Despite the disruptions they cause, large wildfires are a mixed
economic bag for nearby communities, according to findings from a
research project by the University of Oregon's Ecosystem Workforce
Program and its collaborators.
Wildfires disrupt the lives of workers, employers and families, and
lead to longer-term instability in local labor markets, the project
funded by Joint Fire Science Program found. But on the flip side of the
coin, countywide employment and wages increase in some sectors during
the wildfires, often mitigating the short-term employment disruptions
wildfires cause.
September 14, 2012
September 9, 2012
Airborne Technology Helps Manage Elephants
For years, scientists have debated how big a role
elephants play in toppling trees in South African savannas. Tree loss is
a natural process, but it is increasing in some regions, with cascading
effects on the habitat for many other species. Using high resolution
3-D mapping, Carnegie scientists have for the first time quantitatively
determined tree losses across savannas of Kruger National Park. They
found that elephants are the primary agents—their browsing habits knock
trees over at a rate averaging 6 times higher than in areas inaccessible
to them. The research also found that elephants prefer toppling trees
in the 16-to-30 foot (5-8 m) range, with annual losses of up to 20% in
these height classes. The findings, published in Ecology Letters,
bolster our understanding of elephant conservation needs and their
impacts, and the results could help to improve savanna management
practices.
How iron reacts in the environment?
Using ultrafast X-rays, scientists for the first time have watched
how quickly electrons hop their way through rust nanoparticles.This gives key insight to how iron oxide, one of the most abundant
minerals in soil, behaves and alters the condition of soil and water
around it. This also demonstrates the potential of time-resolved X-ray
and optical methods to study chemical reactions at the subnanoscale in
other semiconductors.
Scientists have long known that certain minerals, redox active ions and biological proteins can exchange electrons to initiate chemical changes in the mineral. But the process of how electrons hop from atom to atom inside a nanoparticle to facilitate change has been too fast to see until now. The same process controls charge collection in solar energy devices involving metal oxides, and thus this work may have relevance to new energy technologies.
Scientists have long known that certain minerals, redox active ions and biological proteins can exchange electrons to initiate chemical changes in the mineral. But the process of how electrons hop from atom to atom inside a nanoparticle to facilitate change has been too fast to see until now. The same process controls charge collection in solar energy devices involving metal oxides, and thus this work may have relevance to new energy technologies.
May 12, 2012
Scientists 'read' the ash from the Icelandic volcano 2 years after its eruption
the ash cloud from the Icelandic volcano Eyjafjallajökull reached
the Iberian Peninsula and brought airports to a halt all over Europe. At
the time, scientists followed its paths using satellites, laser
detectors, sun photometers and other instruments. Two years later they
have now presented the results and models that will help to prevent the
consequences of such natural phenomena.
The eruption of the Eyjafjallajökull in the south of Iceland began on the 20 March, 2010. On the 14 April it began to emit a cloud of ash that moved towards Northern and Central Europe, resulting in the closure of airspace. Hundreds of planes and millions of passengers were grounded.
The eruption of the Eyjafjallajökull in the south of Iceland began on the 20 March, 2010. On the 14 April it began to emit a cloud of ash that moved towards Northern and Central Europe, resulting in the closure of airspace. Hundreds of planes and millions of passengers were grounded.
January 6, 2012
Air pollution linked to diabetes and hypertension in African-American women
The incidence of type 2 diabetes and hypertension increases with
cumulative levels of exposure to nitrogen oxides, according to a new
study led by researchers from the Slone Epidemiology Center (SEC) at
Boston University. The study, which appears online in the journal Circulation,
was led by Patricia Coogan, D.Sc., associate professor of epidemiology
at the Boston University School of Public Health and the SEC.
While it is well established that air pollution increases the risks of acute cardiovascular events such as stroke and myocardial infarction, it is not known whether exposure increases the risk of chronic diseases like diabetes and hypertension. However, emerging findings from laboratory and clinical studies suggest that air pollution may predispose to both conditions.
While it is well established that air pollution increases the risks of acute cardiovascular events such as stroke and myocardial infarction, it is not known whether exposure increases the risk of chronic diseases like diabetes and hypertension. However, emerging findings from laboratory and clinical studies suggest that air pollution may predispose to both conditions.
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