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03.19.08

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Something Fishy: The number of spawning Chinook salmon returning to Central Valley rivers last fall was a third of what it usually is. The reasons are unclear.

Stock Crash

Plummeting salmon populations mean the commercial salmon season won't happen in Monterey Bay--and all the experts have are theories.

By Steve Hahn


The ax has officially fallen on commercial salmon fishing this year in large swaths of California, including the Monterey Bay area, following a dismal fall Chinook salmon run in Central Valley rivers last fall. Worse, no one even knows what's caused the drop-off.

Mike Stiller, president of the Santa Cruz Commercial Fishing Association, confirms that none of the three options selected last week by the Pacific Fishery Management Council (PFMC) will allow for local commercial fishing of salmon during 2008. This is the first time in history that the council, which advises federal policymakers, has ever considered closing down the entire West Coast of the United States to salmon fishing for a whole year.

The decision came after federal and state fishery managers detected only 63,900 Chinook (also called king) salmon swimming upriver to return to their spawning habitats in the Sacramento and San Joaquin rivers, where they lay their eggs and die after several years at sea. That's about a third of an average year.

The sudden drop in numbers--some call it a collapse--resulted in a crisis-tinged meeting of the PFMC March 10-14, when it drew up three options for U.S. Department of Commerce officials to consider (a decision comes next month). One option bans all West Coast salmon fishing, without exception. The second allows only the taking of salmon for scientific purposes. The third allows limited commercial and recreational fishing (with seasons lasting two to six weeks, depending on the region). But the third option doesn't include commercial fishing in the Monterey Bay area, so the salmon fishing fleets in Santa Cruz and Monterey will be staying in the harbor this year while fishermen look for seasonal work on land.

"We are closed for business," Stiller reports. "Maybe I could get a job delivering your paper."

Long Way Home
The sudden decline of Chinook came as a huge shock. Hundreds of miles north, on the Oregon border, Klamath River populations had faced plummeting numbers in the 2005 and 2006 seasons. But the Central Valley fall run was widely considered a reliable anchor in an otherwise threatened network of salmon spawning habitats throughout California. Last year it numbered a robust 277,224 fish.

The abrupt decline has resulted in a bounty of theories and even "rampant speculation," in the words of some, from research scientists combing West Coast rivers and the Pacific Ocean for clues.

There are so many natural and man-made dangers facing an individual salmon--starting from its birth in a Central Valley river tributary through its migration to the Pacific Ocean and its journey back to that same tributary to lay eggs and die three to five years later-- that it's almost impossible for scientists to keep up with them all, says UC-Davis Department of Fisheries Biology chairman Peter Moyle.

"When the salmon are in as much trouble as they seem to be right now, it's because a combination of things are not going well in the freshwater habitat and a combination of things are not going well in the ocean," he says. "That's what's going on right now."

Steven Lindley, chairman of the Fisheries Ecology Division at the federal government's Southwest Fisheries Science Center in Santa Cruz, studies the freshwater part. The two main rivers the Central Valley Chinook call home are the Sacramento and the San Joaquin. In 2007, Lindley took his magnifying glass to the hundreds of dams lining these two rivers. While he focused most of his research efforts on the spring-run Chinook, a population that has been affected more by damming than the fall runs, his research uncovered some problematic trends for both groups.

Fall run salmon mostly spawn below the dams on these rivers, so they aren't blocked when swimming upriver from the ocean to their spawning grounds. But the tweaking of the river's flow to generate power or provide cities with water during a drought introduces a great deal of uncertainty into the salmon habitat.

"The fish have evolved to the conditions that were natural for thousands of years. When those conditions change, that will generally be detrimental to them," says Lindley. "If you have a dam taking water for hydropower development, the river will rise and fall. Fish will lay their eggs in relatively shallow areas when the flow is high, and then [dam managers] drop the flow down and the eggs are stranded and exposed to the air."

If the salmon eggs survive this threat and hatch, then they must begin the long journey through the Sacramento Bay Delta to the Pacific Ocean. Swimming down-river and then through the delta, the salmon face yet another human-manufactured threat. Thousands of water pumps line the rivers and delta, sucking water toward thirsty cities and the lucrative croplands that supply nearly half the nation with fresh produce.

In 2005, the year most fall-run salmon returning this year would have been negotiating this pump-infested water network, a record 6.3 million acre-feet of water was diverted from the delta alone. To get a sense of the sucking power some of these pumps employ, consider that the Tracy pumping plant utilizes 135,000 units of horsepower during peak operation.

Moyle and others theorize this huge sucking power doesn't just kill the Chinook, it also confuses them. "The pumps are at times so powerful that you change the hydrology. It makes it much harder for the salmon to find their way through the system. They're much more likely to be dragged into areas that are less favorable due to poor water quality, or they just get lost."

Big Fish, Little Fish
Once the salmon find their way to the Pacific Ocean around September, they're usually greeted by a lavish buffet. Their favorite food--small fish and krill--mill about in the near-shore marine environment, hunting the plankton that have materialized thanks to nutrients provided by coastal upwelling. The upwelling happens when cold air blowing in from the arctic north meets warm air off the West Coast, which causes cold, nutrient-rich water from the deep ocean to mix in with warmer surface water.

This upwelling is the foundation of the food web, but in 2005 there was a problem in the ocean's kitchen. Bill Peterson, a research scientist with the National Oceanic and Atmospheric Association (NOAA), has set out on his trusty research boat off the coast of Newport, Ore., every two weeks for the past 13 years. Skimming along the coast, he collects data on temperature, salinity, plankton and krill. Then he goes back to shore and plugs it into a huge database that compares the conditions to the measurements of previous years.

Peterson reports that 2005 was one of the worst years in his 13-year history of monitoring ocean conditions. On a scale that rates the likelihood of salmon survival in the ocean from 1 to 10, with 10 being the worst, 2005 rated a 9.

Peterson says a "blocking ridge" created an atmospheric traffic jam that prevented the crucial arctic air from blowing in. It wasn't cleared up until July, meaning the upwelling started nearly five months late, compromising the entire food web.

"You get upwelling starting really early and that kicks the food chain into gear--food gets produced and nutrients make their way up the food chain," Peterson explains. "That didn't happen until July, so all the things that spawned or laid eggs in the springtime found nothing to eat in the ocean. It happened to the seabirds, the salmon, rockfish and a whole list of other marine organisms."

Swimming on empty stomachs, the salmon may then have encountered some unwelcome company. Since 2001, a highly adaptable predator has been extending its reach at a terrific pace. The Humboldt squid has made a mad dash from its original balmy home near the Equator all the way to the chilly tip of Alaska in a seven-year-long marine invasion that is baffling scientists and being touted as evidence of accelerating climate change.

William Gilly has been investigating these slimy beasts for the past five years as part of a quarter-century of squid research at Stanford's Hopkins Marine Station in Pacific Grove. Gilly has been in frequent communication with Santa Cruz-based NOAA researcher John Fields, who has conducted dissections of the squid stomach to see what they fancy for dinner. Gilly says Fields did not find any salmon bones in his dissections of the squid, but he doesn't think that means the hungry invaders can be completely ruled out as a factor in the salmon's demise.

"The timing of the salmon problems and the squid arrival is pretty coincidental," says Gilly, who is quick to mention there is more unknown than known about the squid. "The squid may not be eating the salmon in the areas where they're capturing the squid, or if the squid are eating the big salmon, they're probably only eating the flesh."

Yet these kinds of face-offs might not have to occur for the Humboldt squid to interrupt the marine ecology. There could be ripple effects as these "new kids on the block" start stealing dinner from other hungry critters in the area.

"The squid is a new predator that didn't exist five years ago, so they could be upsetting the balance," Gilly says.

Overall, it seems fair to conclude that the salmon swimming down-river and out to the ocean in 2005 faced a very hostile world, both from natural and human-manufactured threats. All the factors haven't even been added up yet--the PFMC has a checklist of 46 it will be going through over the next year--but coming up with partial solutions to these problems is a high priority for Moyle and other like-minded researchers.

"There are a number of factors that come together to cause these declines," says Moyle. "So the question for us [humans] is, 'What are some things we actually have control over?'"


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