城市空气污染与绿色环境对公众健康的关系。

Urban Air Pollution and Greenness in Relation to Public Health.

机构信息

Mizan-Tepi University, Tepi, Ethiopia.

出版信息

J Environ Public Health. 2023 Jan 30;2023:8516622. doi: 10.1155/2023/8516622. eCollection 2023.

DOI:10.1155/2023/8516622

PMID:36755782

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9902165/

Abstract

BACKGROUND

Air pollution is the result of economic growth and urbanization. Air pollution has been progressively recognized as a serious problem for cities, through widespread effects on health and well-being. There is less concern from stakeholders about greenness and air pollution mitigating factors in an urban area. This research targeted to indicate the spatial dissemination of greenery, air quality levels (PM, PM, CO, and AQI), and exposure to air quality-related health risks for the people in the urban area.

METHOD

The data were collected by measuring air quality at transportation stations and manufacturing industries with Air visual pro, then observing and mapping greenness in the city within the administrative boundary by GIS (street greenery, forest, availability of greenness in the manufacturing industry), and lastly questionnaire and interview were employed for air quality-related health issues. Then, the air quality data were analyzed by using USAQI standards and health messages. Both quantitative and qualitative research approach had employed to explore air pollution levels, availability of greenness, and air quality-related health issues. Moreover, Health questionnaires and greenness were correlated with air quality levels by a simple linear regression model.

RESULT

The result indicated that there was unhealthy air quality in the transportation and manufacturing industries. The measured air quality showed in a range of 50.13-96.84 g/m of PM, 645-1764 ppm of CO and 137-179 Air quality index (AQI). The highest mean of PM and air quality concentrations at Addis Ababa transportation stations and manufacturing sites ranged between 63.46 and 104.45 g/m and 179-326, respectively. It was observed with less street greenery and greenness available in residential, commercial areas, and manufacturing industries. The pollution level was beyond the limit of WHO standards. The result has shown a health risk to the public in the city, particularly for drivers, street vendors, and manufacturing industry employees. Among 480 respondents, 57.92% experienced health risks due to air pollution by medical evidence.

CONCLUSION

High health risks due to industries and old motor vehicles in the city need to be reduced by introducing policies and strategies for low-carbon, minimizing traveling distance, encouraging high occupancy vehicles, and promoting a green legacy in the street network and green building.

摘要

背景

空气污染是经济增长和城市化的结果。空气污染已逐渐被认为是城市面临的一个严重问题，对健康和福祉产生广泛影响。利益相关者对城市的绿化和减轻空气污染的因素关注较少。本研究旨在指出绿化、空气质量水平（PM、PM、CO 和 AQI）以及与空气质量相关的健康风险在城市地区的空间传播。

方法

通过 Air visual pro 测量交通站和制造业的空气质量来收集数据，然后通过 GIS 观察和绘制城市的绿化情况（街道绿化、森林、制造业的绿化可用性），最后采用问卷调查和访谈的方式研究与空气质量相关的健康问题。然后，使用 USAQI 标准和健康信息对空气质量数据进行分析。采用定量和定性研究方法探讨空气污染水平、绿化程度和与空气质量相关的健康问题。此外，通过简单线性回归模型将健康问卷和绿化与空气质量水平进行相关性分析。

结果

研究结果表明，交通和制造业存在空气质量不健康的情况。测量的空气质量显示范围在 50.13-96.84μg/m 的 PM、645-1764ppm 的 CO 和 137-179 的空气质量指数（AQI）之间。在亚的斯亚贝巴的交通站和制造站点，PM 和空气质量浓度的最高平均值范围分别在 63.46 至 104.45μg/m 和 179-326 之间。在居民区、商业区和制造业中，观察到的街道绿化和绿化程度较少。污染水平超过了世卫组织的标准。研究结果表明，该市公众，特别是司机、街头小贩和制造业工人面临健康风险。在 480 名受访者中，有 57.92%的人因空气污染而出现健康问题，这有医学证据支持。

结论

城市中工业和旧机动车造成的高健康风险需要通过引入低碳政策和战略、尽量减少行驶距离、鼓励高载客车辆以及在街道网络和绿色建筑中推广绿色遗产来降低。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5b7b/9902165/5e2dd22d6b6d/JEPH2023-8516622.001.jpg

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城市空气污染与绿色环境对公众健康的关系。

Urban Air Pollution and Greenness in Relation to Public Health.

机构信息

出版信息

BACKGROUND

METHOD

RESULT

CONCLUSION

背景

方法

结果

结论

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