Institute of Environmental Assessment and Water Research (IDAEA), Spanish Council for Scientific Research (CSIC), Barcelona, Spain.
ISGlobal, Centre for Research in Environmental Epidemiology (CREAL), Barcelona, Spain.
Environ Int. 2018 Feb;111:144-151. doi: 10.1016/j.envint.2017.11.015. Epub 2017 Dec 20.
Evidence on the short-term effects of ultrafine particles (with diameter<100nm, UFP) on health is still inconsistent. New particles in ambient urban air are the result of direct emissions and also the formation of secondary UFP from gaseous precursors. We segregated UFP into these two components and investigated their impact on daily mortality in three Spanish cities affected by different sources of air pollution.
We separated the UFP using a method based on the high correlation between black carbon (BC) and particle number concentration (N). The first component accounts for aerosol constituents emitted by vehicle exhaust (N1) and the second for the photochemical new particle formation enhancements (N2). We applied city-specific Poisson regression models, adjusting for long-term trends, temperature and population dynamics.
Mean BC levels were higher in Barcelona and Tenerife (1.8 and 1.2μg·m, respectively) than in Huelva (0.8μg·m). While mean UFP concentrations were similar in the three cities, from which N1 was 40% in Barcelona, 46% in Santa Cruz de Tenerife, and 27% in Huelva. We observed an association with N1 and daily mortality in Barcelona, by increasing approximately 1.5% between lags 0 and 2, per an interquartile increase (IQR) of 3277cm, but not with N2. A similar pattern was found in Santa Cruz de Tenerife, although none of the associations were significant. Conversely, in the industrial city of Huelva mortality was associated with N2 at lag 0, by increasing 3.9% per an IQR of 12,032·cm.
The pattern and origin of UFP determines their short-term effect on human health. BC is possibly the better parameter to evaluate the health effects of particulate vehicle exhaust emissions, although in areas influenced by domestic solid fuel combustion this should also be taken into account.
关于超细颗粒(直径<100nm,UFP)对健康的短期影响的证据仍然不一致。环境城市空气中的新颗粒是直接排放的结果,也是气态前体形成二次 UFP 的结果。我们将 UFP 分为这两个组成部分,并在受不同空气污染源影响的三个西班牙城市研究它们对每日死亡率的影响。
我们使用一种基于黑碳(BC)和粒子数浓度(N)之间高度相关的方法来分离 UFP。第一个组件占车辆尾气排放的气溶胶成分(N1),第二个组件占光化学新粒子形成增强的成分(N2)。我们应用了特定城市的泊松回归模型,对长期趋势、温度和人口动态进行了调整。
巴塞罗那和特内里费的平均 BC 水平(分别为 1.8 和 1.2μg·m)高于韦尔瓦(0.8μg·m)。尽管三个城市的 UFP 浓度相似,但 N1 在巴塞罗那占 40%,在圣克鲁斯-德特内里费占 46%,在韦尔瓦占 27%。我们观察到 N1 与巴塞罗那的每日死亡率之间存在关联,在 0 至 2 天的滞后期内,每增加一个四分位距(IQR)3277cm,死亡率增加约 1.5%,但与 N2 无关。在圣克鲁斯-德特内里费也发现了类似的模式,尽管没有一种关联具有统计学意义。相反,在工业城市韦尔瓦,死亡率与 N2 呈正相关,在 0 天的滞后期内,每增加一个 IQR 的 12032·cm,死亡率增加 3.9%。
UFP 的模式和来源决定了它们对人类健康的短期影响。BC 可能是评估颗粒物车辆尾气排放对健康影响的更好参数,尽管在受家用固体燃料燃烧影响的地区也应考虑这一点。
