Tag Archives: Pacific oyster

Invasive species hitching a ride into Puget Sound

We hear about the “balance of nature,” but it’s not something that we can truly understand until the balance is thrown out of whack by something like climate change or invasive species.

Until I began a recent reporting project for Puget Sound Institute, I never realized that San Francisco Bay was such a hotbed of invasive species. Beginning with the California Gold Rush, ships began moving in and out of the bay in unbelievable numbers, arriving from ports all around the world. Now, more than 200 non-native species are making their permanent home in the bay — including some species that have thoroughly altered the local ecosystem.

So far, we have been lucky in Puget Sound. Experts say we have about 75 firmly established non-native species, yet none of them have created the widespread damage caused in San Francisco Bay by European green crabs and Asian clams or in the Great Lakes by zebra mussels. The video on this page does a good job of telling the Great Lakes story, which has been repeated all over the world.

Once people in Washington state realized how disruptive invasive species can be, the struggle was on to protect Puget Sound from alien invaders — particularly those found in San Francisco Bay, which is just a short hop away on the world scale. My series of stories talks about concerns for Puget Sound and the efforts to control a possible invasion.

Three weeks ago in Water Ways, I described legislation that would reduce state and federal controls over invasive species. See “Bill could increase risks of alien species invasions in Puget Sound waters.”

On the East Coast, where they are native, striped bass are one of the most popular sport fish. Here, Angela Anning of Connecticut shows off her impressive striper. On the West Coast, striped bass could be considered an invasive species. Photo: NOAA
On the East Coast, where they are native, striped bass are one of the most popular sport fish. Here, Angela Anning of Connecticut shows off her impressive striper. On the West Coast, striped bass could be considered an invasive species.
Photo: NOAA

Invasive species range in size from microscopic viruses to four-foot-long striped bass. In California, the striped bass became a prized sport fish after it was intentionally introduced in 1879. But over the past decade concerns have grown for their effects on the salmon population. The jury is still out on whether high numbers of stripers should be sustained for anglers or the population should be fished down rapidly to save salmon and other species. Check out these stories:

Meanwhile, striped bass have been moving up the West Coast, possibly because of warmer waters due to climate change. A few years ago, a 55-pounder was caught in the Columbia River, and I’ve heard rumors that they have been seen in the Strait of Juan de Fuca.

On the small side, I report on a tiny crustacean, an invasive copepod that has almost entirely displaced native copepods in Samish Bay in northern Puget Sound. Copepods are important prey for small fish, including herring, which feed the larger salmon. The invasive copepods are smaller and more difficult for fish to see, which could have a cascading effect on the entire food web.

Invasive copepod Oithona davisae under magnification Photo: Jeff Cordell, University of Washington
Invasive copepod Oithona davisae
Photo: Jeff Cordell, UW

A major concern for Puget Sound biologists is the European green crab, which could move into Puget Sound from San Francisco Bay in ballast water or with warm ocean currents during an El Niño year, like the one just past. As I describe in the new series, a major program involving citizen science volunteers is ongoing in a search to find the first green crabs before they gain a foothold.

Pacific oysters, another non-native species, were intentionally brought to the Northwest from Japan in the early 1900s to replace the native Olympia oyster, which had been decimated by poor water quality. Pacific oysters soon became a mainstay of the shellfish industry in the Puget Sound region and are now growing thick in numerous areas.

European green crab Photo: Washington Sea Grant
European green crab
Photo: Gregory C. Jensen, UW

Similar introductions of Pacific oysters occurred in California beginning more than 100 years ago, but for some reason the oyster populations never took hold, according to a report in the publication California Fish and Game (PDF 1.7 mb). Finally, in the early 2000s, the invasion began to take off.

“It remains unclear why there should be a successful invasion now, given the failure of previous attempts to deliberately introduce the species both locally and throughout California…,” the report says.

“If populations in Southern California waters do continue to expand and grow, as they have in other areas where they have invaded, it will undoubtedly bring changes to the way our estuarine intertidal habitats function as well as in the way we must manage them.

Pacific oyster Photo: Washington Sea Grant
Pacific oyster
Photo: Washington Sea Grant

“Because Pacific oysters rapidly reach large sizes, they could pose problems related to fouling of maritime equipment, infrastructure, and vessels,” the report continues. “Pacific oysters stand out as one of the most transformative invaders of marine ecosystems.”

As Washington state takes steps to keep alien species from invading Puget Sound from California, California officials may adopt similar measures to block invaders from coming into that state.

Please take a look at this package of stories I wrote for Puget Sound Institute, with editing by Jeff Rice and design by Kris Symer:

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Olympia oysters fare better than Pacifics in acidified oceans

Our native Olympia oyster may seem small and meek, but its slow-growing nature may serve it well under future conditions of ocean acidification, according to a new study.

Olympia oysters // Photo: Wikimedia commons
Olympia oysters // Photo: Wikimedia commons

In fact, the tiny Olympia oysters appear to reproduce successfully in waters that can kill the offspring of Pacific oysters — a species that grows much larger and provides the bulk of the commercial oyster trade in Washington state.

Unlike Pacific oysters, Olympias don’t begin forming their shells until two or three days after fertilization, and the formation progresses slowly, helping to counteract the effects of corrosive water, according to the author of the new study, George Waldbusser of Oregon State University.

Betsy Peabody of Puget Sound Restoration Fund said people who work with Olympia oysters have long suspected that they may have some advantages over Pacific oysters. Olympia oysters keep their fertilized eggs in a brood chamber inside the shell until the larvae are released into the water about two weeks later.

In contrast, the eggs of Pacific oysters are fertilized in the open water and the resulting larvae must fend for themselves right away.

While the brood chamber may protect the larvae from predators, the new study showed that the brood chamber does not protect against ocean acidification. Corrosive water still circulates through the mother’s shell, exposing the larvae.

To test how Olympia oysters would do in open waters, the researchers grew baby oysters outside the brood chamber where they were exposed to acidified water, noted Matthew Gray, a former doctoral student in OSU’s Department of Fisheries and Wildlife. He is now conducting research at the University of Maine.

“Brooding was thought to provide several advantages to developing young, but we found it does not provide any physiological advantage to the larvae,” Gray said in an OSU news release. “They did just as well outside the brood chamber as inside.”

It appears that a major difference in the development of Pacific and Olympia oysters lies in their reproductive strategies, including differences in managing their energetics.

“Pacific oysters churn out tens of millions of eggs, and those eggs are much smaller than those of native oysters, even though they eventually become much larger as adults,” Waldbusser said. “Pacific oysters have less energy invested in each offspring. Olympia oysters have more of an initial energy investment from Mom and can spend more time developing their shells and dealing with acidified water.”

The research team found that energy stores in young Pacific oysters declined by 38.6 percent per hour, compared to 0.9 percent in Olympia oysters. Pacific oysters put their energy into building their shells seven times faster than Olympia oysters. The exposure to acidified water affects shell development. While the larval oysters may get through the shell-building stage, they often don’t have enough energy left to survive, Waldbusser said.

The study, funded by the National Science Foundation, was published in the Journal of Limnology and Oceanography.

Puget Sound Restoration Fund has been working for nearly 20 years to restore Olympia oysters at 19 priority locations throughout Puget Sound. The new study lends credence to the effort and support for a recommendation by the 2012 Blue Ribbon Panel on Ocean Acidification. The panel called for restoring the native oyster to Puget Sound to build resilience into the ecosystem, according to Betsy Peabody.

“It was a recommendation that came out before we had the critical science to support it,” Betsy told me. “He (Waldbusser) has just given us the underlying research that supports that recommendation. Our grandchildren may be cultivating Olympia oysters rather than Pacific oysters.”

The panel, appointed by former Gov. Chris Gregoire, called for maintaining the genetic diversity of native shellfish to provide the species a fighting chance against ecological changes brought on by climate change.

Benefits of the Olympia oyster, including so-called ecosystem services, are described in an article by Eric Wagner in the Encyclopedia of Puget Sound. Healthy oyster reefs offer benefits such as cleaning up the water, protecting shorelines from erosion and increasing habitat complexity, which can expand the diversity of sea life.

So far, Puget Sound Restoration Fund has restored 50 acres of shellfish to Puget Sound, working toward a goal of restoring 100 acres by 2020.

Oyster hatcheries in Washington state underwent a temporary crisis a few years ago when Pacific oyster larvae were dying from acidified seawater pumped into the hatcheries. The water still becomes hazardous at times, but careful monitoring of pH levels has allowed hatchery operators to overcome the problem. When the water in an oyster hatchery moves beyond an acceptable pH level, operators add calcium carbonate to alter the pH and support the oyster larvae with shell-building material.

Bill Dewey of Taylor Shellfish Farms said older oysters might be affected in the future as ocean acidification progresses. “We know things are going to get worse,” he told me.

Because of their small size and high cost of production, Olympia oysters will never overtake the Pacific oyster in terms of market share, Bill said, but they are in high demand among people who appreciate the history of our only native oyster and its unique taste.

The new research by Waldbusser raises the question of whether the highly commercial Pacific oysters could be bred so that their larvae grow slower and perhaps overcome the effects of ocean acidification.

Joth Davis, senior scientist for Puget Sound Restoration Fund and senior researcher for Taylor Shellfish, said the market is strong for a smaller Pacific oyster, so most growers would not object to one that grows more slowly with greater survival.

Meanwhile, efforts are underway to maintain the genetic diversity of Olympia oysters and other native species, as growers begin to think about cultivating more natives. Transplanting species from one area to another and boosting their populations with hatcheries creates a potential to override local populations and weaken overall genetic diversity, Joth said.

Geoduck clams, which can be started in hatcheries and grown on a large scale, don’t appear to be genetically distinct from one place to another in Puget Sound, Joth said.

Researchers have found some evidence that Olympia oysters may be genetically distinct when comparing one area of Puget Sound to another. But finding genetic differences does not always mean the population is uniquely adapted to that area, Joth said. Variations might relate to a random population that settles in a specific location. Sometimes it takes careful study to make sense of the differences.

Rich Childers, Puget Sound shellfish manager for the Washington Department of Fish and Wildlife, said the state currently has no firm rules for transferring native species from one place to another. With growing interest in cultivating Olympia oysters, sea cucumbers and other native species, the agency is opening discussions about what kind of controls might be needed.

“We’ve learned lessons from salmon that you can’t spread everything from hell and gone,” Rich said. “Should we be looking at some management or hatchery guidelines that would help maintain genetic diversity? Should we have laws or policies? These are the questions that are just starting to surface.”

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Student project could lead to official state oyster

Nobody was really talking about designating an official “Washington state oyster” until 14-year-old Claire Thompson came along. Now the state Senate has approved a bill, on a 47-1 vote, to list the Olympia oyster as the state’s official oyster.

Claire is an eighth grader at Olympia’s Nova School, which requires a yearlong project involving something that students care deeply about and can make a difference. Claire, who hopes to become a marine biologist or oceanographer, developed a sense of history for the once-prominent Olympia oyster, as we learned from her testimony before the Senate Governmental Operations Committee.

The full testimony on SB 6145 falls between 40:00 and 51:00 in the video on this page.

“Pollution near historic beds caused many closures of the fishery and rallied the oyster farmers to fight for the earliest pollution control regulations for clean water and cleanup,” Claire told the committee.

Ostrea lurida, the scientific name for the Olympia oyster, is the only native oyster to the region. The Pacific oyster, imported from Japan in the 1920s, makes up most of the production today, but the tiny Olympia is making a comeback as a unique delicacy with natural ties to the region.

Claire talked about ocean acidification, caused by excess carbon dioxide in the atmosphere, and its ongoing threat to the ecological health of Puget Sound, Hood Canal and other bays and estuaries.

“Ostrea lurida,” she said, “stands as a living symbol of Washington’s history, from the earliest Native Americans through the pioneers down through statehood to the present day, deserving protection as our native oyster. Please join me in fighting to protect not only our native oyster but our waters as well.”

Claire is the daughter of Rowland Thompson, lobbyist for Allied Daily Newspapers of Washington, who encouraged her to develop her project and speak before the Legislature.

Jim Jesernig of Pacific Coast Shellfish Growers Association said he supports the bill, even though it came as a surprise to his group.

“We have been very pleased working with Claire,” Jesernig said. “It’s very interesting. From the industry, we did not see this. We were working on derelict vessels and a whole bunch of things going on. Claire has worked with folks in Willapa Harbor and the South Sound. We would like to support this in any way.”

If next approved by the house, the Olympia oyster will become the official state oyster, joining:

  • The orca, the official marine mammal;
  • The Olympic marmot, the official endemic mammal;
  • The willow goldfinch, the official bird;
  • The steelhead trout, the official fish; and
  • The common green darner dragonfly, the official insect.

By the way, Puget Sound Restoration Fund, a nonprofit group, has been working for years to restore the Olympia oyster to Puget Sound. I first wrote about this issue in 1999 in a piece called “Native oyster making a comeback — with help.” A companion piece about the taste of the little oyster was titled “Olympia Oyster Gains Respect.” I also presented the tribal perspective in “Tribal Officials Welcome Oyster Restoration.”

Since then, Puget Sound Restoration Fund has helped rebuild native oyster populations in many bays, with one of the greatest successes in Liberty Bay near Poulsbo. Betsy Peabody, executive director, told me this morning that her group has great hopes for success in Dyes Inlet near Silverdale and in Port Gamble Bay in North Kitsap. A new oyster hatchery in Manchester is expected to be in operation later this year.

Washington Department of Fish and Wildlife has developed a long-term restoration plan for the Olympia oyster with 19 areas listed for habitat restoration:

Drayton Harbor
Bellingham Bay (South) Shoreline, Portage Island, and Chuckanut Bay
Samish Bay
Padilla Bay
Fidalgo Bay
Similk Bay
Sequim Bay
Discovery Bay
Kilisut Harbor
Port Gamble Bay
Quilcene Bay
Union River/Big and Little Mission Creek(s) deltas
Liberty Bay and sub-inlets
Dyes Inlet and sub-inlets
Sinclair Inlet
Point Jefferson-Orchard Point complex of passages and inlets
Budd Inlet
Henderson Inlet
Harstine/Squaxin Islands complex of passages and inlets

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