Zika: Q&A with the climate expert

Technology Eye | April. 11, 2016

What's the link between global warming and the spread of the Zika virus? We hear from Madeleine Thomson, who directs the WHO Collaborating Centre on Malaria Early Warning Systems and Other Climate Sensitive Diseases at the International Research Institute for Climate and Society ( IRI), Earth Institute, Columbia University.

What do you do?

We look at how knowledge and information about the climate can improve health decision-making, particularly in developing countries. There is a focus on vector-borne diseases [vectors include mosquitoes and ticks], but we have also been working on other diseases related to environment and climate, including meningococcal meningitis in the Sahel.

How are Zika virus and the climate related?

We know that virtually all vector-borne diseases have a climate dimension. Temperature drives the rate at which vectors and pathogens [things that cause disease, such as viruses and bacteria] develop, while rainfall often supports the creation of sites for the vectors to breed.

A lot of work has already been done on the relationship between dengue and climate, looking at rainfall and temperature and at how El Niño and La Niña have an impact. The vectors for dengue are Aedes aegypti and Aedes albopictus mosquitoes. This is a starting point for Zika, as it shares the same vectors. A. aegypti is an urban mosquito that breeds in containers where fresh water might collect, from flower vases to water drums to broken coconut shells. It is found only in tropical and subtropical regions. A. albopictus has the potential for a slightly broader geographic range as its eggs can survive long periods in a dormant state.

How easy is it to predict what and where the next big epidemic will be?

The recent expansion of the A. aegypti and A. albopictus mosquitoes is very much associated with globalization – things like the movement of shipping containers around the world, air travel, population movement, forest clearing and urbanization.

We have to expect more of this type of emergence: new diseases that were historically isolated (and therefore didn’t have a big impact) which can spread very rapidly and have a huge impact on a large community. Zika is not the last. There’ll be others, but predicting exactly what, where and when is really difficult. Instead we need to prepare ourselves to be able to respond rapidly to a broad range of possible threats.

How will climate change affect the frequency and severity of epidemics?

We have to look at climate change in the context of all the other changes that are going on. Yes, it will have an effect, but the key question is how important that effect will be relative to other things that are happening. That is quite challenging. For instance, in the highlands of eastern Africa or of Latin America you don’t get transmission of dengue or malaria above a certain altitude because it is too cool. Those areas will definitely start to be exposed to transmission as temperatures rise in association with climate change.

People have low immunity in areas where you don’t have prior transmission and therefore you can get explosive epidemics of diseases that people are already pretty familiar with in other parts of the world. But it also depends on other factors, including whether areas are highly populated or not and whether there is the capacity to respond rapidly.

How can climate scientists help the world prepare better for future epidemics?

Climate scientists have to be interested in how their science can benefit society in a practical way. Then they have to really look at the timeframe of decisions. Climate variability, which includes the impact of El Niño and La Niña, has a significant short-term impact on global temperatures and regional rainfall. Longer-term trends in climate (including those associated with human-induced changes) interact with this variability, meaning that, while likely changes in 50 or 100 years’ time are well-understood for some regions, making predictions for the next 5 to 15 years is very difficult. And this is the timeframe often requested by decision makers.

People are often asked questions around climate change, but if you are down in the weeds as a malaria, dengue or Zika control person, you are really largely dealing in the timeframe of climate variability. What is happening now? What happened last year? What might happen next year in this particular locality? However, policy makers still need to be aware of what the longer-term trends might be so they can build the institutional capacity needed to respond effectively down the line. You need climate scientists who are able to support decision makers across a range of time and spatial scales.

What’s the one change you’d make in the world to make us better prepared for epidemics?

I would incorporate some fairly straightforward information on climate and environmental disease drivers in all epidemiological training that happens around the world. Outbreak response people can work with partners in countries to get the best data, but if the health sector doesn’t understand the issues, particularly around climate variability and change, then it’s very hard for them to use the information effectively.

This article first appeared on the Wellcome Trust blog and is published under a Creative Commons CC BY 4.0 licence . Madeleine is currently serving as a funding committee member for ‘Our Planet, Our Health’, Wellcome’s initiative to investigate the complex connections between the environment and the long-term health of our species.

SOURCE: World Economic Forum

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