Budd/Deschutes Environmental Stewardship Coalition signing ceremony
Here is a video featuring the speakers at the Budd/Deschutes Environmental Stewardship Coalition signing ceremony earlier this week.
Budd/Deschutes Environmental Stewardship Coalition Update
UPDATE: Lacey City Council unanimously passed a resolution to sign the MOU last night. That means all have agreed and the signing ceremony on Nov. 29th is on.
The Olympia City Council voted unanimously to approve signing the MOU forming the Budd/Deschutes Environmental Stewardship Coalition tonight. The City of Yelm and the Squaxin Island Tribal Council unanimously voted in favor last week. If the City of Lacey approves the MOU this Thursday, there will be a signing ceremony at the Squaxin Museum on Nov. 29th at 3:30pm.
Here’s the video from that portion of last night’s meeting.
Relationship between new Deschutes Coalition and Capitol Lake
A couple of people have inquired about how the new coalition between the cities and tribe will address Capitol Lake issues. Well, the short answer is it won’t — at least not in the near future.
The fate of Capital Lake is an issue much larger than the coalition. The coalition has been set up to get things done, not plan or debate. We are focused on funding and taking priority actions in the watershed where the implementation can begin immediately–like the mouth of Lake Lawrence which the Ecology TMDL technical report identified as a hot spot for summer water temperatures and the Cities of Olympia, Lacey and Yelm have purchased for mitigation and restoration. Once the fate of Capitol Lake is clear, the coalition will evaluate if and how it can contribute.
While no government policy positions have changed as a result of the formation of the coalition, it is important to remember that the science still says that fixing the environmental issues in the upper watershed will not fix the problems in Capitol Lake!
King 5 on the Deschutes Watershed Environmental Stewardship Coalition
New Deschutes Watershed Coalition Formed
On-the-ground habitat restoration projects will be the focus of a new coalition to jumpstart salmon productivity in the Deschutes River watershed. The Squaxin Island Tribe and the cities of Olympia, Lacey and Yelm are establishing the Deschutes Watershed Environmental Stewardship Coalition.
“The Deschutes coalition will be an ongoing alliance to fund and conduct on-the-ground projects to restore a healthy watershed,” said Andy Whitener, natural resources director for the tribe. “The coalition will put words into actions and start restoring productivity to the Deschutes River.”
Initial projects are slated for the 197-acre farm on the Deschutes River near Lake Lawrence that the cities recently purchased as part of mitigation for their new water rights.
Smith Farm near Lake Lawrence
In the past, the Deschutes River was the largest producer of coho salmon in deep South Sound. A landslide in 1990 destroyed the most productive coho tributary in the watershed. “The impact of that landslide is still being felt throughout the watershed,” said John Konovsky, environmental program manager for the tribe. “But we know the Deschutes can be a productive salmon stream again.”
“Thirty years ago, we were seeing coho returns in the tens of thousands, now we’re talking about coho runs in the hundreds,” said Jeff Dickison, assistant natural resources director. “We need to get our hands dirty now to improve coho habitat and bring back stronger runs.”
Because the upper Deschutes River is relatively undeveloped – less than 10 percent has been converted to impervious surface – its still possible to restore salmon habitat and productivity. “If we restore some habitat and give these fish half a chance, they’ll recover,” Dickison said.
“The tribe’s treaty rights, economy and way of life are meaningless if we aren’t able to harvest salmon,” Whitener said. “Protecting and restoring salmon habitat is the most important thing we can do to restore coho and protect our treaty right to fish.”
2011 Squaxin Salmon Catches at a Glance
The Squaxin Island Tribes salmon fisheries started off slow but appear to be at or above recent year averages, with exception of coho.
Our harvest of Chinook was above average at 7, 839. Approximately 4,968 Chinook made it past our fishing efforts to Tumwater Falls Hatchery. Tumwater Falls reached the needed egg take goal to continue production for our Fall Chinook run at 4.6 million eggs, as well as 2 million egg surplus to support other programs of need.
Coho for the second straight year was dismal. We harvested 5,255 coho in 2011. This number may be bigger given that a number of fishermen sold fish over the bank to theTeamstersBeachvisitors, sport fishermen and others. It is not too late for fishermen to report over the bank sales by calling the Squaxin NR office. Coho returns for the entirePuget Soundhave been at all time lows for the past two years. PoorOceansurvival and poorPuget Soundsurvival when our fish are released from the Net Pens are some theories to as why we are seeing low returns recently.
Our chum fisheries are managed according to escapement goals of wild chum stocks. For example Totten Inlet escapement goal is 11,500 chum. Each week Kennedy Creek and the surrounding Totten Inlet Creeks are walked to count chum to be used to calculate the escapement. Each inlet escapement is carefully monitored and fisheries are scheduled accordingly to ensure escapement goals are met.
The last stream count on Kennedy resulted in 5,820 live chum and 278 dead chum. We are well on our way to the 11,500 escapement goal in Totten. This years Eld escapement goal is 14,500 chum.
To date our chum catches are at 19,164 and we have only had two directed chum fisheries. This years chum catches are on track to be at our above our five and ten year average catches.
If you have any questions please contact:
Joseph Peters
Squaxin Island Tribes Harvest Manager
360-432-3813 or email: jcpeters@squaxin.us.
Ancient Clam Gardens and Deepwater Sand Lance Habitat
Ancient clam gardens and deepwater sand lance habitats are just two of the many varied topics that were interesting at the biennial Salish Sea Ecosystem Conference held in Vancouver British Columbia this October.
Researchers fromSimonFraserUniversitylooked at the effectiveness of ancient shellfish gardens created onQuadraIslandinBritish Columbia. In these gardens, first nations’ peoples cleared rocks and small boulders down to the low ends of beaches to construct a sill. These cleared areas filled in with smaller sized sediment particles and created areas of higher quality clam habitat. The sill wall also acted to deter some predators and was thought to increase larval retention. When coupled with the first nations’ husbandry practices of removing predators to increase survival and removing competitors to increase growth they achieved clam aquaculture in a form that is not much different from what is practiced today.
Another interesting presentation was of a study using acoustic multibeam ecosounder data, seafloor video, and sediment samples to identify and sample subtidal habitat in the San Juan Channel of the Pacific sand lance. The sand lance is known to utilize near shore sandy substrates for burrowing emerging in daylight hours to forage in open water. Sandy upper intertidal beaches are used by adults for spawning and egg deposition. With this work, the natural history of the Pacific sand lance in its subtidal habitat has been greatly expanded. A predictive model that uses seafloor characteristics of sediment wave fields was developed to locate potential subtidal sand lance habitats. Densities of sand lance captured in this study were much higher than what has been reported intertidally, averaging 84 fish/m2 rather than only 5 fish/m2. What I found the most intriguing was the collection of a single sand lance egg found in one of 59 samples. This could indicate a low density late season subtidal spawning area that could be considered a “critical” habitat or just be an anomaly.
Overall the conference presented a wide variety of interesting topics and studies about theSalishSea, its inhabitants, and how they interact with each other. The Salish Sea Ecosystem Conference was an excellent opportunity to hear from and collaborate with researchers, policy makers, and natural resource managers.
Pesticides in Streams Harm Coho
One of the talks at the recent Salish Sea Ecosystem Conference showed how common household pesticides that are considered safe individually are lethal to juvenile coho when they are combined. The author found that the mixing of chemicals was either additive or synergistic meaning that the pesticides reacted with each other to become far more potent then if they were acting alone. Several mixtures that they looked at were found to be 100% lethal to coho.
Since 1996 the Environmental Protection Agency has mandated that chemical mixture testing be done for human health risks. However, in the aquatic environment the testing for chemicals is done only in isolation even though sampling of streams has shown that over 90% of the time multiple pesticides are found mixed together. Other studies have shown that coho essentially disappear from streams when the percent of impervious surface in the watershed reaches 10-15 percent. If legal and common household pesticides are part of this problem then recovering or protecting streams will be a much bigger challenge than previously thought.
http://www.salishseaconference.org/
Excess Nutrients increase Ocean Acidification
Nutrient loading and its effects on the health of the Salish Sea was a topic covered from a variety of perspectives at the recent Salish Sea Ecosystem Conference in Vancouver, BC. The most common threat from elevated nutrients is hypoxia, or dangerously low levels of dissolved oxygen as is found at times in Hood Canal. But another threat is emerging and was discussed at the conference. Excess nitrogen can add to the decrease in Salish Sea pH we are experiencing from climate change and which is threatening the shellfish industry.
Excess nitrogen in the marine environment fuels algae growth. When the algae dies and is decomposed by microbial action, CO2 is produced–the more algae, the more CO2. This CO2 from microbial respiration has the same effect as atmospheric CO2–it lowers pH. Thus CO2 in marine waters has two sources–the atmosphere and microbial respiration. And, as anthropogenic sources of nutrients increase algae growth, acidification and all its damaging consequences are accelerating.
What is most alarming is that the combination of the two sources of CO2 (atmosphere and respiration) seems to have more than an additive effect–there is some sort of synergy that lowers pH beyond what would be expected from the sum of the predictions for each of the two sources when modeled alone. In the context of the relatively limited water circulation found in the Salish Sea and especially in South Sound where nutrients tend to linger for long periods of time, this emerging science increases the urgency to control or treat all sources of excess nutrients to help compensate for the effects of climate change.