Department of Environmental and Occupational Health Sciences, School of Public Health, University of Washington, Seattle, WA 98195, USA.
Comite Civico del Valle, Brawley, CA 92227, USA.
Int J Environ Res Public Health. 2019 Sep 5;16(18):3268. doi: 10.3390/ijerph16183268.
Conventional regulatory air quality monitoring sites tend to be sparsely located. The availability of lower-cost air pollution sensors, however, allows for their use in spatially dense community monitoring networks, which can be operated by various stakeholders, including concerned residents, organizations, academics, or government agencies. Networks of many community monitors have the potential to fill the spatial gaps between existing government-operated monitoring sites. One potential benefit of finer scale monitoring might be the ability to discern elevated air pollution episodes in locations that have not been identified by government-operated monitoring sites, which might improve public health warnings for populations sensitive to high levels of air pollution. In the Imperial Air study, a large network of low-cost particle monitors was deployed in the Imperial Valley in Southeastern California. Data from the new monitors is validated against regulatory air monitoring. Neighborhood-level air pollution episodes, which are defined as periods in which the PM (airborne particles with sizes less than 2.5 μm in diameter) hourly average concentration is equal to or greater than 35 μg m, are identified and corroborate with other sites in the network and against the small number of government monitors in the region. During the period from October 2016 to February 2017, a total of 116 episodes were identified among six government monitors in the study region; however, more than 10 times as many episodes are identified among the 38 community air monitors. Of the 1426 episodes identified by the community sensors, 723 (51%) were not observed by the government monitors. These findings suggest that the dense network of community air monitors could be useful for addressing current limitations in the spatial coverage of government air monitoring to provide real-time warnings of high pollution episodes to vulnerable populations.
传统的监管空气质量监测站点往往分布稀疏。然而,低成本空气污染传感器的出现使得它们能够在空间密集的社区监测网络中使用,这些网络可以由各种利益相关者操作,包括有关居民、组织、学术界或政府机构。许多社区监测器的网络有可能填补现有政府运营监测站点之间的空间空白。更精细的监测的一个潜在好处是能够识别出政府运营监测站点未识别的地点的空气污染加剧事件,这可能会改善对高水平空气污染敏感的人群的公共卫生警报。在 Imperial Air 研究中,在加利福尼亚州东南部的 Imperial 山谷中部署了一个大型低成本粒子监测器网络。新监测器的数据与监管空气质量监测进行了验证。邻里级别的空气污染事件被定义为 PM(直径小于 2.5μm 的空气悬浮颗粒)每小时平均浓度等于或大于 35μg m 的时间段,这些事件与网络中的其他站点以及该地区少数几个政府监测器相吻合。在 2016 年 10 月至 2017 年 2 月期间,在研究区域的六个政府监测器中总共确定了 116 个事件;然而,在 38 个社区空气监测器中,确定的事件数是其 10 多倍。在社区传感器确定的 1426 个事件中,有 723 个(51%)未被政府监测器观察到。这些发现表明,密集的社区空气监测网络可能有助于解决政府空气监测在空间覆盖方面的当前限制,为弱势人群提供实时高污染事件警报。
