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Photograph by Aleta George
Seabird Sanitorium: Pelicans recover poolside at the International Bird Rescue and Research Center in Cordelia in late January.

Flight Risk

A potent algal neurotoxin could threaten California's brown pelicans just as officials move to de-list them.

By Aleta George

When word came to Moss Landing-based WildRescue that California brown pelicans were showing up in the mountains or wandering on roads far from the sea, wildlife paramedics set out to find them. They saw dozens of dead ones in the greater Monterey Bay area, said WildRescue founder Rebecca Dmytryk. Those that were still alive acted "down," a term used to describe a bird that is not bright and alert. The 28 surviving pelicans were carefully captured and transported to the International Bird Rescue Research Center in Cordelia at the northern end of San Francisco Bay.

During the pelican mortality event this winter at least 500 pelicans were reported dead or debilitated along the West Coast from Astoria, Ore., to Baja California. Some showed signs of disorientation and were found in odd places, such as a mountain in New Mexico. Many had severe frostbite on their pouches and feet, leading scientists to believe that the cause of the event was likely related to climate change. With unseasonably warm fall weather in the Pacific Northwest, some 5,000 pelicans had lingered at their summer and fall roosting sites in northern Oregon. When a freezing winter storm hit in mid-December, they were forced to migrate in harsh conditions that included 60 mph winds.

During the event scientists, vets and rehabilitators shared notes and tested the dead birds. San Diego's Sea World performed necropsy exams on eight to 10 birds. The U.S. Geological Survey National Wildlife Health Center in Wisconsin tested four. Tests were also run at the California Animal Health and Food Safety Lab at UC-Davis and the California Department of Fish and Game's Marine Wildlife Lab in Santa Cruz. The birds tested negative for avian influenza and West Nile virus, and though there were a few birds that tested positive for domoic acid--a type of harmful algae bloom that has been the cause of bird and marine mammal mortalities since its discovery in 1991--the levels were low.

David Jessup, senior wildlife veterinarian for the California Department of Fish and Game, compiled information from pathology reports, transect counts and observations from field biologists and clinicians. What he found was a variety of signs and symptoms that weren't consistent. The findings led him to state in an interim report that the December storm seems to have been the primary cause of the event--but it doesn't account for all observations or findings. "Some other causes of illness and death remain unexplained," he wrote.

One thing researchers didn't test for was saxitoxin, one of the most potent natural toxins known. Saxitoxins are a family of single-celled naturally occurring dinoflagellates that cause paralytic seafood poisoning (PSP) in humans.

Maybe they should have run those tests. While the pelicans dive-bombed for fish in Oregon's late Indian summer weather, the entire coast of Oregon was closed to mussel harvesting due to elevated levels of PSP toxins. Is it possible that PSP toxins were a factor in the pelican mortality event?

"It's highly possible," said Matt Hunter, shellfish project leader of the Oregon Department of Fish and Wildlife, "but without testing it's hard to say."

Saxotoxin Spike
Why didn't they test the birds for saxitoxin? For one, as of late February, Jessup wasn't aware of the mussel harvesting closure. Perhaps that's because there wasn't a big red-tide event that covered multiple counties like the one California had in 1991. Gregg Langlois, a senior environmental scientist with the California Department of Public Health, had just started his job in 1991 when he witnessed a saxitoxin-laced bloom, or red tide, that covered Marin County's Drake's Bay. (Physical discolorations in the water are referred to as blooms, but not all visible blooms are toxic.) There wasn't a bloom in Oregon this winter, just mussels with enough toxins in their flesh to warrant a ban on harvesting.

Along the West Coast, PSP toxins are associated with upwelling and can threaten human health and coastal economies. To help keep the public safe, shellfish are tested regularly. In California shellfish are monitored for neurotoxins year-round, in addition to seasonal quarantines. In Oregon, the Department of Agriculture (ODA) tests razor clams, oysters and mussels for PSP toxins and domoic acid, both of which can cause minor illness and more serious problems leading to death. If the bivalves tested show 20 parts per million for domoic acid or 0.8 parts per million for PSP (80 g/100 g), the area is closed to harvesting for a minimum of two weeks.

"The closures are not unusual," says Sarah Schwab, a food safety specialist with the ODA. "What is unusual is the length of time the beaches were closed to harvesting this fall and winter."

ODA closed the entire coastline of Oregon to mussel harvesting on Oct. 10, 2008, and didn't deem harvesting safe until Jan. 20, 2009, when they reopened the beaches. The highest spike in PSP toxins found was on Nov. 10 in northern Oregon at Silver Point with 441.4 g/100 g, and at Cape Meares with 384.6 g/100 g, four to five times the threshold amount. Both locations are south of the Columbia River and within foraging range of East Sand Island, the largest communal pelican night roost north of the Farallon Islands.

The numbers seen in Oregon don't reflect mussels that are particularly "hot," says Hunter. To put the numbers into perspective, the 1991 PSP red tide seen by Langlois in Marin County topped out at 10,000 g/100 g.

But it's possible that even relatively low concentrations are dangerous to wildlife. It's unknown how sublethal exposure affects a bird's long-term health. "We don't have a handle on the lethal dose of toxins for birds," says Langlois. "It's just a black hole."

PSP toxins are known to bioaccumulate in shellfish, like mussels and razor clams, but not necessarily in pelagic fish like sardines and anchovies. "Normally we think of PSP toxins as showing up in shellfish," says Raphael Kundela, a professor in ocean sciences at UC-Santa Cruz, "but many organisms eat phytoplankton, including fish." In an article in the January 2009 issue of Harmful Algae, a group of scientists reported that they found the first evidence of PSP toxins in northern anchovies and Pacific sardines in Monterey Bay and some California coastal regions. Pelicans don't eat shellfish, but they do eat sardines and anchovies.

Whale of a Problem
Scientists on the East Coast are more sensitive to the idea that PSP toxins may be a factor in mortality events, says Kundela. The Woods Hole Oceanographic Institution's website shows a picture of a dead humpback whale beached near Cape Cod, Mass. It was one of 14 that died after feeding on saxitoxin-laced mackerel in 1987.

Still, little is known about the connection between bird mortalities and harmful algal blooms. Jan Landsberg, a research scientist for the Florida Fish and Wildlife Conservation Commission, wrote in a journal article about biotoxins: "There is a growing body of evidence that seabird mortalities accompany harmful algae blooms worldwide, but with only a few exceptions, most avian mortalities associated with harmful algae blooms events are anecdotal."

Landsberg cites a mortality event in England that occurred in 1969, when a total of 636 dead seabirds were found. Some of the symptoms recorded for the dying European shags sound similar to those reported during the recent pelican mortality event: a loss of equilibrium, lack of motor coordination, paralysis, excessive vomiting, intestinal hemorrhaging, failure of circulatory system and congestion of the organs, including the lungs. In Jessup's interim report, the clinical findings for the pelicans included anemia, hypo-perfused lungs (congestion), depression, strange behavior and "infections and/or intoxications, of varying severity including hepatitis, pancreatitis, endocarditas, bronchitis and interitus, and evidence of reduced immune system function."

Most of the vets and scientists agree that there were probably a number of factors involved. "Exposures that are not initially lethal may still cause mortality in wildfowl, both during and after stresses such as migration," says Don Anderson, senior scientist at Woods Hole.

In early February, ocean scientists and resource managers met for a first-time West Coast Harmful Algal Bloom Summit in Portland, Ore. One of the goals of the summit was to plan for a monitoring network for detecting and forecasting toxic algae blooms. There are thousands of microscopic algae floating around the ocean, including several dozen that produce toxins. Kundela said that one of the things to come out of the summit was the realization that scientists need to be more focused on PSP toxins. "We have a pretty good handle on domoic acid. We know when it's coming and going, we know how to test for it, and we watch its affect on wildlife carefully," says Kundela. "We haven't made the same progress with PSP."

A New Threat
California brown pelicans are getting to ready to fly off the state's endangered species list. In early February, the state Fish and Game Commission voted to take them off the list where they have been since 1971. If approved by the Office of Administrative Law, the pelican will be the first endangered species in the state to be delisted due to recovery. Their numbers have now reached 8,500 pairs.

As pelicans fly into the sunset with their 8-foot wingspan, harmful algae blooms are increasing with virility around the world. Scientists aren't certain why, but suspect increased nutrients from agricultural runoff and human waste, changes in the climate, and the movement of algae in ballast water. In California, there has been a sea change in the dominant phytoplankton community since 2004, says Kundela. Dinoflagellates are on the rise. Scientists don't know the reason for this either, he says, but they suspect that with less upwelling and warmer surface water, conditions are selecting for more dinoflagellates. Oregon's waters are changing, too. "When I first started 14 years ago PSP was a summertime event and domoic acid was a cooler water, winter event," says ODA's Dawn Smith. "That's not the case anymore. We're now seeing PSP in the dead of winter."

The good news is that the West Coast is well monitored and regulated. As a result, there hasn't been a human illness caused by PSP in the last decade.

The bad news for pelicans and other seabirds is that they can't read the posted signs or check their emails for notices of harmful algae blooms. They gulp what they see, and as an indicator species, communicate what's going on in our oceans.

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