[1] |
TANG Jingchao, HUANG Yu, SUN Baodi, SONG Zhiwen, XU Ailing.
Review of the effects of atmospheric particulate matter on plants.
[J]. Chinese Journal of Ecology, 2024, 43(1): 254-263.
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[2] |
WANG Qiaochu, LI Yu, LI Muni, MENG Huan, ZHANG Zhi, ZHANG Tong, ZHANG Weikang.
Effects of particulate matter and negative ions on human comfort in different landscape spaces.
[J]. Chinese Journal of Ecology, 2023, 42(11): 2730-2736.
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[3] |
Kailibinuer NUERMAIMAITI, müt HALIK, Nasiman NASIERDING, Aliya BAIDOURELA, Mayinuer REHEMAN.
Particulate matter retention amount by leaves of common tree species in Urumqi People’s Park.
[J]. Chinese Journal of Ecology, 2022, 41(3): 528-535.
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[4] |
LI Shi-yao, NIU Yu-bin, FAN Jin, YU Hai-long, HUANG Ju-ying.
Analysis on dust retention capability of greening tree species surrounding coal-fired power plant based on leaf surface micro-structure.
[J]. Chinese Journal of Ecology, 2021, 40(2): 604-614.
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[5] |
CHEN Xiao-ping, CHEN Shuo, LIU Yan-hong, WU Xiao-gang.
Influence of greening on the diffusion of particulate matters in urban street canyon: A review.
[J]. Chinese Journal of Ecology, 2021, 40(11): 3742-3750.
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[6] |
HAN Jing-bo, ZHANG Zhi, ZHANG Wei-kang, LIU Shuang-fang, PENG Ze-qun.
Variation of particulate matter and negative air ions in different functional areas of Dongling Park in Shenyang.
[J]. Chinese Journal of Ecology, 2020, 39(9): 3099-3107.
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[7] |
QIU Hao, LI Jin-juan, GUO Xing-qiang, XU Yi-yuan, CAI Bao-de.
Pollution characteristics of mercury in particulate matters around a coal-fired power plant in Guizhou Province in spring.
[J]. cje, 2018, 37(5): 1545-1549.
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[8] |
ZHANG Wei-kang1,2, WANG Bing1,3, NIU Xiang1,3*.
The leaf microstructure of different trees and its impact on air particlescapturing ability.
[J]. cje, 2017, 36(9): 2507-2513.
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[9] |
ZUO Na1, WANG Hui-xia1, YANG Zhen1, ZHONG Meng-ting1, SHI Hui1*, WANG Yan-hui2*.
The properties of Pinus bungeana captured particulates from atmosphere with different diameters at breast height.
[J]. cje, 2017, 36(2): 367-373.
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[10] |
ZHAO Yun-ge1, LU Xiao-ying2, LU Shao-wei3,4, GU Jian-cai1, CHEN Bo3, LI Shao-ning3,4*.
Capability of capturing different sized particles of common greening tree species in Beijing in autumn.
[J]. cje, 2017, 36(1): 35-42.
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[11] |
LU Ling-yue, LI Hong-yuan*, YANG Jia-nan.
The temporal-spatial variation characteristics and influencing factors of absorbing air particulate matters by plants: A review.
[J]. cje, 2016, 35(2): 524-533.
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[12] |
XU Xiao-wu1, BAO Le1, MO Li2, XU Yan-sen3, YU Xin-xiao1*.
Bark’s adsorption capacity of atmospheric particulate matter.
[J]. cje, 2016, 35(12): 3242-3249.
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[13] |
WANG Jia-nan1, MENG Jia-wei2, YANG Feng-xia3, CAI Zhang3,4, LIU Jie3**.
Temporal and spatial variation of urban airborne microbes analyzed by canonical ordination methods.
[J]. cje, 2015, 34(9): 2658-2664.
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[14] |
CHEN Xiao-ping1, JIAO Yi-wen1, PEI Ting-ting1,2, ZHOU Zhi-xiang1**.
The effect of adsorbing fine particulate matter (PM2.5) by garden plants: A review.
[J]. cje, 2014, 33(9): 2558-2566.
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[15] |
LIU Xu-hui, YU Xin-xiao**, ZHANG Zhen-ming, LIU Meng-meng, RUANSHI Qing-cao.
Pollution characteristics of atmospheric particulates in forest belts and their relationship with meteorological conditions.
[J]. cje, 2014, 33(7): 1715-1721.
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