[1]Enhancement of the biological activity of nucleopolyhedrovirus through disruption of the peritrophic matrix of insect larvae by chlorfluazuron. Fang, Ji-Chao,Liu, Bao-Sheng,Wang, Jie-Ping,Zhong, Wan-Fang,Wan, Fang-Hao.
[2]Expression of Cry1Ac in transgenic Bt soybean lines and their efficiency in controlling lepidopteran pests. Li, Yunhe,Li, Xiangju,Romeis, Joerg,Wu, Kongming,Romeis, Joerg. 2013
[3]Effects of Three Spodoptera litura Control Strategies on Arthropod Diversity and Abundance in Tobacco Agroecosystems in South China. Zhou, Zhong-Shi,Xu, Zai-Fu,Zhou, Zhong-Shi,Chen, Ze-Peng. 2012
[4]Baseline toxicity data of insecticides against the common cutworm Spodoptera litura (Fabricius) and a comparison of resistance monitoring methods. Huang, Shuijin,Xu, Junfeng,Han, Zhaojun. 2006
[5]Laboratory evaluation of flight activity of the common cutworm, Spodoptera litura (Lepidoptera: Noctuidae). Wu, Kong-Ming,Lu, Yan-Hui,Tu, Ye-Gou,Xue, Fang-Sen. 2010
[6]Insecticidal spectrum of fluralaner to agricultural and sanitary pests. Sheng, Cheng-Wang,Jia, Zhong-Qiang,Liu, Di,Wu, Hui-Zi,Luo, Xu-Mei,Peng, Ying-Chuan,Han, Zhao-Jun,Zhao, Chun-Qing,Song, Ping-Ping,Xu, Lu. 2017
[7]Seasonal Pattern of Spodoptera litura (Lepidoptera: Noctuidae) Migration Across the Bohai Strait in Northern China. Zhao, Xiaoyang,Xie, Bingtang,Ali, Abid,Wu, Kongming.
[8]Interaction of Xestia c-nigrum granulovirus with peritrophic matrix and Spodoptera litura nucleopolyhedrovirus in Spodoptera litura. Guo, H. F.,Fang, J. C.,Wang, J. P.,Zhong, W. F.,Liu, B. S..
[9]An odorant receptor from the common cutworm (Spodoptera litura) exclusively tuned to the important plant volatile cis-3-Hexenyl acetate. Liu, C. C.,Yan, S. W.,Dong, S. L.,Zhang, J.,Liu, C. C.,Liu, Y.,Guo, M. B.,Wang, G. R.. 2013
[10]Homo logs to Cry toxin receptor genes in a de novo transcriptome and their altered expression in resistant Spodoptera litura larvae. Gong, Liang,Wang, Huidong,Qi, Jiangwei,Hu, Meiying,Han, Lanzhi,Jurat-Fuentes, Juan Luis.
[11]Identification and Functional Characterization of Sex Pheromone Receptors in the Common Cutworm (Spodoptera litura). Yan, Shuwei,Liu, Yang,Wang, Guirong,Zhang, Jin,Yan, Shuwei,Dong, Shuanglin,Jacquin-Joly, Emmanuelle.
[12]Early instar response to plant-delivered Bt-toxin in a herbivore (Spodoptera litura) and a predator (Propylaea japonica). Zhang, GF,Wan, FH,Liu, WX,Guo, HY. 2006
[13]Identification and localization of two sensory neuron membrane proteins from Spodoptera litura (Lepidoptera: Noctuidae). Liu, Yang,Wang, Gui-Rong,Zhang, Jin,Dong, Shuang-Lin,Walker, William B.. 2015
[14]Co-efficacy of a Trap Crop, Colocasia esculenta (L.) Schott and a Biological Agent, Spodoptera litura Nuclear Polyhedral Virus on the Tobacco Caterpillar, Spodoptera litura (Fabricius) in the Tobacco Field. Zhou, Zhong-Shi,Xu, Zai-Fu,Zhou, Zhong-Shi,Chen, Ze-Peng. 2011
[15]Development of Microplitis bicoloratus on Spodoptera litura and implications for biological control. Luo, Kaijun,Trumble, John T.,Pang, Yi.
[16]Cloning, expression, and functional analysis of two acetylcholinesterase genes in Spodoptera litura (Lepidoptera: Noctuidae). Salim, Abdalla M. A.,Shakeel, Muhammad,Ji, Jinyun,Kang, Tinghao,Zhang, Yashu,Ali, Ehsan,Xiao, Zhao,Lu, Yanhui,Wan, Hu,Li, Jianhong,Lu, Yanhui.
[17]Ribavirin, a nucleoside with potential insecticidal activity. Liu, Ying-Qian,Li, Lin-Hai,Kou, Liang,Zhang, Jing,Feng, Gang,Yang, Liu.
[18]CA-4, a natural cis-stilbene compound with potential insecticidal activity. Lv, Xiu-Qing,Feng, Gang,Liu, Ying-Qian,Nan, Xiang,Yang, Liu.
[19]Bacillus thuringiensis insecticidal crystal proteins affect lifespan and reproductive performance of helicoverpa armigera and spodoptera exigua adults. YING ZHANG,YAN MA,PIN-JUN WAN,LI-LI MU,GUO-QING LI.
[20]Genetic effects on flight capacity in the beet armyworm, Spodoptera exigua (Lep., Noctuidae). Zhai, B. P.,Zhang, X. X.,Han, L. Z.,Gu, H. N.. 2009
