Tag Archives: Washington Stormwater Center

A difference between chum and coho salmon may be in their blood

On the outside, chum and coho salmon don’t seem all that different from one another, not when you consider the variety of fish in Puget Sound — from herring to halibut along with dozens of other odd-looking creatures (EoPS).

But we know that if you place coho in stormwater taken from a heavily traveled roadway, the coho are likely to die within hours. But if you do the same thing with chum, these hardy fish will barely notice the difference.

In this photo taken two years ago, Jenifer McIntyre describes her discoveries about rain gardens at the Washington Stormwater Center in Puyallup. Photo: Meegan Reid, Kitsap Sun
In this photo taken two years ago, Jenifer McIntyre describes her discoveries about rain gardens at the Washington Stormwater Center in Puyallup.
Photo: Meegan M. Reid, Kitsap Sun

Researchers began to observe the varying effects of pollution on different species of salmon years ago. In 2006, I reported on studies by researcher Nat Scholz of the National Marine Fisheries Service, who discovered that coho would swim into Seattle’s heavily polluted creeks to spawn, but they wouldn’t get very far. Within hours, they would become disoriented, then keel over and die. (Kitsap Sun, June 10, 2006)

Later, Jenifer McIntyre, a researcher with Washington State University, collaborated with Scholz to refine the studies, exposing adult coho and later young coho to stormwater under controlled conditions. Much of that work was done at the Suquamish Tribe’s Grover’s Creek Hatchery in North Kitsap. The researchers also measured the physiological effects of pollution on zebrafish embryos during their early stages of development.

Working at the Washington Stormwater Center in Puyallup, Jen made a remarkable discovery that has dramatically changed people’s thinking about stormwater treatment. She found that if you run the most heavily polluted stormwater through a soil medium containing compost, the water will no longer have a noticeable effect on the sensitive coho. Rain gardens really do work.

Jen’s findings and related stormwater issues were described in a story I wrote two years ago for the Kitsap Sun, “Stormwater solutions key in fight for Puget Sound.” The story is part of a two-year project we called “Taking the Pulse of Puget Sound.”

Now, Jen, who recently joined the faculty of WSU, is beginning a new phase of her research, probing deeper into the physiological responses of coho salmon when exposed to polluted stormwater. She told me that the varying responses of coho and chum offer clues about where to look for problems.

“It is very interesting,” she said. “As biologists, we understand that there is variability among species. But we would expect, at least among salmon, that things would be pretty much the same.”

Researchers in Japan have discovered that different kinds of fish have different subunits in their hemoglobin, which are the proteins in red blood cells that carry oxygen to the vital organs. Since coho and other salmon may have different forms of hemoglobin, oxygen transport in the blood is a good place to start this investigation, she said.

From there, the issues of blood chemistry get a little technical, but the ability of red blood cells to carry oxygen can depend not only on the form of hemoglobin but also on the pH (acidity) of the blood, she said, and that can be altered by drugs and other chemicals.

Another thing that researchers may be seeing is “disseminated intravascular coagulation,” a condition that results from clotting in the lining of the capillaries. DIC can reduce or block blood flow where it is most needed and eventually cause organ damage. That’s an area for more research, Jen said, noting that these investigations are moving forward in collaboration with researchers at NMFS and the U.S. Fish and Wildlife Service.

Meanwhile, Jen is working with chemists at the University of Washington’s Center for Urban Waters in Tacoma to figure out which substances — out of hundreds of chemicals found in stormwater — could be causing these deadly effects on fish.

If isolating the dangerous compounds proves too difficult, researchers might be able to start with the original toxic sources, perhaps exposing fish to chemicals found in tires, oil, antifreeze and so on, Jen said. For those effects, it might be good to begin the investigation with the well-studied zebrafish embryos, which are transparent and can be observed closely throughout their embryonic development.

Needless to say, this is a field of intense interest. If researchers can discover what is killing coho, they might begin to understand why the recovery of chinook salmon in Puget Sound has been so slow. Chinook, which could be added to Jen’s studies, are listed as a threatened species under the Endangered Species Act and are the preferred prey of Puget Sound’s killer whales, which are listed as endangered.

Two recent articles discussed the relative hardiness of the chum compared to coho salmon:

Post to Twitter Tweet This Post

Stormwater: Can we stop the menace we created?

I’ve completed the seventh story package in a 10-part series examining the Puget Sound ecosystem, with a special focus on indicators of ecological health. We’re calling the project “Taking the Pulse of Puget Sound.”

Jenifer McIntyre of the Washington Stormwater Center studies the effects of stormwater after it passes through filters made of compost and soil materials, such as what is used in rain gardens. The filters are working, even though the most dangerous pollutants remain unidentified. Photo by Meegan M. Reid
Jenifer McIntyre of the Washington Stormwater Center studies the effects of stormwater after it passes through filters made of compost and soil materials, such as what is used in rain gardens. The filters are working, even though the most dangerous pollutants remain unidentified. / Kitsap Sun photo by Meegan M. Reid

The latest stories, which ran Sunday and Monday, addressed freshwater quality. The opening piece looked at the huge amounts of pollution coming into our streams via stormwater — one of the highest priorities for cleanup, yet one of the most difficult to deal with.

As the Puget Sound Partnership’s executive director Sheida Sahandy told me, industrial discharges are still a concern, but they are no longer the biggest problem.

“Now we’re dealing with stormwater, which is trickling in here and trickling in there, and everybody has a finger in it,” she said.

Solutions are many, and the goal should be to shut off pollution at the source, beginning with removing dangerous chemicals from everyday products. Since the sources of pollution are numerous, everyone needs to play a part — from cleaning up pet wastes to properly using of household chemicals to reducing the use of lawn and garden pesticides. (Those who don’t subscribe to the Kitsap Sun may still find value in the graphics on the Freshwater Quality page.)

I led off the first story by showing the increased efforts by city and county governments to better manage their stormwater systems, such as pumping out their catch basins, sweeping their streets and converting outdated stormwater ponds into filtration systems, commonly known as “rain gardens.”

I also introduced readers to the Washington Stormwater Center, a research facility in Puyallup where scientists are testing the effectiveness of rain gardens and pervious pavement. Jenifer McIntyre, a Washington State University researcher, has demonstrated that stormwater from highway runoff is 100 percent effective at killing adult coho salmon. Yet that same stormwater filtered through soil — such as in a rain garden — is cleaned up enough that fish can survive, apparently unaffected.

Monday’s story addressed the increasing use of benthic invertebrates — water bugs — to measure the health of streams. The bugs are doing double duty, since they are both a measurement of stream quality and a critical part of the food web for the freshwater ecosystem.

Some 27 local governments and organizations are involved in collecting data on benthic invertebrates from about 850 stream locations throughout Puget Sound. For results, check out Puget Sound Stream Benthos.

When I began this project on freshwater quality several weeks ago, I thought it was going to be easier than some of the other story packages I have done, such as on fish, birds and marine mammals. If anything, this issue is more complex. I’ll admit that I’ve neglected this blog while pursuing these issues, and soon I will be moving into the issue of freshwater quantity.

Overall, I must say that I’ve been impressed by the many people dedicated to finding answers to the mysterious problems brought on by pollution and by those finding solutions even before the questions are fully identified.

Post to Twitter Tweet This Post