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ENN website, 17 Aug 05
Pacific Coast Ecosystems Return to Normal after Winds Arrive Late
By Terence Chea, Associated Press

PlanetSave, 2 Aug 05

Global warming?
Scientists are seeing more dead birds, fewer fish on the Pacific Coast

by Terence Chea

SAN FRANCISCO (AP) Marine biologists are seeing mysterious and disturbing things along the Pacific Coast this year: higher water temperatures, plummeting catches of fish, lots of dead birds on the beaches, and perhaps most worrisome, very little plankton - the tiny organisms that are a vital link in the ocean food chain.

Is this just one freak year? Or is this global warming?

Few scientists are willing to blame global warming, the theory that carbon dioxide and other manmade emissions are trapping heat in the Earth's atmosphere and causing a worldwide rise in temperatures.

Yet few are willing to rule it out.

"There are strange things happening, but we don't really understand how all the pieces fit together," said Jane Lubchenco, a zoologist and climate change expert at Oregon State University.

"It's hard to say whether any single event is just an anomaly or a real indication of something serious happening."

Scientists say things could very well swing back to normal next year. But if the phenomenon proves to be long-lasting, the consequences could be serious for birds, fish and other wildlife.

This much is known: From California to British Columbia, unusual weather patterns have disrupted the marine ecosystem. Normally, in the spring and summer, winds blow south along the Pacific Coast and push warmer surface waters away from shore. That allows colder, nutrient-rich water to well up from the bottom of the sea and feed microscopic plants called phytoplankton.

Phytoplankton are then eaten by zooplankton, tiny marine animals that include shrimp-like crustaceans called krill. Zooplankton, in turn, are eaten by seabirds and by fish and marine mammals ranging from sardines to whales.

But this year, the winds have been unusually weak, failing to generate much upwelling and reducing the amount of phytoplankton. Off Oregon, for example, the waters near the shore are 5 to 7 degrees Fahrenheit (3 to 4 Celsius) warmer than normal and have yielded about one-fourth the usual amount of phytoplankton, said Bill Peterson, an oceanographer with the National Oceanic and Atmospheric Administration in Newport, Ore.

"The bottom has fallen out of the coastal food chain, and there's just not enough food out there," said Julia Parrish, a seabird ecologist at the University of Washington in Seattle.

Seabirds are clearly distressed. On the Farallon Islands west of San Francisco, researchers this spring noted a steep decrease in nesting cormorants and a 90 percent drop in Cassin's auklets - the worst in more than 35 years of monitoring.

On Washington state's Tatoosh Island, common murres - a species so sensitive to disruptions that scientists consider it a harbinger of ecological change - started breeding nearly a month late. It was the longest delay in 15 years of monitoring.

Researchers have also reported a sharp increase in dead birds washing up in California, Oregon and Washington. Along Monterey Bay in Central California, there are four times the usual number of dead seabirds, said Hannah Nevins, a scientist at Moss Landing Marine Laboratories.

"Basically, they're not finding enough food, and they use up the energy that's stored in their muscles, liver and body fat," Nevins said.

Fish appear to be feeling the effects, too. NOAA found a 20 percent to 30 percent drop in juvenile salmon off the coasts of Oregon, Washington and British Columbia in June and July, compared with the average over the previous six years. And researchers counted the lowest number of juvenile rockfish in more than 20 years of monitoring in Central and Northern California. Fewer than 100 were caught between San Luis Obispo and Fort Bragg this year, compared with several thousand last year.

Scientists have seen some of these strange happenings before, during El Nino years, when higher water surface temperatures in the equatorial Pacific alter weather patterns worldwide.

But the West Coast has not had El Nino conditions this year.

As for the possibility that this is being caused by global warming, scientists are not so sure, since climate change is believed to be a gradual process, and what is happening this year is relatively sudden.

But "if we did see this next year, the notion that global warming plays a role in this carries more weight," said Nathan Mantua, a climate expert at the University of Washington in Seattle.

ENN website, 17 Aug 05
Pacific Coast Ecosystems Return to Normal after Winds Arrive Late
By Terence Chea, Associated Press

SAN FRANCISCO — The northerly winds that sustain the Pacific Coast's marine ecosystems have returned, but their arrival came too late for fish and birds that couldn't survive the unseasonably warm waters.

William Peterson, an oceanographer with the National Oceanic and Atmospheric Administration in Newport, Oregon, who just returned from a 10-day trip Sunday, said ocean conditions have returned to normal off the coasts of California and Oregon, but it's too late for many species. "The water is very cold and productive. It's the way we would expect it to be," Peterson said.

"But the animals that depend upon the ocean being productive in the spring and the early summer are dead. It's not going to help them any."

Coastal ecosystems rely on winds blowing south to push warmer surface waters away from shore and bring up colder, nutrient-rich water from the ocean bottom that feeds massive blooms of plankton -- the tiny plant-like organisms that form the basis of the marine food web.

The winds usually start blowing in March or April, but when they didn't arrive this spring, researchers saw the effects up and down the coast -- higher ocean temperatures near the shore, very little plankton, a drop in groundfish catches and a spike in dead seabirds on beaches.

The winds finally returned in mid-July and generated the long-delayed upwelling and a dramatic increase in plankton populations, according to researchers. "The upwelling did come, and the whole system reversed itself," said William Cochlan, a marine ecologist at California State University, San Francisco.

"We're not sure why the winds didn't come, but the situation has remarkably changed, and the ecosystems seem to be getting back to normal." Scientists warn that the biological effects of this year's oceanic disruption could be felt for months, or years, to come.

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