极端温度和PM2.5对美国13个州死因特异性死亡率的相互影响。

IF 5.8 2区环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES Environmental Research Letters Pub Date : 2025-01-01 Epub Date: 2024-12-06 DOI:10.1088/1748-9326/ad97d1

Edgar Castro, James Healy, Abbie Liu, Yaguang Wei, Anna Kosheleva, Joel Schwartz

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引用次数: 0

摘要

暴露于高温和环境PM2.5之间相互作用的程度和强度尚不清楚，暴露于低温和环境PM2.5之间的相互作用知之甚少。由于PM2.5在大气中无处不在，极端温度事件的范围和频率不断增加，弄清这些相互作用（如果有的话）至关重要。为了研究这两种相互作用，我们将13个州17年来的6 073 575个个人死亡率记录与来自复杂预测模型的1公里每日PM2.5预测和来自Daymet V4的1公里气象学进行了合并。采用时间分层、双向病例交叉设计来控制个体水平、长期和循环周特征的混淆。我们拟合了PM2.5与极端温度事件之间的相互作用项的条件逻辑回归，以研究潜在的相互作用对死亡率的影响。在2 d移动平均暴露窗内，环境PM2.5暴露对所有内因死亡率的影响最大。此外，我们发现PM2.5的2天移动平均值增加10 μg m-3与极端高温之间存在一致的协同相互作用，其相互作用比值比分别为1.013 (95% CI: 1.000, 1.026), 1.024 （95% CI: 1.002, 1.046）和1.033 (95% CI: 0.991, 1.077)，所有内部原因，循环原因和呼吸原因导致的死亡分别代表75%，156%和214%的PM2.5系数估计增加。我们还发现了相互作用的证据，在加性尺度上，相互作用的相对超额风险（RERIs）分别为0.013 （95% CI: 0.003, 0.021）、0.020 （95% CI: 0.008, 0.031）和0.017 （95% CI: -0.015, 0.036）。与其他PM2.5暴露窗口的相互作用更为明显。对于极寒，我们的结果暗示了一种拮抗关系。这些结果表明，环境PM2.5与暴露在极端高温下有协同作用，比单独暴露在极端高温下产生更大的死亡风险。

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Interactive effects between extreme temperatures and PM_2.5 on cause-specific mortality in thirteen U.S. states.

The extent and robustness of the interaction between exposures to heat and ambient PM_2.5 is unclear and little is known of the interaction between exposures to cold and ambient PM_2.5. Clarifying these interactions, if any, is crucial due to the omnipresence of PM_2.5 in the atmosphere and increasing scope and frequency of extreme temperature events. To investigate both of these interactions, we merged 6 073 575 individual-level mortality records from thirteen states spanning seventeen years with 1 km daily PM_2.5 predictions from sophisticated prediction model and 1 km meteorology from Daymet V4. A time-stratified, bidirectional case-crossover design was used to control for confounding by individual-level, long-term and cyclic weekly characteristics. We fitted conditional logistic regressions with an interaction term between PM_2.5 and extreme temperature events to investigate the potential interactive effects on mortality. Ambient PM_2.5 exposure has the greatest effect on mortality by all internal causes in the 2 d moving average exposure window. Additionally, we found consistently synergistic interactions between a 10 μg m^-3 increase in the 2 d moving average of PM_2.5 and extreme heat with interaction odds ratios of 1.013 (95% CI: 1.000, 1.026), 1.024 (95% CI: 1.002, 1.046), and 1.033 (95% CI: 0.991, 1.077) for deaths by all internal causes, circulatory causes, and respiratory causes, respectively, which represent 75%, 156%, and 214% increases in the coefficient estimates for PM_2.5 on those days. We also found evidence of interactions on the additive scale with corresponding relative excess risks due to interaction (RERIs) of 0.013 (95% CI: 0.003, 0.021), 0.020 (95% CI: 0.008, 0.031), and 0.017 (95% CI: -0.015, 0.036). Interactions with other PM_2.5 exposure windows were more pronounced. For extreme cold, our results were suggestive of an antagonistic relationship. These results suggest that ambient PM_2.5 interacts synergistically with exposure to extreme heat, yielding greater risks for mortality than only either exposure alone.

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来源期刊

Environmental Research Letters 环境科学-环境科学

CiteScore

11.90

自引率

4.50%

发文量

763

审稿时长

4.3 months

期刊介绍： Environmental Research Letters (ERL) is a high-impact, open-access journal intended to be the meeting place of the research and policy communities concerned with environmental change and management. The journal''s coverage reflects the increasingly interdisciplinary nature of environmental science, recognizing the wide-ranging contributions to the development of methods, tools and evaluation strategies relevant to the field. Submissions from across all components of the Earth system, i.e. land, atmosphere, cryosphere, biosphere and hydrosphere, and exchanges between these components are welcome.