[1] |
ZHENG Chenyue, LIN Haichuan, ZHAN Xiaoyu, HUANG Ziyan, MA Yuanfan, ZHENG Wenxia, ZHU Zhongpan, GUO Futao.
Correlation analysis of element contents between forest fuel and PM2.5 released by combustion of main tree species in Fujian Province.#br#
[J]. Chinese Journal of Ecology, 2024, 43(2): 333-341.
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[2] |
BAO Hong-guang, YAN Xiao-yun, HOU Xiu-juan, WANG Bo.
Temporal variation of PM2.5 and air anion concentration in urban park greenspace of arid and semi-arid area.
[J]. Chinese Journal of Ecology, 2023, 42(1): 170-179.
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[3] |
CHEN Yu-yang, WANG Jing, ZHAO Ling-yan, ZHU Chun-yang.
Effects of urban park green space on air PM10 and PM2.5 and its effect field characteristics: A case of Wuhan Zhongshan Park.
[J]. Chinese Journal of Ecology, 2021, 40(7): 2263-2276.
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[4] |
YAO Rong-peng, ZHANG Bo, WANG Li-bing, ZHANG Yao-wen.
Spatiotemporal variations of PM2.5 and driving factors over central and eastern China between 2015 and 2019.
[J]. Chinese Journal of Ecology, 2021, 40(3): 813-824.
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[5] |
LI Ping-ping, MIAO Chun-ping, CHEN Wei, HU Yuan-man, HE Xing-yuan.
Numerical simulation on the effects of street trees on PM2.5 concentration in street canyon.
[J]. Chinese Journal of Ecology, 2021, 40(12): 4044-4052.
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[6] |
SONG Guang-wei, HU Jian, CUI Meng, LIU Hai-hong, CHEN Xin, DONG Xin-yuan, ZHAO Chang-qiu.
Distribution, source and health risk assessment of polycyclic aromatic hydrocarbons (PAHs) in PM2.5 in Beijing Olympic Park in heating and nonheating seasons.
[J]. cje, 2019, 38(11): 3400-3407.
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[7] |
DUAN Min-jie1, WANG Yue-rong1*, LIU jing2.
Comprehensive evaluation of ecological health functions of green space in Beijing Purple Bamboo Park.
[J]. cje, 2017, 36(7): 1973-1983.
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[8] |
GAO Yan, LIU Kang, MA Qiao, LI Ying, FAN Ya-ning, LI Xiu-qing, GU Chao.
Assessment of social value of ecosystem services based on SolVES model and visitor’s preference: A case study of Taibai Mountain National Forest Park.
[J]. cje, 2017, 36(12): 3564-3573.
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[9] |
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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[10] |
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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[11] |
FANG Yao-yao, WANG Bing, NIU Xiang**.
Atmospheric particlescapturing capability of main afforestation tree species in Central Shaanxi Plain.
[J]. cje, 2015, 34(6): 1516-1522.
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[12] |
LIANG Long-chao1,2, QIU Guang-le2, CHEN Zhuo1,3**.
Pollution characteristics and affecting factors of mercury in particulates PM2.5 in Guiyang City.
[J]. cje, 2015, 34(2): 510-515.
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[13] |
CAO Xue-hui, AN Hai-long, LIU Qing-qian, LIU Chao, GUO Hui-hong, YIN Wei-lun, XIA Xin-li**.
Adhesion and absorption of Pb in PM2.5 and adaptative changes in Populus euramericana ‘Neva’.
[J]. cje, 2015, 34(12): 3382-3390.
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[14] |
KANG Xiao-ming1,2,3, CUI Li-juan1,2,3**, ZHAO Xin-sheng1,2,3, LI Wei1,2,3, ZHANG Man-yin1,2,3, WEI Yuan-yun1,2,3, LEI Yin-ru1,2,3, MA Mu-yuan1,2,3.
Effect of wetlands on reducing atmospheric fine particles PM2.5 in Beijing.
[J]. cje, 2015, 34(10): 2807-2813.
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[15] |
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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