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Disease is spreading due to climate change, with outbreaks in France, Italy and Spain
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Surveillance for Asian tiger mosquitoes at Olympics highlights threat from invasive species
As Europe grapples with the growing threat of tropical diseases brought by the Asian tiger mosquito, a research breakthrough led by the UK Centre for Ecology & Hydrology (UKCEH) is enabling scientists to accurately predict towns across the continent where there is a high risk of dengue fever.
Global movement of people, trade and climate change, are now putting half the world’s population are at risk of contracting dengue fever*. Commonly referred to as the ‘bone breaker’, the disease may cause severe muscle and joint pain, and in some cases can result in internal bleeding and death.
The spread of the Asian tiger mosquito (Aedes albopictus) has caused local outbreaks of dengue in France including Paris, as well as Italy and Spain, contracting the virus by biting returning travellers who were infected while abroad and then transmitting it to other people in the area.
Scientists expect this invasive mosquito species to eventually gain a foothold in the UK.
Improving disease prediction
Previous disease risk predictions indicated large regions, such as the whole of southern Europe, had a similar risk of local dengue cases over long timeframes, leaving local authorities uncertain whether their area was likely to be affected and action to prevent outbreaks was necessary.
But the UKCEH-led advanced high-resolution modelling divides Europe as well as eastern Asia and North America into 10km squares, providing daily risk assessments for each area. The new research involves a more detailed study of the entire life cycle of a mosquito, examining the impact of local climate and competition for food on species traits such as how long it lives and the number of eggs it lays.
This provides more accurate assessments of where, when and for how long there are likely to be local dengue cases.
The new modelling has already correctly predicted the locations of several towns that have gone on to have their first dengue outbreaks this year including La Colle-sur-Loup, Baho and Montpellier-Pérols in southern France, and Vila-seca, north-east Spain.
Dr Dominic Brass, an epidemiological modeller at UKCEH, who led the study, published in Nature Communications, says: “We predict that the parts of Europe most affected by dengue fever will continue to be southern France and northern Italy, due to a favourable climate, a stable mosquito population and the high number of travellers returning from tropical countries where the disease is prevalent.
“However, areas of risk are expanding northwards. Our ongoing research is modelling of the likely extent of future outbreaks in Europe under future climate change.”
Guiding action
The study team, from UKCEH, University of Glasgow, University of Reading, and Biomathematics and Statistics Scotland, hopes its more accurate predictions will guide preventative measures in areas that are at risk of dengue outbreaks. Possible action includes checking areas where mosquitoes typically lay their eggs such as standing water, as happened at the Paris Olympics, as well as advising the public to protect themselves against bites.**
Study senior author Dr Steven White of UKCEH says: “Our novel modelling technique shows remarkable accuracy for identifying the seasonal patterns and mechanisms of the risk of dengue fever outbreaks, providing a valuable tool for authorities drawing up action plans to prevent and control the spread of the disease.”
Rapid spread
In regions where Asian tiger mosquitoes are already established – including 13 countries in Europe – it is invaluable to know the times of year when there is greatest risk of a dengue fever outbreak, and how severe the risk is.
For other areas, it is useful to know what the disease risk would be if the species did arrive. This change can happen fairly quickly; Paris, for example, went from the first detection of the tiger mosquito in 2015 to having a dengue outbreak last year.
So far, the French capital is the most northerly place in Europe where there has been a local outbreak of dengue fever, and it also had a locally acquired (autochthonous) case of chikungunya disease in July after someone was bitten by an infected Asian tiger mosquito.
The UKCEH researchers say the modelling principles used in the dengue fever study can also be applied to other diseases transmitted by the tiger mosquito, such as chikungunya or Zika. They are currently drawing up risk maps for these diseases.
Asian tiger mosquito eggs have been found in south-east England, but the species has not yet become established in the UK. However, the research team warns this is likely to change in the future as the UK feels the effects of climate change.
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Paper information
Brass et al. 2024. Phenotypic plasticity in vector traits drives trends in global disease incidence: the spread of dengue virus by Aedes albopictus. Nature Communications. DOI: 10.1038/s41467-024-52144-5. Open access.
Media enquiries
For interviews and further information, please contact Simon Williams, Media Relations Officer at UKCEH, via simwil@ceh.ac.uk or +44 (0)7920 295384.
Notes to Editors
*About dengue fever
Dengue is a viral infection for which there is no specific treatment, though symptoms can usually be treated by general medicines. Most people are either asymptomatic or have flu-like conditions but in some people get severe muscle and joint pain, and in some cases, it causes internal bleeding and can be fatal.
Since the beginning of 2024, over 12 million dengue cases and over 8,000 dengue-related deaths have been reported from 86 countries/territories, according to the ECDC. The total cases so far is already more than twice the number of cases reported throughout 2023
Globally, the disease is mainly spread by Yellow fever mosquito (Aedes aegypti), which transmits several viruses but is now largely absent from Europe.
Why are Asian tiger mosquitoes spreading?
Tiger mosquitoes are native to the tropical forests of south-east Asia but in the past 50 years have expanded their range to the Americas, Africa, the Middle East and Europe due the global movement of people and trade. Their eggs can become concealed within used tyres imported from Asia, and adult mosquitoes can be moved from one area to another by human transport.
A warmer climate in northern hemisphere countries means the mosquitoes’ eggs are more likely to survive, thereby increasing populations, and hotter temperatures cause viruses to replicate faster.
What is being done to tackle the species and dengue fever?
Effective early diagnosis of conditions provides a warning about a local outbreak, so authorities can communicate the risks to the public.
**Personal measures to reduce the risk of bites include wearing clothes that cover most of the body as well as the use of mosquito repellent and screens over windows and doors. People in at-risk areas are advised be aware of potential mosquito breeding grounds, particularly standing water, including ensuring air conditioner drains are free of water, keeping bins covered to prevent them gathering rain and regularly changing water in birdbaths
Measures by local authorities to tackle dengue fever outbreaks when they occur include fumigation of potential mosquito breeding sites, open spaces and infected people’s homes.
In Northern Europe, the focus is on preventing further expansion of Asian tiger mosquitoes through surveillance, particularly around container ports and other major goods corridors.
About the UK Centre for Ecology & Hydrology
The UK Centre for Ecology & Hydrology (UKCEH) is a leading research institute employing over 500 of the world’s best environmental scientists. We exist to provide the vital environmental science that governments, businesses, NGOs, and researchers rely on to meet the great challenges of our time, contributing substantially to achieving UN Sustainable Development Goals.
UKCEH collaborative studies have shown that introductions of non-native species are increasing at unprecedented rates across the world, with no sign of slowing down. We have led research initiatives over 15 years across the UK, the EU and globally, focusing on developing information systems, horizon scanning, surveillance and risk assessment.
www.ceh.ac.uk / @UK_CEH / LinkedIn: UK Centre for Ecology & Hydrology