|
| Andhra Pradesh ~ India ~ International ~ City ~ Entertainment ~ Business ~ Bullion ~ Forex ~ Sports ~ Technology ~ Health ~ Features |
|
Home
/ Technology News / 2008 / June 2008 / June 25, 2008 Extreme weather swings may trigger perfect storm of infectious diseases |
US culture is to blame for girls’ indifference to maths, says expert
Most parents dont perceive their kids as being obesity prone
Astronomers get clues about star formation from Hubble survey
Warangal Praja Rajyam District-in-charge Siddartha Goud roughed up
Raj Thackeray says no Jet Airways to take off from Mumbai if lay-offs continue
China extends red carpet to Zardari, nuke deal likely
Most awaited fashion fiesta kicks off in Delhi
RBI cuts CRR by 1 percent, releases additional Rs 40,000 cr
Oram takes over as top all-rounder in ODIs
Cheap CD player lenses to revolutionise quantum networks
German Court finds DVD Disc Manufacturer Odeon Infringes MPEG-2 Patents
A new study has found that extreme climatic conditions, such as the increased frequency of droughts and floods expected with global warming, can turn normally harmless infections into considerable threats.
Washington, June 25 : A new study has found that extreme climatic conditions, such as the increased frequency of droughts and floods expected with global warming, can turn normally harmless infections into considerable threats.
An international research team, including University of Minnesota researcher Craig Packer, found that weather extremes are capable of altering normal host-pathogen relationships and causing a "perfect storm" of multiple infectious outbreaks that can devastate populations of wildlife or livestock.
Led by scientists at the University of California, Davis, the University of Illinois and the University of Minnesota, the research team examined outbreaks of canine distemper virus (CDV) in 1994 and 2001 that resulted in unusually high mortality of lions in Tanzania's Serengeti National Park and Ngorongoro Crater. CDV periodically strikes these ecosystems, and most epidemics have caused little or no harm to the lions.
But the fatal virus outbreaks of 1994 and 2001 were both preceded by extreme drought conditions that led to debilitated populations of Cape buffalo, a major prey species of lions.
The buffalo suffered heavy tick infestations and became even more common in the lions' diet, resulting in unusually high levels of tick-borne blood parasites in the lions.
The canine distemper virus suppressed the lions' immunity, which allowed the elevated levels of blood parasites to reach fatally high levels, leading to mass die-offs of lions. n 1994 the number of lions in the Serengeti study area dropped by over 35 percent after the double infection. Similar losses occurred in the Crater die-off in 2001.
The lion populations recovered within 3-4 years after each event, but most climate change models predict increasing frequency of droughts in East Africa.
"The study illustrates how ecological factors can produce unprecedented mortality events and suggests that co-infections may lie at the heart of many of the most serious die-offs in nature," said Packer, Distinguished McKnight University Professor of Ecology, Evolution and Behavior at the University of Minnesota.
The study is published June 25 by PloS (Public Library of Science) ONE, an online peer-reviewed research journal.
ANI
