A recent study has claimed that with the climate getting warmer with every passing year, the geographical range of vector-borne diseases such as chikungunya, dengue fever, leishmaniasis, and tick-borne encephalitis (TBE) is expanding rapidly.
Spurred on by climate change, international travel, and trade, vector-borne disease outbreaks are set to increase across much of Europe over the next few decades and not just in the temperate countries around the Mediterranean.
Even previously unaffected areas in higher latitudes and altitudes, including some parts of northern Europe, could see an increase in outbreaks unless action is taken to improve surveillance and data sharing and to monitor environmental and climatic precursors to outbreaks, alongside other preventive measures.
“Climate change is not the only or even the main factor driving the increase in vector-borne diseases across Europe, but it is one of many factors alongside globalisation, socioeconomic development, urbanisation, and widespread land-use change which need to be addressed to limit the importation and spread of these diseases,” said Jan Semenza, lead author of the study published in the Journal of European Society of Clinical Microbiology and Infectious Diseases.
According to Giovanni Rezza, head researcher of the project, the stark reality is that long hot seasons will enlarge the seasonal window for the potential spread of vector-borne diseases and favour larger outbreaks.
“We must be prepared to deal with these tropical infections. Lessons from recent outbreaks of West Nile virus in North America and chikungunya in the Caribbean and Italy highlight the importance of assessing future vector-borne disease risks and preparing contingencies for future outbreaks,” said Rezza.
As part of the study, the authors also caution that given the complicated interplay between multiple drivers (warming temperatures and international travel), weather sensitive pathogens, and climate-change adoption, projecting the future burden of disease is difficult.
Global warming has allowed mosquitoes, ticks, and other disease-carrying insects to proliferate, adapt to different seasons, and invade new territories across Europe over the past decade with accompanying outbreaks of dengue in France and Croatia, malaria in Greece, West Nile Fever in Southeast Europe, and chikungunya virus in Italy and France.
Worryingly, the authors say, this might only be the tip of the iceberg. “Mediterranean Europe is now a part-time tropical region, where competent vectors like the Tiger mosquito are already established,” Rezza asserted.
Hotter and wetter weather could provide ideal conditions for the Asian tiger mosquito (Aedes albopictus), which spreads the viruses that cause dengue and chikungunya, to breed and expand across large parts of Europe including the south and east of the UK and central Europe.
Previously dengue transmission was largely confined to tropical and subtropical regions because freezing temperatures kill the mosquito’s larvae and eggs, but long hot seasons could enable albopictus to survive and spread across much of Europe within decades, researchers say.