By Alex Felsinger •
March 28, 2009
Residents of Centerville, Virginia have sued Dominion Virginia Power to the tune of $1 billion for supplying 1.5 million tons of toxic fly ash to fill the hills of a nearby golf course.
The attorneys representing 400 Centerville residents claim that Dominion knew that the substance they supplied to the Battlefield Golf Club would eventually seep into the water supply. The suit also names the golf course’s developer and Dominion’s ‘coal-ash management consultant.’
By Marika Collins •
January 7, 2009
Officials at the Tennessee Wildlife Resources Agency (TWRA) are bracing themselves for a long-term wildlife study at the TVA spill site. The area was severely contaminated after a massive release of coal ash on Dec. 22, 2008. The spill originated from a holding pond belonging to the Tennessee Valley Authority (TVA) Kingston Steam Plant on Watts Bar Reservoir.
A large number of fish were killed immediately following the spill which dumped 5.4 million cubic yards (more than 1 billion gallons) of toxic sludge directly into the Emory River and surrounding lands. The spill occurred when the earthen wall of a storage pond breached. The scale of the accident is much larger than initially reported.
By Becky Striepe •
December 29, 2008
Authorities are now saying that the ash leak that devastated areas surrounding the Kingston coal-fired power plant in Tennessee is over three times the original estimated size. Rather than the 1.7 million cubic yards of wet coal ash, an aerial survey that the TVA conducted on Thursday revealed the flood was actually 5.4 million cubic yards. The spill in Tennessee is over 120 times the size of the Exxon Valdez.
[Emory River. Creative Commons photo by Chris]
Even before these updated numbers, it was the largest toxic spill in U.S. history. According to the New York Times, water in surrounding areas is showing lead and thallium contamination. These chemicals are linked to birth defects and nervous disorders.
By Andrew Williams •
October 1, 2008
A team of researchers have developed a color-coded bacteria that will make it much easier to detect oil-spills and other forms of environmental pollution.
During a recent sea expedition the team successfully used the bacteria, which contains a protein that glows blue when viewed though a simple light-detecting device, to detect oil.
