SUSTAINING THE WORLD THROUGH SCIENCE AND TECHNOLOGY
Planthopper Bibliography Database
List
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Authors Year Title Journal | |
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13676 | Roy, D. and G. Chakraborty. 2021 Bio-efficacy of novel chemicals and tribal pesticide-based integrated modules against brown planthopper in rice. International Journal of Tropical Insect Science (2021): 1-11. https://doi.org/10.1007/s42690-021-00534-3. |
13677 | WANG, Zheng-Liang, Hai-bo PAN, Wei WU, Mu-Yu LI, and Xiao-Ping YU. 2021 The gut bacterial flora associated with brown planthopper is affected by host rice varieties. Archives of Microbiology 203(1): 325-333. https://doi.org/10.1007/s00203-020-02013-8. |
13678 | ZHANG, Hou-Hong, Yu-Cheng XIE, Han-Jing LI, Ji-Chong ZHUO, and Chuan-Xi ZHANG. 2021 Pleiotropic roles of the orthologue of the Drosophila melanogaster intersex gene in the brown planthopper. Genes 12(3): 379; 1-14. https://doi.org/10.3390/genes12030379. pdf |
13681 | PHATTHALUNG, Thanat Na and Wipa TANGKANANOND. 2021 Influence of growth stages assessment on the correlation between variety of the pigment types and contents in Rice grassy stunt virus (RGSV)–free and infected standard susceptible variety Taichung Native 1 rice plant leaf crude sap test samples. Khon Kaen Agriculture Journal 49(2): 368-380. https://doi.org/doi:10.14456/kaj.2021.32. [in Thai with English abstract] [Nilaparvata lugens] pdf |
13679 | JIA, Luyao, Yongqiang HAN, and Maolin HOU. 2021 Silicon amendment to rice plants reduces the transmission of southern rice black?streaked dwarf virus by Sogatella furcifera. Pest Management Science 77(7): 3233-3240. https://doi.org/10.1002/ps.6365. |
13680 | OJHA, Abhishek and Wenqing ZHANG. 2021 Characterization of gustatory receptor 7 in the brown planthopper reveals functional versatility. Insect Biochemistry and Molecular Biology 132: 103567. https://doi.org/10.1016/j.ibmb.2021.103567. |
13682 | DIVYA, Dhanasekar, Nihar SAHU, P. Sairam REDDY, Suresh NAIR, and J.S. BENTUR. 2021 RNA-sequencing reveals differentially expressed rice genes functionally associated with defense against BPH and WBPH in RILs derived from a cross between RP2068 and TN1. Rice 14(1): 27; 1-21. https://doi.org/10.1186/s12284-021-00470-3. |
13683 | LIN, Yiguang, Huijun JI, Xiaocong CAO, Yongjie CEN, Yumei CHEN, Shuangshun JI, and Sichun ZHENG. 2021 Knockdown of AMP-activated protein kinase increases the insecticidal efficiency of pymetrozine to Nilaparvata lugens. Pesticide Biochemistry and Physiology 175: 104856; 1-9. https://doi.org/10.1016/j.pestbp.2021.104856. |
13684 | GUO, Huifang, Na WANG, Hongtao NIU, Dongxiao ZHAO, and Zhichun ZHANG. 2021 Interaction of Arsenophonus with Wolbachia in Nilaparvata lugens. BMC Ecology and Evolution 21: 31; 1-6. https://doi.org/10.1186/s12862-021-01766-0. |
13685 | PHATTHALUNG, Thanat Na and Wipa TANGKANANOND. 2021 Evaluation of pigment types and pigment contents in different rice growth stage of Taichung Native 1 with leaf crude rice ragged stunt disease. Khon Kaen Agriculture Journal 49 (1): 130-143. https://doi.org/10.14456/kaj.2021.11. [in Thai with English abstract] [Nilaparvata lugens] pdf |
13686 | XIE, Jiaqin, Yifan PENG, and Yuxian XIA. 2021 Genome-wide identification and analysis of Nilaparvata lugens microRNAs during challenge with the entomopathogenic fungus Metarhizium anisopliae. Journal of Fungi 7(4): 295; 1-14. https://doi.org/10.3390/jof7040295. |
13690 | WANG, Xin-Qiu, Jian-sheng GUO, Dan-Ting Li, Yang Yu, Jaco Hagoort, Bernard Moussian, and Chuan-Xi Zhang. 2021 Three-dimensional reconstruction of a whole insect reveals its phloem sap-sucking mechanism at nano-resolution. eLife 10: e62875; 1-24. https://doi.org/10.7554/eLife.62875. [Nilaparvata lugens] pdf |
13691 | WANG, Li-Xiang, Chun-Dong NIU, Shun-Fan WU, and Cong-Fen GAO. 2021 Molecular characterizations and expression profiles of transient receptor potential channels in the brown planthopper, Nilaparvata lugens. Pesticide Biochemistry and Physiology 173: 104780; 1-9. https://doi.org/10.1016/j.pestbp.2021.104780. |
13702 | Alenizi, K., S. Araj, T.M. Al Antary, and M. Olmi. 2021 First record of the solitary wasp Gonatopus camelinus Kieffer (Hymenoptera: Dryinidae) from Jordan. Fresenius Environmental Bulletin 30(2A): 1885-1889. [Gonatopus camelinus] pdf |
13703 | Hechanova, S.L., K. Bhattarai, E.V. Simon, G. Clave, P. Karunarathne, E.K. Ahn, C.P. Li, J.S. Lee, A. Kohli, N. Ruaraidh S. Hamilton, J.E. Hernandez, G.B. Gregorio, K.K. Jena, G.H. An, and S.R. Kim. 2021 Development of a genome-wide InDel marker set for allele discrimination between rice (Oryza sativa) and the other seven AA-genome Oryza species. Scientific Reports 11: 8962; 1-11. https://doi.org/10.1038/s41598-021-88533-9. [Nilaparvata lugens, Sogatella furcifera] pdf |
13704 | Senthil-Nathan, S. 2021 Effects of elevated CO 2 on resistant and susceptible rice cultivar and its primary host, brown planthopper (BPH), Nilaparvata lugens (Stål). Scientific Reports 11: 8905; 1-15. https://doi.org/10.1038/s41598-021-87992-4. pdf |
13705 | LI, Zaiyuan, Bo XU, Tianhua DU, Yuekun MA, Xiaohai TIAN, Fulian WANG, and Wenkai WANG. 2021 Excessive nitrogen fertilization favors the colonization, survival, and development of Sogatella furcifera via bottom-up effects. Plants 10: 875; 1-15. https://doi.org/10.3390/plants10050875. |
13706 | WANG, Li-Xiang, Sha TAO, Yan ZHANG, Ya-Long JIA, Shun-Fan WU, and Cong-Fen GAO. 2021 Mechanism of metabolic resistance to pymetrozine in Nilaparvata lugens: Over-expression of cytochrome P450 CYP6CS1. Pest Management Science 77(9): 4128-4137. https://doi.org/10.1002/ps.6438. |
13707 | SHEN, Yan, Jia-Bao LU, Yuan-Zhi CHEN, Bernard MOUSSIAN, and Chuan-Xi ZHANG. 2021 A lateral oviduct secreted protein plays a vital role for egg movement through the female reproductive tract in the brown planthopper. Insect Biochemistry and Molecular Biology 132: 103555. https://doi.org/10.1016/j.ibmb.2021.103555. |
13708 | HUANG, Hai-Jian, Xiao-Tian YAN, Xin WANG, Yu-Hua QI, Gang LU, Jian-Ping CHEN, Chuan-Xi ZHANG, and Jun-Min LI. 2021 Proteomic analysis of Laodelphax striatellus in response to Rice stripe virus infection reveal a potential role of ZFP36L1 in restriction of viral proliferation. Journal of Proteomics 239: 104184. https://doi.org/10.1016/j.jprot.2021.104184. |
13709 | YANG, Qun, Kristof De SCHUTTEr, Pengyu CHEN, Els J.M. Van DAMME, and Guy SMAGGHE. 2021 RNAi of the N-glycosylation-related genes confirms their importance in insect development and [alpha]-1, 6-fucosyltransferase plays a role in the ecdysis event for the hemimetabolous pest insect Nilaparvata lugens. Insect Science (2021): (PrePrint, 9 pp.). https://doi.org/110.1111/1744-7917.12920. |
13710 | HE, Wenze, Lilong PAN, Wenhao HAN, and Xiaowei WANG. 2021 Isothiazolinones as novel candidate insecticides for the control of Hemipteran insects. Antibiotics 10(4): 436; 1-12. https://doi.org/10.3390/antibiotics10040436. [Nilaparvata lugens] pdf |
13711 | ZHANG, Yunhua, Chaoya LIU, Ruoheng JIN, Yue WANG, Tingwei CAI, Zhijie REN, Kangsheng MA, Shun HE, Kwang Sik LEE, Byung Rae JIN, Jianhong LI, and Hu WAN. 2021 Dual oxidase-dependent reactive oxygen species are involved in the regulation of UGT overexpression-mediated clothianidin resistance in the brown planthopper, Nilaparvata lugens. Pest Management Science 77(9): 4159-4167. https://doi.org/10.1002/ps.6453. |
13976 | LI, Junjie, Huanhuan LIU, Yangxue WU, Longqin YE, and Xiaolei HUANG. 2021 A dataset on type specimens of hemipteran insects in China. Biodiversity Data Journal 9: e64443; 1-17. https://doi.org/10.3897/BDJ.9.e64443. |
13752 | JIANG, Jia, Xiaoxiao CHEN, Can LI, and Yuehua SONG. 2021 Mitogenome and phylogenetic analysis of typhlocybine leafhoppers (Hemiptera: Cicadellidae). S Scientific Reports 11: 10053; 1-13. https://doi.org/10.1038/s41598-021-89525-5 [Ricania speculum, Aphaena discolor nigrotibiata] pdf |