[1] |
LI Meng-ting, LIU Jin-ling, ZHAO Ben-liang, DENG Xiao-yu, CHEN Hui-ying, TANG Yi-jie.
Research progress on characteristics and applications of endogenous cellulase in apple snail.
[J]. Chinese Journal of Ecology, 2021, 40(2): 559-567.
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[2] |
YU Jin-long, SUN Li-zong, XUE Chen-yang, JIA Chun-yun, TAI Pei-dong, LI Ying-hua.
Mechanism underlying the effects of biochar combined with surfactant enhanced washing on removal of PAHs from contaminated soil.
[J]. Chinese Journal of Ecology, 2021, 40(12): 4034-4043.
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[3] |
NIU Ming-fen, YIN Zhi-hui, WANG Qi, LI Gang, GUO Shu-hai, LI Bai-lin.
Selection of cleansing agents for petroleum-contaminated soil and assessment of their efficiency.
[J]. cje, 2020, 39(7): 2302-2308.
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[4] |
DU Jin, HAO Jian-an, ZHANG Xiao-qing, WANG Jian-yan, ZHANG Ai-jun, WANG Jing*.
Identification and fermentation optimization of a biosurfactant-producing strain isolated from seawater.
[J]. cje, 2016, 35(5): 1378-1385.
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[5] |
BAN Yun-he1,2, ZHANG Ying-yue1,2, SHI Rong-jiu2, ZHAO Feng3, HAN Si-qin2, ZHANG Yang1, ZHANG Ying2**.
Isolation of Bacillus amyloliquefaciens for rapid production of lipopeptides and its product characteristics.
[J]. cje, 2015, 34(6): 1682-1688.
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[6] |
LIU Chang1, ZHAO Wei1, LI Tao2, WANG Hong-yan1**.
Isolation and identification of a cold-adapted biosurfactant-producing bacterium.
[J]. cje, 2013, 32(4): 1075-1082.
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[7] |
XIAO Bing1,2, YANG De-yu1,2, SHI Rong-jiu2**, ZHANG Ying2, ZHANG Yang1, HAO Jin-sheng3, LI Guo-qiao3, ZHAO Jin-yi3.
Screening of an efficient biosurfactant-producing bacterial strain and the structure and property of its surface-active metabolic product.
[J]. cje, 2013, 32(3): 779-786.
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[8] |
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Responses of two turfgrass species seed germination and seedling growth to phenanthrene stress.
[J]. cje, 2011, 30(08): 1627-1631.
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[9] |
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Screening of PAHs-degrading bacterial strains and determination of their capability in degrading PAHs.
[J]. cje, 2011, 30(02): 315-319.
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[10] |
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Biosurfactant-producing bacterium SQ6: Its isolation and zymotic fluid surface activity.
[J]. cje, 2010, 29(08): 1618-1623.
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[11] |
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Biodegradation of carbazole and biphenyl by Arthrobacter sp. PJ3.
[J]. cje, 2010, 29(07): 1347-1352.
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[12] |
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Paecilomyces variotii| a filamentous fungus capable of biodegrading high molecular weight PAHs
[J]. cje, 2009, 28(09): 1842-1846.
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[13] |
MA Man-ying1,2; SHI Zhou1;LIU You-shi2 .
Research advances in biosurfactant remediation of hydrophobic organicscontaminated soil.
[J]. cje, 2008, 27(05): 835-840 .
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[14] |
SUN Hongbin1; LIU Yayun1,2; CHEN Guizhu1 .
Research progress on microbial degradation of polychlorinated biphenyls
[J]. cje, 2006, 25(12): 1564-1569 .
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[15] |
LI Yongjun, ZHAO Huabing, REN Heshan, LIANG Jing, CAI Baoli .
Isolation of naphthalenedegrading bacteria and molecular detection of their naphthalene-catabolic genes
[J]. cje, 2006, 25(07): 738-742 .
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