Effectiveness of Green Corridor in Reducing the Level of Tropospheric Ozone Concentration in Legnica (Lower Silesia, SW Poland)

IF 1.3 Q4 ENGINEERING, ENVIRONMENTAL

Journal of Ecological Engineering Pub Date : 2024-05-01 DOI:10.12911/22998993/186163

R. Sobolewski

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Abstract

Introducing vegetation into towns and cities, for example through establishing green corridors which ensure a continuous character of urban green areas is a way to counteract negative effects of urban climate. The aim of the study was to assess the role of a green corridor and the contribution of vegetation to regulating the level of hourly tropospheric ozone concentrations in Legnica. Hourly values of tropospheric ozone concentrations (O 3 , μg m -3 ) and wind directions (D, °) collected between 2011 and 2014 from an urban background station for air quality monitoring of the Provincial Inspectorate for Environmental Protection were used in the study. To prepare a land cover map, data from the Database of Topographic Objects provided by the Geodesy and Cartography Department of the Marshal’s Office of the Lower Silesian Voivodship were used. The estimations of frequency of hourly O 3 concentrations for given seasons of the year and the analysis of land cover within 2 km from the measuring point were made based on an 8-wind compass rose. In summer, the frequency of hourly O 3 concentrations was assessed for every direction and for every hour of the day. A Pearson correlation matrix was generated to illustrate the rela - tionship between land cover type and the frequency of pollution coming from each direction, Between 21:00 and 6:00, increased frequency of hourly O 3 concentrations in the 0–40 μg m -3 range coming from the southwest was recorded, which accounted for 70–90% of all concentration ranges. Correlation analyses showed a statistically significant relationship between increased high vegetation coverage and decreased frequency of hourly O 3 concentrations in the 41–80 μg m -3 range. It was demonstrated that between 2011 and 2014, during summers, hourly O 3 concentrations <40 μg m -3 came most frequently from the direction characterised by the highest total share of vegetation-covered land. On the other hand, pollutants with concentrations in the 41–80 μg m -3 range came more frequently at night time from the directions characterised by compact and dense development. The obtained results demonstrated that in summer, the urban park, the Kaczawa River and the green areas along the river play an im - portant role as a green ventilation corridor.

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绿色走廊在降低莱格尼察（波兰西南部下西里西亚）对流层臭氧浓度水平方面的效果

在城镇引入植被，例如建立绿色走廊，确保城市绿地的连续性，是抵消城市气候负面影响的一种方法。这项研究旨在评估绿色走廊的作用以及植被对调节莱格尼察每小时对流层臭氧浓度水平的贡献。研究采用了 2011 年至 2014 年期间从省环境保护监察局空气质量监测城市背景站收集的对流层臭氧浓度小时值（O 3，μg m -3）和风向（D，°）。为绘制土地覆盖图，使用了下西里西亚省元帅办公室大地测量和制图部提供的地形物体数据库中的数据。根据八级风罗盘升高图估算了一年中特定季节每小时 O 3 浓度的频率，并分析了测量点 2 公里范围内的土地覆盖情况。在夏季，对每个方向和每天每个小时的每小时臭氧浓度频率进行了评估。在 21:00 至 6:00 期间，记录到来自西南方向的 0-40 μg m -3 范围内的每小时 O 3 浓度频率增加，占所有浓度范围的 70-90%。相关分析表明，高植被覆盖率的增加与 41-80 μg m -3 范围内每小时 O 3 浓度频率的降低之间存在显著的统计学关系。结果表明，在 2011 年至 2014 年期间的夏季，每小时 O 3 浓度小于 40 μg m -3 的情况最常见于植被覆盖率最高的方向。另一方面，浓度在 41-80 μg m -3 范围内的污染物在夜间更多地从密集发展的方向出现。研究结果表明，在夏季，城市公园、卡泽河和沿河绿地作为绿色通风走廊发挥着重要作用。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Ecological Engineering ENGINEERING, ENVIRONMENTAL-

CiteScore

2.60

自引率

15.40%

发文量

379

审稿时长

8 weeks

期刊介绍： - Industrial and municipal waste management - Pro-ecological technologies and products - Energy-saving technologies - Environmental landscaping - Environmental monitoring - Climate change in the environment - Sustainable development - Processing and usage of mineral resources - Recovery of valuable materials and fuels - Surface water and groundwater management - Water and wastewater treatment - Smog and air pollution prevention - Protection and reclamation of soils - Reclamation and revitalization of degraded areas - Heavy metals in the environment - Renewable energy technologies - Environmental protection of rural areas - Restoration and protection of urban environment - Prevention of noise in the environment - Environmental life-cycle assessment (LCA) - Simulations and computer modeling for the environment