[1]Characterization and primary functional analysis of a bamboo NAC gene targeted by miR164b. Wang, Lili,Zhao, Hansheng,Chen, Dongliang,Li, Lichao,Sun, Huayu,Lou, Yongfeng,Gao, Zhimin,Wang, Lili,Chen, Dongliang.

[2]Population dynamics of phytophagous and predatory mites (Acari : Tetranychidae, Eriophyidae, Phytoseiidae) on bamboo plants in Fujian, China. Zhang, YX,Zhang, ZQ,Zhang, XJ,Liu, QY,Ji, J. 2001

[3]Bamboo: A new source of carbohydrate for biorefinery. He, Ming-xiong,Wang, Jing-li,Qin, Han,Shui, Zong-xia,Zhu, Qi-li,Wu, Bo,Tan, Fu-rong,Pan, Ke,Hu, Qi-chun,Dai, Li-chun,Wang, Wen-guo,Tang, Xiao-yu,Hu, Guo Quan,He, Ming-xiong,Hu, Qi-chun,Hu, Guo Quan,Wang, Jing-li,Shui, Zong-xia.

[4]Molecular data shows Didymella aptrootii is a new genus in Bambusicolaceae. Zhang, Huang,Dong, Wei,Hyde, Kevin D.,Hyde, Kevin D.,Bahkali, Ali H.,Liu, Jian-Kui,Zhou, De-Qun,Zhang, Di.

[5]Shiraiaceae, new family of Pleosporales (Dothideomycetes, Ascomycota). Liu, Yong-Xiang,Liu, Zuo-Yi,Liu, Yong-Xiang,Hyde, Kevin D.,Ariyawansa, Hiran A.,Li, Wen-Jing,Hyde, Kevin D.,Ariyawansa, Hiran A.,Li, Wen-Jing,Zhou, De-Qun,Chen, Yi-Meng,Yang, You-Lian.

[6]Towards a natural classification of Astrosphaeriella-like species; introducing Astrosphaeriellaceae and Pseudoastrosphaeriellaceae fam. nov and Astrosphaeriellopsis, gen. nov.. Phookamsak, Rungtiwa,Dai, Dong-Qin,Mortimer, Peter E.,Xu, Jian-Chu,Hyde, Kevin D.,Phookamsak, Rungtiwa,Dai, Dong-Qin,Mortimer, Peter E.,Xu, Jian-Chu,Hyde, Kevin D.,Phookamsak, Rungtiwa,Norphanphoun, Chada,Dai, Dong-Qin,Luo, Zong-Long,Hyde, Kevin D.,Phookamsak, Rungtiwa,Norphanphoun, Chada,Dai, Dong-Qin,Luo, Zong-Long,Hyde, Kevin D.,Bhat, Darbhe J.,Bhat, Darbhe J.,Liu, Jian-Kui,Luo, Zong-Long,Su, Hong-Yan,Tanaka, Kazuaki,Bahkali, Ali H.,Hyde, Kevin D.,Xu, Jian-Chu.

[7]Effects of different soil management practices on soil free-living nematode community structure, Eastern China. Dong, Daofeng,Chen, Yun-Feng,Cao, Zhi-Ping,Dong, Daofeng,Steinberger, Yosef. 2008

[8]Effects of 1,3-dichloropropene on nematode, weed seed viability and soil-borne pathogen. Qiao, K.,Shi, X. B.,Wang, K. Y.,Wang, H. Y.,Ji, X. X.. 2010

[9]Effects of 1,3-dichloropropene as a methyl bromide alternative for management of nematode, soil-borne disease, and weed in ginger (Zingiber officinale) crops in China. Qiao, Kang,Zhu, Yukun,Wang, Kaiyun,Wang, Hongyan,Ji, Xiaoxue. 2012

[10]Dactylella pseudoclavata sp nov., a new nematode-trapping fungus. Miao, ZQ,Liu, XZ,Li, SD,He, MX. 2003

[11]New Nematotoxic Indoloditerpenoid Produced by Gymnoascus reessii za-130. Liu, Ting,Dong, Dan,Zhang, TaoTao,Liu, Wei-cheng,Meyer, Susan L. F.,Chitwood, David J.,Chauhan, Kamlesh R.,Li, Jun.

[12]De Novo Analysis of the Transcriptome of Meloidogyne enterolobii to Uncover Potential Target Genes for Biological Control. Li, Xiangyang,Yang, Dan,Zhao, Jianlong,Jian, Heng,Li, Xiangyang,Niu, Junhai,Niu, Junhai. 2016

[13]COMPARISON OF 3 METHODS FOR ESTIMATING THE NUMBER OF ENTOMOPATHOGENIC NEMATODES PRESENT IN SOIL SAMPLES. CURRAN, J,HENG, J. 1992

[14]Evaluation of chemical alternatives to methyl bromide in tomato crops in China. Qiao, Kang,Wang, Yang,Wang, Kaiyun,Wang, Zhongtang,Wei, Min,Wang, Hongyan,Wang, Zhongtang.

[15]Managing Root-Knot Nematodes and Weeds with 1,3-Dichloropropene As an Alternative to Methyl Bromide in Cucumber Crops in China. Qiao, Kang,Shi, Xugen,Wang, Kaiyun,Wang, Hongyan,Ji, Xiaoxue.

[16]Evaluation of 1,3-Dichloropropene as a Methyl Bromide Alternative in Tomato Crops in China. Qiao, Kang,Jiang, Lili,Wang, Kaiyun,Wang, Hongyan,Ji, Xiaoxue.

[17]Serine Proteases of Parasitic Helminths. Yang, Yong,Wen, Yun jun,Cheng, Shi Peng,Yang, Yong,Vallee, Isabelle,Boireau, Pascal,Cai, Ya Nan,Liu, Ming Yuan,Liu, Ming Yuan. 2015

[18]Evaluation of predation abilities of Blattisocius dolichus (Acari: Blattisociidae) on a plant-parasitic nematode, Radopholus similis (Tylenchida: Pratylenchidae). Xu, Chun Ling,Xie, Hui,Zhou, Wan Qin,Chen, Yong Liang,Xu, Chun Ling,Xie, Hui,Zhou, Wan Qin,Xu, Xue Nong,Zhang, Bao Xin,Li, Dun Song,Qin, Hou Guo. 2013

[19]The complete mitochondrial genomes of three parasitic nematodes of birds: a unique gene order and insights into nematode phylogeny. Liu, Guo-Hua,Li, Jia-Yuan,Zhou, Dong-Hui,Zhu, Xing-Quan,Liu, Guo-Hua,Zhu, Xing-Quan,Shao, Renfu,Li, Hu. 2013

[20]Identification and Functional Analysis of Differentially Expressed Genes of Ascaris suum Goeze, 1782 from Ascaris lumbricoides Linnaeus, 1758. Zhu Xing-quan,Wu Shao-qiang,Lin Xiang-mei. 2010