土地利用变化与大气污染物对太原市热环境的影响研究

刘翔宇; 付绍桐; 乔 琼; 王世锋; 甄志磊

文章摘要

刘翔宇,付绍桐,乔琼,王世锋,甄志磊.土地利用变化与大气污染物对太原市热环境的影响研究[J].林业调查规划,2024,49(5):159-166

土地利用变化与大气污染物对太原市热环境的影响研究

Effects of Land Use Change and Air Pollutants on Thermal Environmentin Taiyuan City

DOI：

中文关键词: 地表温度大气污染物土地利用城市热岛新冠疫情影响太原市

英文关键词: land surface temperature air pollutants land use urban heat island COVID-19 impact Taiyuan City

基金项目:

作者	单位
刘翔宇	山西农业大学城乡建设学院,山西太谷 030801
付绍桐	山西农业大学城乡建设学院,山西太谷 030801
乔琼	山西农业大学城乡建设学院,山西太谷 030801
王世锋	山西一拓国土工程咨询有限公司,山西太原 030000
甄志磊	山西农业大学城乡建设学院,山西太谷 030801

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中文摘要:

COVID-19 疫情封控是研究人类活动减少对城市热环境影响的重要“窗口期”。选取太原市白天MOD11A2温度数据(LST)、大气环境监测数据(PM_2.5、PM₁₀、SO₂、NO₂、CO和O₃) 以及土地利用数据,探讨COVID-19疫情封控前后(2015—2021年)LST时空变化以及影响因素。结果表明,2015—2021年,太原市建设用地、林地和水体的面积呈增加的趋势,而草地面积却明显减小。不同土地利用类型白天LST 均表现出一定的规律,即建设用地>耕地>水体>草地>林地。建设用地和耕地对城市热岛的贡献度最高,林地和草地降温效果显著。2017年以来大气污染物的降低与该市的环保政策有关。2020以后的COVID-19封控政策促进了空气质量进一步转好。大气污染物与热环境是相互作用的,2017—2019年太原市LST 缓慢增加可能与PM_2.5降低导致短波辐射增加有关,2021年O₃增加可能是由LST 的升高引起的COVID-19疫情防控前后,太阳辐射对林地和草地LST影响相对显著。2021年不同土地类型的LST升高可能与大气污染颗粒明显减少有关。

英文摘要:

COVID-19 epidemic urban lockdown is an important “window period” for studying the impact of reduced human activities on the urban thermal environment. The study selected the daytime MOD11A2 land surface temperature (LST) data, atmospheric environmental monitoring data (PM_2.5, PM₁₀, SO₂, NO₂, CO and O₃) and land use data of Taiyuan City to explore the spatiotemporal changes and influencing factors of LST before and after the urban lockdown (from 2015 to 2021). The results showed that from 2015 to 2021, the area of construction land, forest land and water body in Taiyuan City increased, while the area of grassland decreased significantly. The LST of different land use types showed certain rules, namely construction land >cultivated land >water body >grassland >forest land. The contribution of construction land and cultivated land to urban heat island was the highest, and the cooling effect of forest land and grassland was significant. The reduction of air pollutants since 2017 was related to the city′s environmental protection policies. The COVID-19 lockdown policy after 2020 promoted the further improvement of air quality. Air pollutants interacted with thermal environment. The slow increase of LST from 2017 to 2019 might be related to the increase of short-wave radiation caused by the decrease of PM_2.5, and the increase of O₃ in 2021 might be caused by the increase of LST. The effect of solar radiation on LST of forest land and grassland was relatively significant before and after COVID-19 lockdown. The increase of LST of different land use types in 2021 might be related to the significant reduction of atmospheric pollution particles.

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