Anastaziville

9/11/10
North County Times-
Hoover Dam could stop generating electricity as soon as 2013, officials fear...Eric Wolff
http://www.nctimes.com/business/article_b7e44e9e-087d-53b2-9c49-7ea32262c9a9.html
After 75 years of steadily cranking out electricity for California, Arizona and Nevada, the mighty turbines of the Hoover Dam could cease turning as soon as 2013, if water levels in the lake that feeds the dam don't start to recover, say water and dam experts.
Under pressure from the region's growing population and years of drought, Lake Mead was down to 1,087 feet, a 54-year low, as of Wednesday.
If the lake loses 10 feet a year, as it has recently, it will soon reach 1,050 feet, the level below which the turbines can no longer run.
Those hydroelectric generators produce cheap electricity for the Metropolitan Water District of Southern California, which is responsible for pumping water across the Colorado River Aqueduct to hydrate much of Southern California.
Without that power, Metropolitan's costs to transport water will double or even triple, a district executive said.
That could result in a $10 to $20 a month increase in annual costs for residential customers, but could have greater impacts on business customers who use more water.
Federal and state water managers have been working to stave off that day, and two scientists from the Scripps Institution of Oceanography in La Jolla who study Lake Mead believe that managers will never allow levels to get below 1,050 feet.
But Pat Mulroy, who runs the Las Vegas Valley Water District and the Southern Nevada Water Authority, said she has to worry about the worst-case scenario.
One of two intake pipes that pump water to Las Vegas is at that same 1,050-foot level.
"We're teetering on the first shortage right now," Mulroy said. "How quickly Mead goes down depends on which hydrology you look at; the Bureau (of Reclamation, which runs the dam) bases it on probability. But the whole probability analysis, because of climate change, has been thrown out the window. We’re experiencing anomaly after anomaly."
The decrease in water already experienced at Lake Mead has reduced output from the turbines from 130 megawatts of peak capacity to 100, according to Peter DiDonato, who runs the Hoover Dam's hydroelectric generators.
Each megawatt could power 650 homes.
For every foot of elevation lost in Lake Mead ---- about 100,000 acre feet of water, or enough for 200,000 households ---- the dam produces 5.7 megawatts less power.
That's because at lower water pressure, air bubbles flow through with the water, causing the turbines to lose efficiency.
"It was designed as a high-elevation dam," DiDonato said.
The bureau is preparing for reduced elevations by testing a different type of turbine starting in 2012, one that can handle levels down to 1,000 feet, he said.
DiDonato is concerned about falling levels, but not too concerned. The government's 24-month forecast shows lake levels returning to 1,100 feet next year.
"The drought can't last forever," DiDonato said. "Eventually, the lake is going to fill up again. You have to hope it does."
Actually, the drought may not be a short-term emergency so much as a feature of a new, drier American West.
"To blame this on a drought that’s going to be over next year or something, that’s not correct," said Tim Barnett, a marine physicist at the Scripps Intuition of Oceanography in La Jolla. "This looks like the first harbingers of man's impact on the climate."
Barnett and his Scripps colleague, climate researcher David Pierce, wrote several papers on the hydrology of Lake Mead.
In a 2009 paper in the Proceedings of the National Academy of Sciences, the pair calculated a 50 percent chance that by 2025, users would not receive their full request of water from the Colorado River.
That would create water problems for Arizona, Nevada, California and Mexico (which is at the end of the river), in addition to the lost megawatts from lower efficiency in the hydroelectric turbines.
Pierce recalculated their figures to determine the effects of increased demand from development and of climate change.
He determined that with no change in water management policy, there was a 20 percent chance that the turbines would have to shut off in 2025.
Also, natural cycles exacerbate the problem, Pierce and Barnett wrote.
The 20th century was the wettest in a millennium for the American West, based on research using tree rings.
If a reversion to historical water levels combines with climate change and continued increases in demand, there's a 20 percent chance that Lake Mead will fall below 1,050 feet next year, Pierce said in an interview.
But Pierce and Barnett don't think the government will allow that to happen.
Federal water managers can release more water from upriver Lake Powell, although no water was released this year.
And they can refuse to grant water requests in full, something that's never happened before, Pierce said.
Losing power from the Hoover Dam would raise expenses for Metropolitan and for Southern California Edison, both of which buy power for the dam at low rates. Edison has already begun preparations for lower power generation from the dam, which represents 0.3 percent of its portfolio, said Gil Alexander, a spokesman for the utility.
The dam supplies 60 percent of Metropolitan's power needs, said Brian Thomas, chief financial officer and assistant general manager of the agency.
Without power from the dam, Metropolitan would turn to the spot electricity market and pay double or triple the cost, depending on how much less power the dam is producing.
Government agencies aren't sitting around doing nothing.
When Lake Mead falls to 1,075 feet, an austerity plan kicks in that reduces water deliveries by 10 percent.
Metropolitan and the Southern Nevada Water Authority are storing excess water from other sources in Lake Mead, and the Mexican government is in negotiations to do the same thing.
Metropolitan initiated a new energy policy last month that includes more efficiency and construction of 10 megawatts of solar panels, to offset loss of power from the dam.
Still, Barnett and Pierce are worried.
"It would be very foolish to think this is a short-term aberration due to a drought of three, four, five or even 10 years," Barnett said. "It's a resource that’s fully utilized. You can't get any more out of it. And nobody's talking about curtailing development."#
Contra Costa Times
Delta: A lake in the making...Mike Taugher...9-12-10
http://www.contracostatimes.com/environment/ci_16026343?nclick_check=1
The toxic blue-green algae floating in the scientist's jar is a symptom of a disturbing shift in the West Coast's biggest estuary.
Common in lakes and reservoirs around the world, this kind of algae is less likely to be found in estuaries where rivers and ocean tides tangle in a restless ebb and flow.
But the slime has spread in an increasingly stagnant Delta.
After five years of studies, scientists are coalescing around the idea that diverting fresh water to farms and cities has led to a fundamental change in the Delta by slowing flows for most of the year.
Other factors are also at play, especially the dramatic conversion of a once vast tidal marsh into a network of deep channels and "islands" first built for farming.
In short, the Delta is becoming more like a lake or a lagoon, researchers say.
As a result, transplanted species -- such as largemouth bass -- that thrive in more stable, lake-like environments are outpacing native species, including salmon and smelt.
"You have this really important ecosystem and California is about ready to lose it if we're not careful," said Zeke Grader, a lawyer and head of the Pacific Coast Federation of Fishermen's Associations, a commercial salmon trade group. "We'll lose the estuary and end up with an inland sea."
Consider this: As California's salmon fishers braced last spring for a third straight dismal year -- a plight many of them blamed on water diversions -- professional largemouth bass fishermen came to the Delta for 2010's first Bassmaster Elite fishing tournament, during which 93 anglers caught more than 1 ton of bass over four days.
The tour then moved on to Clear Lake in Lake County and to other lakes across the nation, mostly in the South.
The new Delta "resembles a weedy lake," said Anke Mueller-Solger, lead scientist for the Interagency Ecological Program, a 40-year-old state and federal research project in the Bay and Delta.
Changes?
On a recent trip aboard the research vessel Questuary, researcher Lindsey Sullivan was looking for tiny jellyfish, not the toxic algae she collected.
The postdoctoral researcher from Rhode Island and her team lowered over the stern a high-tech device that transmits to an onboard computer measurements of salinity, temperature and the depth of the water.
A plankton net, similar to the butterfly net that cartoon character SpongeBob SquarePants uses to go "jellyfishing," trailed behind the boat, collecting samples.
The estuary, which includes the Bay, the Delta and adjacent waterways, is reputed to be the world's most biologically invaded.
So it was not much of a surprise when Sullivan held up a jar with hundreds of zooplankton native to China's Yangtze River and a few tiny jellyfish from the Black Sea.
Or toxic algae, for that matter.
The algae, Microcystis, was first found here in 1999 and has spread aggressively in recent years. Its presence in the Delta, a significant source of drinking water, is a concern because it produces a powerful liver toxin.
Though increased ammonium discharges from Sacramento's sewer treatment plant may have boosted it, Microcystis probably was able to take hold because of the central Delta's unnaturally slow-moving water, according to a 2008 report.
But Sullivan, a jellyfish expert, was here for the jellies.
She wants to know whether they are undermining the food web by eating organisms that estuary fish such as Delta smelt need to thrive.
One of the theories about the decline of smelt, the Delta fish most in danger of extinction, is that the plankton it eats are no longer available, possibly because clams, jellyfish or something else is eating them.
Sullivan wants to examine whether the jellyfish invaders are eating enough plankton to affect the smelt.
When biologists discovered in 2005 that the Delta's fish were in sharp decline, they began focusing on three areas: pollution, changes in water management and invasive species.
Over the next several years, they looked at culprits within those categories -- Delta pumps, invasive clams, ammonium pollution, pesticides and others -- but found no single suspect to blame for the ecological free fall.
Now, scientists have given up searching for a single cause and have turned to a more complex examination of how a dynamic environment has stagnated.
"It's more of an ecosystem approach. Before it was more of a fish-centric approach," said Mueller-Solger, the ecological group's lead scientist.
A bit of history
The intense biological productivity typical of estuaries and the Delta's immense size -- 738,000 acres, or about the size of Yosemite National Park -- make it one of state's the most valuable ecosystems.
Its watershed covers 40 percent of the state, and the estuary is an important stop on migratory birds' Pacific Flyway and a critical nursery and migration route for California's king salmon runs. It is home to about 50 species of fish and 300 mammals, birds and reptiles.
About 500,000 people live in the Delta -- a triangle with corners roughly at Antioch, Sacramento and Tracy -- and more than 23 million people around the state get at least some of their drinking water from it.
In an estuary, salinity levels naturally vary as the run of rivers and the tides push back and forth.
However, the sprawling network of dams and pumps that water managers use to supply farms and cities through the Delta are run to optimize water delivery without violating salinity standards meant to protect drinking water and habitat.
The result is that the Delta's salinity today is both higher and less variable than it was historically, researchers say.
For 800 years, the water in Suisun Marsh and Suisun Bay -- between Benicia and Pittsburg -- was mostly fresh, according to the Contra Costa Water District, which supplies Delta drinking water to 550,000 people.
Beginning in about 1915, when rice farmers moved into the Sacramento Valley, the drain on the Delta's fresh water allowed salt water to pour in from San Francisco Bay.
Salinity increased dramatically as water development continued in the 1920s.
"The other thing we found was that the nature of salinity intrusion changed," said Greg Gartrell, assistant general manager at the Concord-based district.
Before the levees were built and the waterways were channelized, the Delta remained full of fresher water even in long droughts, when Suisun Bay was salty.
"That means it (salinity) is exacerbated not just by the diversions but also the draining of the marshes and channelization of the Delta that allowed the tides to accelerate intrusion," Gartrell said.
As California's thirst grew, draining more fresh water from the Delta, salty water pushed farther into it.
By the end of the 1990s, new reservoirs such as a complex of underground water banks in Kern County and Diamond Valley Lake in Southern California were in place.
Then, even in wet months and wet years, when the demand for Delta water was low, water managers could store excess Delta water that otherwise would have flowed out to sea, further interfering with the natural variations of healthy estuaries.
In recent years, the state and federal water projects supplying millions of acres of farmland and two of every three Californians have taken record amounts of water -- as much as 6 million acre-feet. That is enough to irrigate about 3 million acres or supply nearly 50 million people -- more than California's population.
And it is about 1 million acre-feet more than the Bay and the Delta together can hold at any one time, said Bruce Herbold, a biologist at the Environmental Protection Agency.
So, in other words, if the impossible happened and no water flowed in from rivers or the ocean, the amount of pumping from the Delta in recent years has been more than enough to run the estuary dry.
Raising the alarm
In early 2005, annual surveys showed an alarming three-year drop in several populations of fish that could not be explained by weather patterns.
It was a mystery with lots at stake -- namely, the health of an important estuary and the availability of water from the state's most important water source.
Mueller-Solger, the ecology program's lead scientist, in 2008 began prodding a team of researchers to consider whether the Delta's changes showed it becoming more like a lake, according to Herbold.
About the same time, two leading experts at UC Davis were coming to similar conclusions about the Delta's plight. In August 2008, Peter Moyle and Bill Bennett published their thoughts in a little noticed appendix to a report on Delta water policy.
"This shift presumably occurred as a result of the long-term (slow) process of steadily increasing pumping rates over time, which required the maintenance of freshwater conditions in the Delta during summer, as well as the relatively rapid invasion by Brazilian waterweed and other factors that favored (lake fish)," they wrote.
The meaning: An assortment of species more at home in stable environments -- largemouth bass and the Brazilian waterweed they like to hide in, jellyfish, overbite clams and even a zooplankton called Limnoithona -- are driving out and replacing the Delta smelt, longfin smelt, striped bass and the plankton on which they prey.
The new way of looking at the Delta does not lead to easy answers.
For example, if Microcystis is blooming more now because of the ammonium from the Sacramento sewage treatment plant, is the solution to reduce the pollution or to increase flows to dilute it and wash the toxic algae downstream? Or are both necessary?
The answer, in this and many other cases, probably is both.
"In an aquatic system, it does come down to water to some degree," Mueller-Solger said. "On the other hand, all the other threats are real, too."
Last month, a powerful state agency adopted a report that found California's farms and cities are using far more Delta water than is good for the estuary -- roughly twice as much.
That report has no regulatory teeth and officials of some water agencies have said the report should be effectively ignored while the separate Bay Delta Conservation Plan being pushed by Gov. Arnold Schwarzenegger is written.
But the call for more water to flow through the Delta may challenge that plan's direction: Its authors risk damaging the conservation plan's credibility if they do not acknowledge new limits on water supplies.
Options limited
There is no way to restore the estuary to pre-Gold Rush conditions; the shallow marsh spreading through the Central Valley is gone forever.
The invaders feel quite at home. Voracious filter feeding clams carpet parts of the Delta bottom. Bass tournaments produce better fishing than native salmon runs.
Increasing the flow of water, while controversial and costly, may be one of the most effective ways to improve conditions, if only because other threats are irreversible.
One researcher considers the loss of flow a distant third on the list of estuary threats -- behind the Delta's channelization and the introduced species.
But restoring the landscape or eradicating invaders are next to impossible.
That leaves increasing water flows as the next best option, said Wim Kimmerer, director of San Francisco State's Romberg Tiburon Center for Environmental Studies and Sullivan's faculty adviser. And he is not convinced that will help.
"There are a whole bunch of problems and they are linked together somehow, and there are only some we can work on," said Kimmerer, who described himself as being more skeptical than many of his colleagues studying the Delta. "I'm skeptical flow (increases) will do what we're hoping."
Others are more confident, though.
"We can make it better habitat," Herbold said. "Right now, we're making it just ideal for the introduced species. It would behoove us to do what we can."
Though many of the changes in the estuary are permanent, researchers say that adding water might help, at least a little.