Exhaustion

European air quality has worsened in recent decades as a consequence of increased anthropogenic emissions, in particular from the power generation sector. It is mainly associated with cardiovascular and respiratory diseases, along with morbidity and even mortality. The mitigation scenario (REN80-P2050) demonstrates that the effects of a mitigation policy of increasing the ratio of renewable sources in the energy mix could lead to a decrease of over 60 000 (95 % CI 48 500–70 900) annual PD for the year 2050 (a decrease of −4 % in comparison with the no-mitigation scenario FUT-P2050). Despite the uncertainties inherent in future estimations, this contribution reveals the need for governments and public entities to take action and choose air pollution mitigation policies.

We investigate the novel use of summer temperature-mortality associations established by these models for monitoring heat-related deaths in regions in England in near real time. For four summers in the period 2011–2020, we find that coupling these associations with observed daily mean temperatures results in England-wide heatwave mortality estimates that are consistent with the excess deaths estimated by UK Health Security Agency. However, our results for 2013, 2018 and 2020 highlight that the lagged effects of heat and characteristics of individual summers contribute to disagreement between the two methods.

Previous studies have reported a decrease in air pollution levels following the enforcement of lockdown measures during the first wave of the COVID-19 pandemic. However, these investigations were mostly based on simple pre-post comparisons using past years as a reference and did not assess the role of different policy interventions. This study contributes to knowledge by quantifying the association between specific lockdown measures and the decrease in NO2, O3, PM2.5, and PM10 levels across 47 European cities.

The report “Effects of air Temperature on Cardiopulmonary Mortality and Morbidity in Europe” was prepared as a milestone of the EU Project EXHAUSTION. It summarizes the evidence on the effects of different levels and changes in ambient air temperature on cardiopulmonary (CPD) mortality and morbidity across Europe and puts a spotlight on the vulnerable and susceptible population. It can help stakeholders and policymakers to plan adaptation measures to protect the vulnerable and susceptible population and increase European resilience towards climate change and extreme weather events.

The objective of this paper is to explore the evidence of adaptive mechanisms for cardiorespiratory diseases regarding extreme temperatures and air pollution by comparing the results of two systematic literature review (SLR) processes sharing the same initial research question but led by two research groups with different academic backgrounds working in the same multidisciplinary team.

Climate change and air pollution can interact to amplify risks to human health and crop production. Closer integration of climate change and air pollution both in terms of impact assessment for human health and agricultural productivity and respective policy development is needed.

Many regions of the world are now facing more frequent and unprecedentedly large wildfires. However, the association between wildfire-related PM2·5 and mortality has not been well characterised. We aimed to comprehensively assess the association between short-term exposure to wildfire-related PM2·5 and mortality across various regions of the world.

Short-term exposure to wildfire-related PM2·5 was associated with increased risk of mortality. Urgent action is needed to reduce health risks from the increasing wildfires.