[1] |
BECKETT KP, FREER-SMITH P, GAIL T, 1998. Urban woodlands: their role in reducing the effects of particulate pollution[J]. Environmental Pollution, 99(3): 347-360.
PMID
|
[2] |
DAB W, MEDINA S, QUENEL P, et al., 1996. Short term respiratory health effects of ambient air pollution: results of the APHEA project in Paris[J]. Journal of Epidemiology & Community Health, 50: s42-s46.
DOI
URL
|
[3] |
LEONARD R J, MCARTHUR C, HOCHULI D F, 2016. Particulate matter deposition on roadside plants and the importance of leaf trait combinations[J]. Urban Forestry & Urban Greening, 20: 249-253.
|
[4] |
KOAK M, MIHALOPOULOS N, KUBILAY N, 2007. Contributions of natural sources to high PM10 and PM2.5 events in the eastern Mediterranean[J]. Atmospheric Environment, 41(18): 3806-3818.
DOI
URL
|
[5] |
LEHMAN J, SWINTON K, BORTNICK S, 2004. Spatio-temporal characterization of tropospheric ozone across the eastern United States[J]. Atmospheric Environment, 38(26): 4357-4369.
DOI
URL
|
[6] |
LIU X F, HOU F, LI G K, et al., 2015. Effects of nitrogen dioxide and its acid mist on reactive oxygen species production and antioxidant enzyme activity in Arabidopsis plants[J]. Journal of Environmental Sciences, 34: 93-99.
DOI
PMID
|
[7] |
MANES F, MARANDO F, CAPOTORTI G, et al., 2016. Regulating ecosystem services of forests in ten Italian metropolitan cities: air quality improvement by PM10 and O3 removals[J]. Ecological Indicators, 67: 425-440.
DOI
URL
|
[8] |
MORIKAWA H, HIGAKI A, NOHNO M, et al., 1998. More than a 600-fold variation in nitrogen dioxide assimilation among 217 plant taxa[J]. Plant, Cell and Environment, 21(2): 180-190.
DOI
URL
|
[9] |
TALLIS M, TAYLOR G, SINNETT D, et al., 2011. Estimating the removal of atmospheric particulate pollution by the urban treecanopy of London, under current and future environments[J]. Landscape and Urban Planting, 103(2): 129-138.
|
[10] |
安俊琳, 王跃思, 李昕, 等, 2008. 北京大气O3与NOx的变化特征[J]. 生态环境, 17(4): 1420-1424.
|
|
AN J L, WANG Y S, LI X, et al., 2008. Characteristics of atmospheric O3 and NOX changes in Beijing[J]. Ecology and Environmental Sciences, 17(4): 1420-1424.
|
[11] |
白志鹏, 张利文, 朱坦, 等, 2007. 稳定同位素在环境科学研究中的应用进展[J]. 同位素, 20(1): 57-64.
|
|
BAI Z P, ZHANG L W, ZHU T, et al., 2007. Progress in the application of stable isotopes in environmental science research[J]. Journal of Isotopes, 20(1): 57-64.
|
[12] |
付晓萍, 田大伦, 2006. 酸雨对植物的影响研究进展[J]. 西北林学院学报, 21(4): 23-27.
|
|
FU X P, TIAN D L, 2006. Advances in research on the effects of acid rain on plants[J]. Journal of Northwest Forestry University, 21(4): 23-27.
|
[13] |
龚诚, 2021. 植物对城市空气氮氧化物的净化功能[D]. 北京: 中国科学技术大学.
|
|
GONG C, 2021. Purification function of plants for urban air nitrogen oxides[D]. Beijing: University Of Science and Technology of China.
|
[14] |
郭嘉, 辛学兵, 郭慧, 等, 2020. 北京门头沟主城区及其城郊森林大气污染物时空变化特征[J]. 生态科学, 39(2): 32-40.
|
|
GUO J, XIN X B, GUO H, et al., 2020. Spatial and temporal variation characteristics of air pollutants in the main urban area of Mentougou and its suburban forests in Beijing[J]. Ecological Science, 39(2): 32-40.
|
[15] |
胡正华, 孙银银, 李琪, 等, 2012. 南京北郊春季地面臭氧与氮氧化物浓度特征[J]. 环境工程学报, 6(6): 1995-2000.
|
|
HU Z H, SUN Y Y, LI Q, et al., 2012. Characteristics of spring ground-level ozone and NOx concentrations in the northern suburbs of Nanjing[J]. Chinese Journal of Environmental Engineering, 6(6): 1995-2000.
|
[16] |
黄秋燕, 彭崇涛, 林文惠, 等, 2020. 改善空气质量视角下的园林植物调查分析——以肇庆牌坊公园为例[J]. 环境与发展, 32(4): 204-205, 210.
|
|
HUANG Q Y, PENG C T, LIN W H, et al., 2020. Investigation and analysis of garden plants from the perspective of improving air quality: A case study of Zhaoqing Pafang Park[J]. Environment and Development, 32(4): 204-205, 210.
|
[17] |
黄鑫, 2020. 城市大气环境的氮氧化物污染及治理技术研究[J]. 中国资源综合利用, 40(4): 142-144.
|
|
HUANG X, 2020. Research on nitrogen oxide pollution and treatment technology of urban air environment[J]. China Resources Comprehensive Utilization, 40(4): 142-144.
|
[18] |
姜明, 2020. 中国大气污染治理法治化进程的检视与展望[J]. 长沙理工大学学报(社会科学版), 35(1): 101-111.
|
|
JIANG M, 2020. Review and Prospects of the Rule of Law Process of Air Pollution Control in China[J]. Journal of Changsha University of Science and Technology (Social Science), 35(1): 101-111.
|
[19] |
姜星星, 邹安龙, 王媛媛, 等, 2018. 我国东部典型森林木本植物的气孔特征及其对氮添加的响应[J]. 北京大学学报(自然科学版), 54(4): 839-847.
|
|
JIANG X X, ZOU A L, WANG Y Y, et al., 2018. Stomatic characteristics of typical forest woody plants in eastern China and their response to nitrogen addition[J]. Journal of Peking University (Natural Science Edition), 54(4): 839-847.
|
[20] |
李艳梅, 陈奇伯, 李艳芹, 等, 2016. 昆明10个绿化树种对不同污染区的滞尘及吸净效应[J]. 西南林业大学学报(自然科学版), 36 (3): 105-110.
|
|
LI Y M, CHEN Q B, LI Y Q, et al., 2016. Dust stagnation and net absorption effects of 10 greening tree species in Kunming on different polluted areas[J]. Journal of Southwest Forestry University (Natural Sciences), 36(3): 105-110.
|
[21] |
李永杰, 2007. 北京市常见绿化树种生态效益研究[D]. 保定: 河北农业大学.
|
|
LI Y J, 2007. Study on Ecological Benefits of Common Greening Species in Beijing[D]. Baoding: Hebei Agricultural University.
|
[22] |
刘洁, 张小玲, 徐晓峰, 等, 2008. 北京地区SO2、NOx、O3和PM2.5变化特征的城郊对比分析[J]. 环境科学, 29(4): 1059-1665.
|
|
LIU J, ZHANG X L, XU X F, et al., 2008. Comparative suburban analysis of SO2, NOx, O3 and PM2.5 variation characteristics in Beijing[J]. Environmental Science, 29(4): 1059-1665.
DOI
URL
|
[23] |
刘艳菊, 丁辉, 2001. 植物对大气污染的反应与城市绿化[J]. 植物学通报, 18(5): 577-586.
|
|
LIU Y J, DING H, 2001. Plant response to atmospheric pollution and urban greening[J]. Chinese Bulletin of Botany, 18(5): 577-586.
|
[24] |
卢芳, 2006. 大气中氮氧化物对生态环境的影响[J]. 青海师范大学学报(自然科学版) (3): 87-89.
|
|
LU F, 2006. Ecological impact of atmospheric nitrogen oxides[J]. Journal of Qinghai Normal University (Natural Science) (3): 87-89.
|
[25] |
聂蕾, 邓志华, 陈奇伯, 等, 2015. 昆明城市森林对大气SO2和NOx净化效果[J]. 西部林业科学, 44(4): 116-120.
|
|
NIE L, DENG Z H, CHEN Q B, et al., 2015. Atmospheric SO2 and NOx purification effects of urban forest in Kunming[J]. Journal of West China Forestry Science, 44(4): 116-120.
|
[26] |
潘文, 张卫强, 张方秋, 等, 2012. 广州市园林绿化植物苗木对二氧化硫和二氧化氮吸收能力分析[J]. 生态环境学报, 21(4): 606-612.
DOI
|
|
PAN W, ZHANG W Q, ZHANG F Q, et al., 2012. Analysis of sulfur dioxide and nitrogen dioxide absorption capacity of landscape plant seedlings in Guangzhou City[J]. Ecology and Environmental Sciences, 21(4): 606-612.
|
[27] |
是怡芸, 2018. 南京常见绿化树种滞留PM2.5等大气颗粒物的效应研究[D]. 南京: 南京林业大学.
|
|
SHI Y Y, 2018. Study on the effect of atmospheric particulate matter such as PM2.5 retention in common green tree species in Nanjing[D]. Nanjing: Nanjing Forestry University.
|
[28] |
王会霞, 石辉, 李秧秧, 2010. 城市绿化植物叶片表面特征对滞尘能力的影响[J]. 应用生态学报, 21(12): 3077-3082.
|
|
WANG H X, SHI H, LI Y Y, 2010. Effects of leaf surface characteristics on dust retention capacity of urban greening plants[J]. Chinese Journal of Applied Ecology, 21(12): 3077-3082.
|
[29] |
王蕾, 高尚玉, 刘连友, 等, 2006. 北京市11种园林植物滞留大气颗粒物能力研究[J]. 应用生态学报, 17(4): 4597-4601.
|
|
WANG L, GAO S Y, LIU L Y, et al., 2006. Study on the ability of 11 types of landscape plants in Beijing to retain atmospheric particulate matter[J]. Chinese Journal of Applied Ecology, 17(4): 4597-4601.
|
[30] |
王月, 滕志远, 张秀丽, 等, 2019. 大气NO2影响植物生长与代谢的研究进展[J]. 应用生态学报, 30(1): 316-324.
DOI
|
|
WANG Y, TENG Z Y, ZHANG X L, et al., 2019. Advances in research on the effects of atmospheric NO2 on plant growth and metabolism[J]. Chinese Journal of Applied Ecology, 30(1): 316-324.
DOI
|
[31] |
杨俊梅, 李培仁, 李义宇, 等, 2014. 南京北郊O3、NO2和SO2变化特征分析[J]. 气象与环境学报, 30(3): 66-70.
|
|
YANG J M, LI P R, LI Y Y, et al., 2014. Characterization of O3, NO2and SO2 changes in the northern suburbs of Nanjing[J]. Journal of Meteorology and Environment, 30(3): 66-70.
|
[32] |
姚萌, 康荣华, 王盎, 等, 2023. 利用15N示踪技术研究木荷与马尾松幼苗叶片对NO2的吸收与分配[J]. 植物生态学报, 47(1): 114-122.
DOI
|
|
YAO M, KANG R H, WANG A, et al., 2023. Uptake and partitioning of NO2 by leaves of Mucuna pruriens and Pinus sylvestris seedlings using the 15N tracer technique[J]. Chinese Journal of Plant Ecology, 47(1): 114-122.
DOI
URL
|
[33] |
张翠萍, 温琰茂, 2005. 大气污染植物修复的机理和影响因素研究[J]. 云南地理环境研究, 17(6): 84-88.
|
|
ZHANG C P, WEN Y M, 2005. Research on the mechanism and influencing factors of phytoremediation of atmospheric pollution[J]. Yunnan Geographic Environment Research, 17(6): 84-88.
|
[34] |
赵志华, 吴建南, 2020. 大气污染协同治理能促进污染物减排吗?——基于城市的三重差分研究[J]. 管理评论, 32(1): 286-297.
|
|
ZHAO Z H, WU J N, 2020. Can collaborative air pollution management promote pollutant reduction?: Triple difference city- based study[J]. Management Review, 32(1): 286-297.
|