Farfel Mark R, Orlova Anna O, Lees Peter S J, Rohde Charles, Ashley Peter J, Julian Chisolm J
Kennedy Krieger Research Institute, 707 North Broadway, Baltimore, MD 21205, USA.
Environ Res. 2005 Oct;99(2):204-13. doi: 10.1016/j.envres.2004.10.005. Epub 2004 Dec 15.
We examined changes in ambient dust lead (Pb) levels associated with the demolition of older row houses containing lead paint in Baltimore, MD, USA. Our previous paper describes the three study sites, the demolition processes, and increases in the Pb dustfall rate during demolition (>40-fold) and debris removal (>6-fold) within 10 m of sites where wetting was of limited effectiveness. This paper presents the analysis of settled dust collected using a cyclone device from streets, sidewalks, and alleys within 100 m of study sites before, immediately after, and 1 month after demolition. We found acute increases in Pb loadings and dust loadings after demolition and debris removal that are of public health concern. Streets and alleys had the greatest increases in Pb loadings and the highest levels overall. At one site, geometric mean (GM) Pb loadings immediately after demolition increased 200% for streets to 8080 microg/ft(2), 138% for alleys to 6020 microg/ft(2), and 26% for sidewalks to 2170 microg/ft(2). One month after demolition, the GM Pb loadings for streets, alleys, and sidewalks were reduced on average by 41-67% from post-demolition levels and were below baseline levels for alleys and sidewalks. The other main site had smaller increases in GM Pb loadings immediately after demolition-18% for alleys to 1740 microg/ft(2) and 18% for sidewalks to 2050 microg/ft(2)-and a decrease of 29% for streets to 2730 microg/ft(2). Exterior dust is a public health concern because it is a pathway of ambient Pb exposure and a potential source of residential exposure via tracking and re-aerosolization and re-deposition. Our findings highlight the need to control demolition-related Pb deposition and to educate planners, contractors, and health and housing agencies. This is particularly important given the large numbers of aging US dwellings that will be razed as part of future urban redevelopment efforts.
我们研究了美国马里兰州巴尔的摩市拆除含有铅漆的老旧排屋时,环境粉尘中铅(Pb)含量的变化情况。我们之前的论文描述了三个研究地点、拆除过程,以及在湿润效果有限的地点周围10米范围内拆除期间(超过40倍)和拆除碎片期间(超过6倍)铅降尘率的增加情况。本文介绍了使用旋风装置在拆除前、拆除后立即以及拆除后1个月从研究地点100米范围内的街道、人行道和小巷收集的沉降灰尘的分析结果。我们发现拆除和拆除碎片后铅含量和粉尘含量急剧增加,这引起了公众对健康问题的关注。街道和小巷的铅含量增加最多,总体水平最高。在一个地点,拆除后街道的几何平均(GM)铅含量立即增加了200%,达到8080微克/平方英尺,小巷增加了138%,达到6020微克/平方英尺,人行道增加了26%,达到2170微克/平方英尺。拆除后一个月,街道、小巷和人行道的GM铅含量平均比拆除后水平降低了41%-67%,小巷和人行道低于基线水平。另一个主要地点拆除后GM铅含量的增加幅度较小——小巷增加了18%,达到1740微克/平方英尺,人行道增加了18%,达到2050微克/平方英尺——街道减少了29%,达到2730微克/平方英尺。室外灰尘是一个公共卫生问题,因为它是环境铅暴露的一个途径,也是通过跟踪、再气溶胶化和再沉积造成住宅暴露的一个潜在来源。我们的研究结果强调了控制与拆除相关的铅沉积以及对规划者、承包商以及卫生和住房机构进行教育的必要性。鉴于作为未来城市重建工作的一部分,美国将有大量老旧住宅被拆除,这一点尤为重要。