Project description
Understanding of the real impact of adaptation measures to rising temperatures
Thousands of Europeans die each year due to ambient temperatures. While the case, there is still little information on how climate change will affect the future of public health. Societies have turned to adaption strategies to tackle the impacts of future temperature rises in Europe. However, evidence of their effectiveness is lacking. The EU-funded EARLY-ADAPT project aims to analyse the drivers of recent trends in human health. The project's hypothesis is that societies are beginning to adapt to climate change, but the effectiveness of early adaptation is heterogeneous among and within European societies. The work of EARLY-ADAPT will help detect, comprehend and measure the inequalities in adaptation.
Objective
Nearly 8% of deaths are attributable to ambient temperatures, but little is known about the future impact in a warming world. I conducted studies in high-impact journals showing that this death toll can be largely reduced if a substantial degree of adaptation to ambient temperatures takes place. Adaptation strategies have been increasingly implemented in Europe in recent years, but the last IPCC report indicated that evidence of their effectiveness is still lacking. I postulate that adaptation measures are starting to generate positive benefits for the wellbeing of societies, including an adaptive response to climate change, but the degree to which they are effectively reducing human vulnerability is largely heterogeneous among and within European societies. I aim to describe the major sources of vulnerability, and if, which and to what extent societies have already started to adapt to changing conditions. Towards this aim, I will use predictive models to quantify the potential beneficial effect of early adaptation strategies through the attribution of temporal changes in human vulnerability. For that purpose, I will generate a massive database with daily counts of death for different subdomains and spatial resolutions, including data for countries, regions, cities and neighbourhoods, together with the best available climate, air pollution, influenza, socioeconomic and demographic datasets. In addition, I will combine the best epidemiological techniques with weather and climate forecasts and climate change simulations to perform an integrated predictability assessment of mortality risks and provide a realistic re-estimation of the likely range of future heat- and cold- attributable mortality. Expected results will provide a better understanding of the real impact of adaptation measures, which is key for decision-making and the design of strategies minimizing the negative impacts of future temperature rises in Europe.
Fields of science
- social sciencessociologydemographymortality
- natural sciencescomputer and information sciencesdatabases
- engineering and technologyenvironmental engineeringair pollution engineering
- natural sciencesearth and related environmental sciencesenvironmental sciencespollution
- natural sciencesearth and related environmental sciencesatmospheric sciencesclimatologyclimatic changes
Keywords
Programme(s)
Funding Scheme
ERC-COG - Consolidator GrantHost institution
08036 Barcelona
Spain