Recent forest loss helps predict timing and location of Ebola outbreaks
Scientists have identified a time lag of up to two years between forest loss and the emergence of Ebola virus disease along the limits of the West and Central African rainforest.
In a new study published in the international journal Scientific Reports, led by scientists from the Center for International Forestry Research (CIFOR), the University of Malaga in Spain and other institutions provide indicators that could be useful for predicting where and when Ebola outbreaks are more likely to occur.
Tracking tree loss and forest fragmentation would allow to identify and target high-risk locations, according to this study. "The important thing in our research is that we are moving towards developing an early-warning system," explained Professor John E. Fa, a Senior Associate at CIFOR and a Professor of Human Development and Biodiversity at Manchester Metropolitan University in the United Kingdom. "This research is fundamental for us being able to pinpoint the areas where Ebola outbreaks might occur in the future."
This study independently supports recent research that indicated an association between Ebola outbreak locations and deforestation patterns. What is new is the conclusive evidence about the timing of outbreaks, within two years after forest loss.
This new research also suggests that preventing the loss of forests could reduce the likelihood of future outbreaks. "We have accumulated knowledge that removing forests causes problems not just to the functioning of the climate and ecosystems but also to humans, then we must see it as a threat to human livelihoods, health, security and everything else," said Fa.
Researchers investigated vegetation-cover changes near 27 populated areas where Ebola outbreaks occurred, compared to 280 areas of similar characteristics where there were no outbreaks. The research team used satellite imagery and other remote sensing techniques to analyze changes in forest density, tree height and canopy cover. Scientists applied several forest loss models, considering diverse patterns of forest fragmentation and tree loss. The study found that the loss of dense forests, principally those with more than 83% canopy cover, was an important factor in the emergence of Ebola outbreaks.
The Ebola virus is transmitted to people from wild animals and is highly contagious among humans. According to the World Health Organization, more than 11,000 people died of Ebola in Guinea, Liberia and Sierra Leone between 2014 and 2016.