4 hours ago
https://www.eurekalert.org/news-releases/1119818
INTRO: Diseases historically absent from the United States have been showing up in Florida, Texas, California and other U.S. states in recent years. To understand why, look to Peru. That’s where researchers from Stanford and other institutions analyzed the connection between a cyclone and a massive outbreak of dengue fever, a mosquito-borne viral disease that can cause fever, rash, and life-threatening symptoms like hemorrhage and shock. Their findings, published March 17 in One Earth, reveal that warmer, wetter weather linked to climate change is making disease epidemics more likely.
"Health impacts of climate change aren't something we're waiting for,” said study lead author Mallory Harris, a postdoctoral scholar at the University of Maryland who conducted the research as a PhD student in biology at Stanford. “They're happening now."
Dengue fever, transmitted by Aedes aegypti and Aedes albopictus mosquitoes, sickens an estimated tens of millions of people worldwide each year, according to the World Health Organization, and has surged more than 10-fold globally since 2000. A 2023 cyclone and coastal El Niño in a normally dry region of Peru was followed by a dengue fever outbreak 10 times larger than normal.
Using a statistical technique developed in economics, the researchers asked what share of this historic outbreak was due to the unusual 2023 weather, by modeling what would have happened without the storm. In collaboration with scientists at the Peruvian Ministry of Health and the Latin American Center of Excellence in Climate Change and Health, the team estimated that 60% of dengue cases in the hardest hit districts were directly caused by extreme rainfall and warm temperatures during the cyclone. That translates to roughly 22,000 additional people falling ill who otherwise would not have.
The link goes like this: heavy rains flood low-lying areas, knock out water and sanitation infrastructure, and create pools of water ideal for breeding Aedes aegypti and Aedes albopictus mosquitoes. Warm weather turbocharges mosquito breeding and disease transmission processes. By comparison, cooler areas hit by the cyclone saw no significant effect of extreme precipitation on dengue incidence... (MORE - details, no ads)
INTRO: Diseases historically absent from the United States have been showing up in Florida, Texas, California and other U.S. states in recent years. To understand why, look to Peru. That’s where researchers from Stanford and other institutions analyzed the connection between a cyclone and a massive outbreak of dengue fever, a mosquito-borne viral disease that can cause fever, rash, and life-threatening symptoms like hemorrhage and shock. Their findings, published March 17 in One Earth, reveal that warmer, wetter weather linked to climate change is making disease epidemics more likely.
"Health impacts of climate change aren't something we're waiting for,” said study lead author Mallory Harris, a postdoctoral scholar at the University of Maryland who conducted the research as a PhD student in biology at Stanford. “They're happening now."
Dengue fever, transmitted by Aedes aegypti and Aedes albopictus mosquitoes, sickens an estimated tens of millions of people worldwide each year, according to the World Health Organization, and has surged more than 10-fold globally since 2000. A 2023 cyclone and coastal El Niño in a normally dry region of Peru was followed by a dengue fever outbreak 10 times larger than normal.
Using a statistical technique developed in economics, the researchers asked what share of this historic outbreak was due to the unusual 2023 weather, by modeling what would have happened without the storm. In collaboration with scientists at the Peruvian Ministry of Health and the Latin American Center of Excellence in Climate Change and Health, the team estimated that 60% of dengue cases in the hardest hit districts were directly caused by extreme rainfall and warm temperatures during the cyclone. That translates to roughly 22,000 additional people falling ill who otherwise would not have.
The link goes like this: heavy rains flood low-lying areas, knock out water and sanitation infrastructure, and create pools of water ideal for breeding Aedes aegypti and Aedes albopictus mosquitoes. Warm weather turbocharges mosquito breeding and disease transmission processes. By comparison, cooler areas hit by the cyclone saw no significant effect of extreme precipitation on dengue incidence... (MORE - details, no ads)