Temperature-related mortality burden and projected change in 1368 European regions: a modelling study.

IF 25.4 1区医学 Q1 PUBLIC, ENVIRONMENTAL & OCCUPATIONAL HEALTH Lancet Public Health Pub Date : 2024-09-01 Epub Date: 2024-08-21 DOI:10.1016/S2468-2667(24)00179-8

David García-León, Pierre Masselot, Malcolm N Mistry, Antonio Gasparrini, Corrado Motta, Luc Feyen, Juan-Carlos Ciscar

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Abstract

Background: Excessively high and low temperatures substantially affect human health. Climate change is expected to exacerbate heat-related morbidity and mortality, presenting unprecedented challenges to public health systems. Since localised assessments of temperature-related mortality risk are essential to formulate effective public health responses and adaptation strategies, we aimed to estimate the current and future temperature-related mortality risk under four climate change scenarios across all European regions.

Methods: We modelled current and future mortality due to non-optimal temperatures across 1368 European regions, considering age-specific characteristics and local socioeconomic vulnerabilities. Overseas territories were excluded from the analysis. We applied a three-stage method to estimate temperature-related risk continuously across age and spatial dimensions. Age and city-specific exposure-response functions were obtained for a comprehensive list of 854 European cities from the Urban Audit dataset of Eurostat. Regional aggregates were calculated using an aggregation and extrapolation method that incorporates the risk incidence in neighbouring cities. Mortality was projected for present conditions observed in 1991-2020 and for four different levels of global warming (1·5°C, 2°C, 3°C, and 4°C increase) by regions, and subregions using an ensemble of 11 climate models produced by the Coordinated Regional Climate Downscaling Experiment-CMIP5 over Europe, and population projection data from EUROPOP2019.

Findings: Our results highlight regional disparities in temperature-related mortality across Europe. Between 1991 and 2020, the number of cold-related deaths was 2·5 times higher in eastern Europe than western Europe, and heat-related deaths were 6 times higher in southern Europe than in northern Europe. During the same time period, there were a median of 363 809 cold-related deaths (empirical 95% CI 362 493-365 310) and 43 729 heat-related deaths (39 880-45 921), with a cold-to-heat-related death ratio of 8·3:1. Under current climate policies, aligned with 3°C increase in global warming, it is estimated that temperature-related deaths could increase by 54 974 additional deaths (24 112-80 676) by 2100, driven by rising heat-related deaths and an ageing population, resulting in a cold-to-heat-related death ratio of 2·6:1. Climate change is also expected to widen disparities in regional mortality, particularly impacting southern regions of Europe as a result of a marked increase in heat-related deaths.

Interpretation: This study shows that regional disparities in temperature-related mortality risk in Europe are substantial and will continue to increase due to the effects of climate change and an ageing population. The data presented can assist policy makers and health authorities in mitigating increasing health inequalities by prioritising the protection of more susceptible areas and older population groups. We identify the projected areas of heightened risk (southern Europe), where policy intervention aimed at building adaptation and enhancing resilience should be prioritised.

Funding: European Commission.

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欧洲 1368 个地区与气温有关的死亡率负担和预计变化：一项模拟研究。

背景：过高和过低的温度严重影响人类健康。预计气候变化将加剧与高温相关的发病率和死亡率，给公共卫生系统带来前所未有的挑战。由于与气温相关的局部死亡风险评估对于制定有效的公共卫生对策和适应战略至关重要，因此我们旨在估算欧洲所有地区在四种气候变化情景下当前和未来与气温相关的死亡风险：我们对欧洲 1368 个地区当前和未来因非最佳气温导致的死亡率进行了模拟，同时考虑了年龄特征和当地的社会经济脆弱性。海外地区不在分析之列。我们采用了一种三阶段法来估算与气温相关的跨年龄和空间维度的连续风险。我们从欧盟统计局的城市审计数据集中获得了一份包含 854 个欧洲城市的综合清单，其中包括特定年龄和城市的暴露-反应函数。区域总量的计算采用了综合和外推法，将邻近城市的风险发生率纳入其中。利用欧洲协调区域气候降尺度实验--CMIP5 生成的 11 个气候模型的集合以及 EUROPOP2019 的人口预测数据，按地区和次地区对 1991-2020 年观测到的当前条件和四种不同的全球变暖水平（1-5°C、2°C、3°C 和 4°C）下的死亡率进行了预测：我们的研究结果凸显了整个欧洲与气温有关的死亡率的地区差异。1991 至 2020 年间，东欧与寒冷相关的死亡人数是西欧的 2-5 倍，南欧与高温相关的死亡人数是北欧的 6 倍。在同一时期，与寒冷相关的死亡中位数为 363 809 例（经验值 95% CI 362 493-365 310），与高温相关的死亡中位数为 43 729 例（39 880-45 921），寒冷与高温相关的死亡比例为 8-3:1。根据目前的气候政策，按照全球升温 3°C 的情况，估计到 2100 年，与气温相关的死亡人数会增加 54 974 人（24 112-80 676），原因是与高温相关的死亡人数增加和人口老龄化，导致与寒冷相关的死亡人数与与高温相关的死亡人数之比为 2-6:1。预计气候变化还将扩大地区死亡率的差距，尤其是对欧洲南部地区的影响，因为与热有关的死亡人数将显著增加：这项研究表明，由于气候变化和人口老龄化的影响，欧洲与气温相关的死亡风险的地区差异很大，并将继续扩大。所提供的数据可以帮助政策制定者和卫生部门优先保护更易受影响的地区和老年人群，从而缓解日益加剧的健康不平等现象。我们确定了预计风险较高的地区（南欧），在这些地区应优先采取旨在建立适应性和提高复原力的政策干预措施：欧盟委员会。

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来源期刊

Lancet Public Health Medicine-Public Health, Environmental and Occupational Health

CiteScore

55.60

自引率

0.80%

发文量

305

审稿时长

8 weeks

期刊介绍： The Lancet Public Health is committed to tackling the most pressing issues across all aspects of public health. We have a strong commitment to using science to improve health equity and social justice. In line with the values and vision of The Lancet, we take a broad and inclusive approach to public health and are interested in interdisciplinary research. We publish a range of content types that can advance public health policies and outcomes. These include Articles, Review, Comment, and Correspondence. Learn more about the types of papers we publish.

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