Monday, November 15, 2010

Toxic sludge

This is, of course, a blog set up for an environmental hazards class. However, in the case of the toxic spill that has reached the Danube River, I feel that even this man-made disaster is worth attention.  In my opinion there is nothing worse than completely disrupting natural processes and ecosystems - not to mention killing innocent people - either because of the ignorance of businesses. The first question that comes to mind is why a plant that hold mercury or arsenic is anywhere near a river in the first place? I would assume people have known the harmful effects of both chemicals long to know that such a plant should not be allowed near a river that could carry even small amounts of those substances down river to destroy fish populations and potentially sicken people along the river who are exposed to it. An interesting point worth noting in the article below is about how much the Danube has been diverted and changed from its natural flow for navigation purposes. Engineering obviously was a big part of this disaster, and most likely will be the source of other disasters on river that is struggling with the impacts of human development.

A Hungarian fire fighter cleans a street flooded with toxic mud in Devecser, Hungary, Thursday, Oct. 7, 2010. The toxic red sludge that inundated three Hungarian villages reached Europe's mighty Danube River on Thursday but no immediate damage was evident, Hungary's rescue operations agency said. The European Union and environmental officials had feared an environmental catastrophe affecting half a dozen nations if the red sludge, a waste product of making aluminum, contaminated Europe's second-longest river after bursting out of a factory's reservoir. (AP Photo/Darko Bandic)
A Hungarian fire fighter cleans a street flooded with toxic mud in Devecser, Hungary, in early October.
Photograph by Darko Bandic, AP
Ker Than
Published October 12, 2010
This story is part of a special news series on global water issues.
The recent reservoir failure that flooded several towns in Hungary with toxic red mud is the latest environmental insult to Europe's Danube River. But it is not the first, nor the worst, disaster of its kind, experts say. (See photos of the mud spill.)

And unless steps are taken to safeguard similar industrial plants and mining facilities around the world, these kinds of accidents will continue to happen, they warn.

On October 4, a so-called tailing dam that held waste products, including arsenic and mercury, from the Ajkai Timfoldgyar aluminum-processing plant in the town of Ajka, Hungary, collapsed. This released an estimated 184 million gallons (697 million liters) of highly alkaline red mud into the Marcal River and nearby towns, killing at least eight people. The toxic flood reached the Danube River—Europe’s second-largest river—last Thursday, sparking fears of downstream contamination.

The Degraded Danube

Hungary Prime Minister Viktor Orban called the spill the country's biggest ecological disaster. But other government officials say there has been no serious impact on the Danube's wildlife because the sludge's toxic substances have been safely diluted by the river—a claim that Greenpeace and other environmental groups have been quick to question.

"To say it's not creating any environmental impact at all would be misleading, but whether those impacts are devastating, it doesn't appear that they are," said Jim Kuipers, a mining-engineering consultant based in Butte, Montana.

The Hungary spill is the latest in a long list of environmental problems affecting the Danube River, including pollution from cities and industry and pesticides and chemical runoff from farms.

"It's sort of like having a bad backache and then having your kid jumping on you," said Emily Stanley, a freshwater scientist at the University of Wisconsin, Madison. "It's an acute injury to a chronically stressed system."

One of the biggest threats facing the Danube today is human alterations to the river made for navigation purposes, according to a 2004 European Commission report. Projects to deepen, dam, or straighten the river and remove "bottlenecks" to vessel passage are changing the river's traditional floodplain landscape and water flow into deltas, as well as destroying wetlands and other protected habitats, according to the environmental nonprofit WWF.

There are currently projects underway to restore the Danube's floodplains, and a recent plan by the International Commission for the Protection of the Danube River (ICPDR) aims to halt the illegal dumping of hazardous materials into the river.

Making Mining Safer?

The total discharge from the dam failure in Hungary is nearly equal to the 200 million gallons (750 million liters) of oil spewed into the Gulf of Mexico from the leaking BP oil well this year. But comparing the two disasters is neither fair nor accurate, Kuipers said.

"The immediate devastation of this dam failure is in a relatively small area, and we haven't seen huge widespread ecological impacts from it," he said.

"But in the Gulf, the widespread impacts are pretty much indisputable, and it's going to cost tens of billions of dollars to clean up. It's not going to cost tens of billions of dollars to deal with the ecological impact of this spill."

But even if the environmental costs from the tailing-dam spill are still unclear, the toll in human life is already too high, Kuipers said.

"If only one person is killed, it's one person too many," he added. "It points to very lax [dam-building] standards in the country as a whole."

Hungary is not unique in this regard, however, said the University of Wisconsin’s Stanley.

“In Eastern Europe in particular, there are a lot of these dams and facilities that are not receiving any kind of oversight any more," she said. "The money is short and the government has just walked away."

Some experts estimate that the rate of tailing-dam failures worldwide is nearly ten times higher than that of typical water dams—and with many of those dams located near rivers and streams, the potential for environmental damage to waterways is high.

For example, if the Akja aluminum plant tailings contained cyanide instead of less toxic arsenic and mercury, the impact on wildlife could have been much worse.

In 2000, just such a spill occurred in Romania when a tailing dam from a gold mine burst, spilling cyanide-laced water into the Tisza and Danube rivers and killing up to 80 percent of aquatic life along some stretches.

Scientists and environmental groups worry that as mining projects grow larger, the tailing dams built to serve them will pose increasingly larger threats should they fail.

For example, a tailing dam proposed for the headwaters of Bristol Bay, Alaska, would be among the largest dam of any kind in the world. If that dam were to break, "the scale of what happened in Hungary will seem like child's play," said Alan Septoff, research director of Earthworks, a nonprofit environmental group based in Washington, D.C.

Another concern is the large number old tailing-dams that are aging without proper maintenance or repair.

"Dams are like baby boomers," the University of Wisconsin's Stanley said. "They get old, they age, and they begin to show signs of deterioration. Without inspection and regular repairs and maintenance, I think it's highly likely that we'll see more of these [failures] in the future."

Fortunately, the mining industry has demonstrated that it’s capable of change, she said. The bad news is that it has sometimes required a catastrophe to do so. For example, in 2008, a tailing dam rupture at the TVA Kingston Fossil Plant in Tennessee released more than 1.1 billion gallons (6.8 billion gallons) of coal fly ash flurry—a byproduct of coal combustion—into the Emory River.

"As a result, the U.S. Environmental Protection Agency and others immediately undertook an evaluation of all similar facilities in the United States," Kuipers said.

"In the same way, the [Hungary spill] is a call for similar facilities throughout the world to undergo inspection and change their operational situation to prevent this type of event from occurring."

Stanley is similarly hopeful. "Maybe this is a difficult thing for Hungary, but a wake-up call or the rest of the world about managing these wastes," she said.

More on tsunamis

It's been a challenge (at least for me) to find current events-type content this week. However, I did find this interesting and very easy to read chart on what causes tsunamis. Check it out:

http://geology.com/articles/tsunami-geology.shtml

Monday, November 8, 2010

More on Mount Merapi

Eruption at Mount Merapi, Indonesia

Below is an article from http://www.geology.com/. The text gives a little bit of insight into the importance of the volcano and its hitory. But more importantly, the graphic tells us more about what kind of volcano it is, how it erupted and what surrounding areas face the most danger.

The steep-sided, cone-shaped Mount Merapi volcano is both boon and curse to the people of Indonesia. Volcanic ash from its frequent eruptions makes the soil fertile enough to support a large population. It is also one of Indonesia’s most active volcanoes, posing a constant threat to tens of thousands of people who live in its shadow. On October 26, 2010, the volcano once again turned destructive, unleashing a series of eruptions that had killed at least 44 people and forced 75,000 people from their homes, said CNN on November 4.
The mountain has been shrouded in clouds throughout the eruption, but on October 30 the Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) on NASA’s Terra satellite captured the thermal signature of hot ash and rock and a glowing lava dome. The thermal data is overlaid on a three-dimensional map of the volcano to show the approximate location of the flow. The three-dimensional data is from a global topographic model created using ASTER stereo observations.
The Center of Volcanology and Geological Hazard Mitigation reported that two pyroclastic flows moved down the volcano on October 30. A pyroclastic flow is an avalanche of extremely hot gas, ash, and rock that tears down the side of a volcano at high speeds. ASTER imaged one of those flows.
Merapi shows no signs of slowing. After several days of eruptive episodes, the volcano began an eruption on November 3 that was five times more intense than on October 26 and lasted more than 24 hours. It is the most violent eruption at the volcano since the 1870s, said local geologists.

Sunday, November 7, 2010

Looks like more dead in Indonesia ...

MOUNT MERAPI, Indonesia — The tiny hospital at the foot of Indonesia's most volatile volcano is struggling to cope with victims brought in after the mountain's most powerful eruption in a decade. Some have clothes, blankets and even mattresses fused to their skin.
With few beds and the only burn unit in town, doctors are forced to turn some people away.
A surge of searing gas raced down the sides of Mount Merapi on Friday, smothering entire villages as it killed or seriously burned those caught in its path. The death toll after the volcano's largest eruption in a century soared to 122.
The worst hit village of Bronggang lay nine miles from the fiery crater, just on the perimeter of the government-delineated "danger zone." Crumpled roofs, charred carcasses of cattle and broken chairs — all layered in white ash and soot — dotted the smoldering landscape.
The zone has since been expanded to a ring 12 miles from the peak, bringing it to the edge of the ancient royal capital of Yogyakarta, which has been put on its highest alert. Poor visibility from dust showers forced closed the city's airport for a second day Friday.
Officials say the biggest threat to residents is the Code River, which flows from the 9,700-foot mountain into the heart of the city of 400,000 and could act as conduit for deadly volcanic mudflows that can race at speeds of 60 mph.
The river is already clogged with cold lava, mud, rocks and other debris.
Sri Sucirathasri said her family had stayed in their Bronggang home Thursday night because they hadn't been told to leave.
They awoke in the dark as the mountain let out thunderous claps and tried desperately to outrun the flows on a motorbike. Her mother, father and 12-year-old sister, Prisca, left first, but with gray ash blocking out any light, they mistakenly drove into — rather than away from — the volcano's dangerous discharge.
The 18-year-old Sri went looking for them when she heard her mother's screams, leaving at home an older sister, who died when the house was engulfed in flames.
"I don't know what to say," she whispered when asked if she blamed officials for not warning the family. "Angry at who? I'm just sad. And very sick."
Merapi's latest round of eruptions began Oct. 26, followed by more than a dozen other powerful blasts and thousands of tremors.
With each new eruption, scientists and officials have steadily pushed the villagers who live along Merapi's fertile slopes farther from the crater. But after initially predicting earlier eruptions would ease pressure under the magma dome, experts who have spent a lifetime studying the volcano now say the don't know what to expect.
Scientists can study the patterns of volcanoes, but their eruptions are essentially unpredictable, as Merapi's increasingly intense blasts have shown.
Towering plumes of ash rained dust on windshields of cars 300 miles away Friday, although rain near the mountain in the afternoon turned much of it to sludge. Bursts of hot clouds occasionally interrupted aid efforts, with rescuers screaming, "Watch out! Hot cloud!"
The latest eruption released 1,765 million cubic feet of volcanic material, making it "the biggest in at least a century," state volcanologist Gede Swantika said as plumes of smoke continued to shoot up more than 30,000 feet.
Soldiers pulled at least 78 bodies from homes and streets blanketed by ash up to a foot deep, raising the overall toll to 122, according to the National Disaster Management Agency.
With bodies found in front of houses and in streets, it appeared that many of the villagers died from the blistering gas while trying to escape, said Col. Tjiptono, a deputy police chief.