Rift Valley Fever (RVF) is a deadly mosquito-borne disease that affects both humans and valuable livestock in Africa. The fever-causing virus affects the local population and domestic animals such as cattle, buffalo, sheep, goats, and camels. Occurring in years of unusually heavy rainfall, the flooding caused by these rains provides an ideal environment for naturally infected mosquito eggs to hatch.
The virus is difficult to control because infected mosquito eggs can survive for years in the normally dry soil. After infection, animals develop high levels of the virus in their blood, thus infecting previously unaffected mosquitoes, which then infect other animals and humans. People can catch RVF either from the bite of a mosquito or through direct contact with the blood, milk, or meat of infected animals, which for many people are a primary source of milk and food.
Once an outbreak in the animal population (known as an epizootic event) occurs, it’s too late to administer action such as livestock vaccines or larval insecticides that kill the infected mosquito population. Humans can try to limit their exposure to the mosquitoes and infected livestock to prevent their own infection, but the livestock mortality rate for infected livestock is more than 90 percent in newborns and 10-30 percent in adult animals.
In 2006-2007, outbreaks in Kenya, Somalia, Tanzania, Sudan, and Madagascar caused more than 200,000 human infections and led to roughly 500 deaths. In Kenya alone, the outbreak cost $32 million in livestock losses and international export bans. An outbreak in 1997 caused 170 hemorrhagic fever-associated deaths and approximately 27,500 infections. The most serious outbreak on record occurred in Kenya in 1950-1951 and resulted in the death of roughly 100,000 sheep.
If it’s not possible to stop an outbreak once it begins, the solution is to try to stop an outbreak before it occurs. With enough warning, health officials can work to prevent RVF illnesses in animals and humans. While there isn’t currently an RVF vaccine for human use, there are vaccines available for livestock. When we know heavy rains are on their way, we can alert health officials, who vaccinate these animals or work to spread pesticides to kill the mosquitos before they hatch.
Predicting a possible outbreak
RVF outbreaks in East Africa occur during specific environmental conditions: heavy rains and vegetation overgrowth in areas with low grassland depressions called “dambos.” In an effort to predict when an RVF outbreak could occur, scientists have identified climate patterns that cause these conditions. One such pattern is happening right now: a strong, ongoing El Niño event.
The warm equatorial Pacific waters of El Niño events influence regional weather across the globe. East Africa—which includes Ethiopia, Somalia, Kenya, Tanzania, Uganda, Burundi, Rwanda, Sudan and South Sudan—have already seen El Niño effects this year. The “short rains” rainy season, which typically runs from October to December, has seen an increase in rain and wetter conditions, making this year potentially ripe for an RVF outbreak.
To this end, a number of U.S. government agencies work in tandem to monitor the state of sea surface temperature, rainfall, and ecological conditions in order to identify areas at risk of RVF outbreaks. The RVF Monitor website—run by NASA, the U.S. Department of Agriculture, and the Department of Defense—developed an RVF outbreak forecasting model. Using satellite-derived data, the model draws on the relationship between RVF activity and El Niño-driven flooding. The RVF Monitor uses El Niño forecast and other data from NOAA’s Climate Prediction Center.
Building the RVF Monitor
The potential to prevent an outbreak with sufficient lead time drove some of the early RVF research at the Department of Defense. During the 1997-1998 El Niño, an interagency program led by NOAA funded work ongoing with the Department of Defense and the Centers for Disease Control to better understand how El Niño might be used to predict RVF outbreaks. This work and these partnerships led to the development of the RVF Monitor, and the opportunity to put that predictive modeling in action.
During the 2006-2007 El Niño event, U.S. government alerts based on these models enabled countries in East Africa to enhance surveillance, communicate risk, and begin preparations two to four months before human infections began. The success of this initiative validated model predictions and led to the RVF Monitor program becoming an operationalized model with monthly updates.
This year, which stands to be one of the top three El Niño events since 1950, the Monitor identified areas at risk for RVF because of the substantially elevated rainfall in Sudan, South Sudan, Ethiopia, Somalia, Kenya, and Tanzania. The heavy rainfall in these areas is predicted to continue through early 2016, thus increasing the possibility of an RVF outbreak.
In mid-December, the group released its first pilot-product: an “Emerging Health Risk Notification,” about this year's risk of El Niño-driven RVF outbreaks in East Africa. Their goal is to prevent, or at least reduce, the magnitude of outbreaks affecting human lives, livestock, and trade. By getting these forecasts into the hands of those who need them, the team hopes that humanitarian agencies and health workers can deploy vaccines and mosquito control before the 30-day “window of prevention” closes.
“If we do this right, no one will hear about a Rift Valley Fever outbreak in 2016 because there won’t be one,” said Juli Trtanj, NOAA’s Climate and Health Lead.
Emerging Health Notification: El Nino and Rift Valley Fever
The Rift Valley Fever Monitor - USDA, DoD, NASA, CDC
Climate Prediction Center: NOAA ENSO forecasts
Climate.gov ENSO Blog
CDC: Rift Valley Fever Fact Sheet
WHO: Rift Valley Fever
ENSO Blog: November El Nino Update - It’s a small world
CDC: The Story of the Rift Valley Fever Virus Vaccine
NASA Visible Earth: Predicting Rift Valley Fever