[1] |
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Phytoremediation effect of Rudbeckia hirta on crude oil-contaminated soils in the Loess Plateau of eastern Gansu Province.
[J]. Chinese Journal of Ecology, 2023, 42(4): 933-945.
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[2] |
DUAN Xiaoqing, ZHAO Guang, ZHANG Yangjian, MU Yu, YANG Wangxin, JIN Jie, HAN Xueqin, LIAO Chengfei.
The responses of Moringa oleifera to combined Cd-Pb-Cu-Zn stresses and their enrichment characteristics in the dry-hot valley of Yunnan.
[J]. Chinese Journal of Ecology, 2023, 42(12): 2817-2827.
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[3] |
MO Si-qi, CAO Yi-ni, TAN Qian.
Research progress on root exudates and their effects on ecological remediation of heavy metal contaminated soil.
[J]. Chinese Journal of Ecology, 2022, 41(2): 382-392.
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[4] |
AN Jing, GAO Cheng-cheng, WANG Bao-yu, YAN Xiu-xiu, WEI Shu-he.
Adsorption behavior and removal mechanism of biochar on exogenous antibiotics and antibiotic resistance genes.
[J]. Chinese Journal of Ecology, 2021, 40(4): 1210-1221.
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[5] |
GUO Wen, HUANG Hong-liang, WANG Rui, YANG Chang, LEI Gang, QI Liang-hua.
Stoichiometric characteristics of fine roots in Phyllostachys edulis and its varieties.
[J]. Chinese Journal of Ecology, 2021, 40(3): 692-700.
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[6] |
WANG Qiong, FAN Kang-fei, FAN Zhi-ping, LI Fa-yun, WANG Jun, WANG Shan-xiang, TANG Ya-ni.
Nitrogen pollutant removal by riparian buffer zone: A review.
[J]. cje, 2020, 39(2): 665-677.
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[7] |
ZHANG Yu-jian, SONG Ya-li, WANG Ke-qin.
Ecological stoichiometry of various organs in the tree layer of subalpine forests in central Yunnan, China.
[J]. cje, 2019, 38(6): 1669-1678.
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[8] |
LU Min-ying, BAO Xiao-dong, WU Xing-fei, SHAO Lu-ze, ZHANG Jie-yu, LI Fei-li.
Progress in study and application of remediation of heavy metals in sewage sludge by turf.
[J]. cje, 2019, 38(4): 1212-1220.
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[9] |
YING Rui, CHEN Jing-fang, GAO Shan-shan, LI Zu-fu, FENG Jian-xiang.
Single and synergistic effects of Ulva lactucaand Sesuvium portulacastrumon the purification of mariculture wastewater.
[J]. cje, 2018, 37(9): 2745-2753.
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[10] |
ZHANG Xiao-qing, XU Li, QI Yue, SUN Li-bo, ZHANG Que.
Remediation efficiency ofEchinacea purpurea for heavy PAHs contaminated soils.
[J]. cje, 2018, 37(2): 492-497.
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[11] |
YANG Jun-xing1,2, HU Jian2, LEI Mei2, YANG Jun2, Guo Jun-mei2, CAO Shao-kuan3, YE Zhi-hong1*, CAO Liu4.
Antioxidant system responses and bioaccumulation of Zn in wetland plants under Zn stress.
[J]. cje, 2017, 36(8): 2274-2281.
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[12] |
JI Ze-hua, FENG Chong-ling*, WU Xiao-fu, ZHOU Sang-yang, HUANG Hui-min.
Research progress on filler application and purification mechanisms in constructed wetland wastewater treatment system.
[J]. cje, 2016, 35(8): 2234-2243.
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[13] |
WANG Ya-nan, CHENG Li-juan, ZHOU Qi-xing*.
Phytoremediation mechanisms of petroleumcontaminated soils.
[J]. cje, 2016, 35(4): 1080-1088.
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[14] |
JU Shu-yun1,2, WANG Jie2,3, SEHN Li-bo2,4, LI Zhu2, CHEN Ya-hua1**, WU Long-hua2, LUO Yong-ming2,5.
Phytoremediation of heavy metal contaminated soils by intercropping with Sedum plumbizincicola and Triticum aestivum and rotation with Solanum melongena.
[J]. cje, 2015, 34(8): 2181-2186.
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[15] |
MIAO Xin-yu, ZHOU Qi-xing**.
Some research progresses in influencing factors for the efficiency of contaminated soil phytoremediation.
[J]. cje, 2015, 34(3): 870-877.
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