sockeye population is maintained by "not putting all the eggs in one basket." Some of the returning adults are placed in the new spawning beaches - I don't remember the number, but it is based on maximizing egg to fry survival; another about 4,000 adults are placed in holding ponds to be spawned for the hatchery using Alaska sockeye hatchery protocol to limit the effects of IHN, which is present in all waters and is especially virulent to sockeye. The remaining returning adults are hauled to Baker Lake (reservoir) to be enjoyed by the recreational fishery with the uncaught fish allowed to find natural spawning areas in tributary streams.

Smalma raises an important point regarding the impacts of the mixed stock fishery that the Baker sockeye run through. The Baker sockeye run timing is unique compared to nearby Fraser River sockeye stocks. The Baker sockeye run earlier than all the Fraser sockeye excepting the Early Stuart run, meaning very few ever get harvested in overlapping marine water fisheries. So nearly the entire population makes it back to Skagit Bay and the Skagit River. However, once in the river, the sockeye overlap with co-mingled spring and summer Chinook, the very few summer steelhead the Skagit supports, and bull trout. Impacts to other species could be entirely avoided if the managers wanted. The entire treaty share of sockeye could easily and efficiently be harvested right at the Baker adult fish trap. The trap is designed such that adult fish are shunted into flumes directing them to desired holding ponds. If wanted, they could be shunted directly into fish totes on trucks to be hauled to a fish processing facility. But that kind of commercial fishing "socialism" is frowned on by individual fishermen because the sale proceeds would go to the tribe. And the fishermen would forego the act of active fishing. Tribal fishermen insist on exercising their fishing rights such that the benefits of fishing - the dollars - flow directly to the person who catches the fish.

To reduce the impacts on other fish species, primarily the ESA listed Chinook, the treaty tribes do a lot of their sockeye fishing in that short stretch of the lower Baker River between the fishway and the Skagit, where the fish have self separated themselves from the other fish that remain in the Skagit. They also fish in the Skagit downstream of the Baker River to intercept migrating sockeye, and that is where the impacts to co-mingled species that Smalma refers to occurs.

If the Baker story is a failure, it's a failure resulting from playing the cards we were dealt. There is the fishery management failure of choosing to fish where mixed stocks occur when fishing for the segregated sockeye is possible. And there is the mitigation failure of restoring only sockeye and coho (and Baker bull trout, let's not forget!) but not restoring Chinook, chum, pink, and steelhead. The Baker hydroelectric dams were not going to be removed because, unlike the Klamath dams in California and the Elwha dams on the Olympic peninsula, the Baker dams are very viable economically. The combined reservoir and tributary habitat works for coho and sockeye salmon, but it doesn't work for steelhead and the other salmon species. The challenge remains to develop fishway systems that work effectively for these other species.
Thank you.

Since you (and Smalma) mentioned mixed stock fishery and I mentioned artificial spawning beaches for sockeye, I am glad to see they are using fish wheels in the Skeena but I'd rather see them discontinue the monoculture of sockeye in the Babine and let stocks rebuild on their own with common sense harvest numbers across the entire Skeena rather than fishing weaker stocks to low levels while trying to catch enhanced runs at extremely high exploitation rates that not only harms smaller sockeye stocks but allows high bycatch rates for other species, like steelhead. But that is another hotly-debated topic.
 
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