Impacts of nitrogen fertilizer on major insect pests and their predators in transgenic Bt rice lines T2A-1 and T1C-19

文献类型: 外文期刊

第一作者: Yang, Yajun

作者: Yang, Yajun;Liu, Kai;Xu, Hongxing;Zheng, Xusong;Tian, Junce;Lu, Zhongxian;Liu, Kai;Han, Hailiang;Wang, Guiyue;Zhang, Facheng;Chen, Guihua

作者机构:

关键词: nitrogen management;population growth;ecological fitness;Cry protein;arthropods;Oryza sativa;Poaceae;Cnaphalocrocis medinalis;Nilaparvatis lugens;Pirata subpiraticus;Cyrthorinus lividipennis;Lepidoptera;Hemiptera

期刊名称:ENTOMOLOGIA EXPERIMENTALIS ET APPLICATA ( 影响因子:2.25; 五年影响因子:2.184 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Nitrogen is a critical factor for plant development and nitrogen input is one of the important tactics to enhance the development and yield of crops. Nevertheless, nitrogen input could influence the occurrence of insects positively or negatively. Nitrogen is also one of the main elements composing the insecticidal crystal (Cry) protein. Cry protein production could affect nitrogen partitioning in Bt plants and as such nitrogen input may influence insect pest management in transgenic Bt rice, Oryza sativa L. (Poaceae). To test this possibility, we evaluated the impacts of nitrogen regimes on the main insect pests and their predators on two Bt rice lines, T2A-1 and T1C-19, expressing Cry2A and Cry1C, respectively, and their non-transgenic parental counterpart MH63. The results showed that Cry proteins with different nitrogen regimes have enough insecticidal activity on rice leaffolder, Cnaphalocrocis medinalis Guenee (Lepidoptera: Crambidae), in both laboratory and field experiments. Laboratory studies indicated that relevant parameters of ecological fitness in brown planthopper, Nilaparvata lugens (Stal) (Hemiptera: Delphacidae), a non-target insect pest, were significantly affected by nitrogen input both on Bt and MH63 rice lines. Nymphal survival, female adult longevity, and egg hatchability in N. lugens differed significantly among rice varieties. The experiments conducted in rice fields also demonstrated that nitrogen was positively correlated with the abundance of N. lugens on Bt rice, similar to that on MH63 rice. The abundances of two predators - the wolf spider Pirata subpiraticus (Boesenberg & Strand) (Araneae: Lycosidae) and the bug Cyrthorhinus lividipennis Reuter (Hemiptera: Miridae) - were significantly affected by rice growth stages but not by nitrogen input and rice varieties. In conclusion, the above results indicate that high nitrogen regimes for Bt rice (T2A-1 and T1C-19) and non-Bt rice (MH63) cannot facilitate the management of insect pests.

分类号: Q96

  • 相关文献

[1]Effectiveness in the field of Bt rice lines against target pests under various cultural regimes. Yang, Yajun,Xu, Hongxing,Zheng, Xusong,Tian, Junce,Lu, Zhongxian,Han, Hailiang,Wang, Guiyue,Lin, Yongjun,Lin, Yongjun.

[2]Presence of a short repeat sequence in internal transcribed spacer (ITS) 1 of the rRNA gene of Sogatella furcifera (Hemiptera: Delphacidae) from geographically different populations in Asia. Matsumoto, Yukiko,Sato, Yuki,Noda, Hiroaki,Fu, Qiang,Matsumura, Masaya.

[3]Fluorescence competition assay for the assessment of green leaf volatiles and trans-beta-farnesene bound to three odorant-binding proteins in the wheat aphid Sitobion avenae (Fabricius). Yin, Jiao,Deng, Sisi,Li, Kebin,Cao, Yazhong.

[4]Electrical penetration graphs indicate that tricin is a key secondary metabolite of rice, inhibiting phloem feeding of brown planthopper, Nilaparvata lugens. Zhang, Zhenfei,Zhang, Yang,Cui, Baiyuan.

[5]Rice ragged stunt oryzavirus: role of the viral spike protein in transmission by the insect vector. Zhou, GY,Lu, XB,Lu, HJ,Lei, JL,Chen, SX,Gong, ZX.

[6]Defense against Pieris rapae in cabbage plants induced by Bemisia tabaci biotype B. Huang, Hong,Shan, Hong-Wei,Liu, Tong-Xian,Zhang, Shi-Ze,Huang, Hong,Shan, Hong-Wei,Liu, Tong-Xian,Zhang, Fan,Wan, Fang-Hao. 2013

[7]Prostaglandin actions in established insect cell lines. Li, Yao-Fa,Zhang, Hongwei,Ringbauer, Joseph A., Jr.,Goodman, Cynthia L.,Lincoln, Tamra Reall,Zhou, Kaile,Stanley, David,Li, Yao-Fa,Zhang, Hongwei,Zhou, Kaile.

[8]A 90-day safety study of genetically modified rice expressing rhIGF-1 protein in C57BL/6J rats. Tang, Maoxue,Cheng, Wenke,Qian, Lili,Yang, Shulin,Cui, Wentao,Li, Kui,Tang, Maoxue,Cheng, Wenke,Qian, Lili,Yang, Shulin,Cui, Wentao,Li, Kui,Xie, Tingting,Yang, Daichang.

[9]Research priorities for rice pest management in tropical asia: A simulation analysis of yield losses and management efficiencies. Willocquet, L,Elazegui, FA,Castilla, N,Fernandez, L,Fischer, KS,Peng, SB,Teng, PS,Srivastava, RK,Singh, HM,Zhu, DF,Savary, S. 2004

[10]Efficacy and Economics of Different Insecticides Against Stem Borers, Scirpophaga incertulas (Walker) in Rice Crop. Ghulam Hussain Abro,Tajwer Sultana Syed,Abid Hussain Shah,Jinjie Cui,Muzammil Sattar,Mohammad Saeed Awan. 2013

[11]Influence of rice black streaked dwarf virus on the ecological fitness of non-vector planthopper Nilaparvata lugens (Hemiptera: Delphacidae). Xu, Hong-Xing,Zheng, Xu-Song,Yang, Ya-Jun,Lu, Zhong-Xian,He, Xiao-Chan. 2014

[12]Impact of proteins and saccharides on mass production of Tyrophagus putrescentiae (Acari: Acaridae) and its predator Neoseiulus barkeri (Acari: Phytoseiidae). Li, Guiting,Huang, He,Xu, Xuenong,Lv, Jiale,Wang, Endong,Gao, Yulin. 2013

[13]Monitoring the Cotton growth Conditions based on LAI from Remote Sensing and expert knowledge. Bai, Junhua,Li, Shaokun,Li, Jing. 2011

[14]Effect of Temperature on the Population Growth of Rhynchophorus ferrugineus (Coleoptera: Curculionidae) on Sugarcane. Li, Lei,Qin, Wei-Quan,Ma, Zi-Long,Yan, Wei,Huang, Shan-Chun,Li, Lei,Peng, Zheng-Qiang.

[15]Infection of Rice Plants by Rice Black Streaked Dwarf Virus Improves an Egg Parasitoid, Anagrus nilaparvatae (Hymenoptera: Mymaridae), of Rice Planthoppers. Xu, Hongxing,Zheng, Xusong,Yang, Yajun,Tian, Junce,Lu, Zhongxian,He, Xiaochan.

[16]Tier-1 assays for assessing the toxicity of insecticidal proteins produced by genetically engineered plants to non-target arthropods. Romeis, Joerg,Wu, Kong-Ming,Peng, Yu-Fa,Romeis, Joerg. 2014

[17]Crystal structure of Bacillus thuringiensis Cry8Ea1: An insecticidal toxin toxic to underground pests, the larvae of Holotrichia parallela. Wei, Lei,Wu, Xiaoai,Rao, Zihe,Guo, Shuyuan,Guo, Shuyuan,Liu, Yanfeng,Xue, Jing,Wu, Hongfu,Song, Fuping,Zhang, Jie,Huang, Dafang. 2009

[18]Broad specificity immunoassay for detection of Bacillus thuringiensis Cry toxins through engineering of a single chain variable fragment with mutagenesis and screening. Zhong, Jianfeng,Hu, Xiaodan,Zhang, Xiao,Liu, Yuan,Xu, Chongxin,Zhang, Cunzheng,Lin, Manman,Liu, Xianjin. 2018

[19]An ultrasensitive label-free electrochemiluminescent immunosensor for measuring CrylAb level and genetically modified crops content. Gao, Hongfei,Wen, Luke,Wu, Yuhua,Wu, Gang,Gao, Hongfei,Wen, Luke,Wu, Yuhua,Wu, Gang,Fu, Zhifeng.

[20]Horizontal Transfer of Non-LTR Retrotransposons from Arthropods to Flowering Plants. Gao, Dongying,Xia, Han,Xu, Chunming,Abernathy, Brian,Jackson, Scott A.,Chu, Ye,Ozias-Akins, Peggy,Xia, Han,Heyduk, Karolina,Leebens-Mack, James H.. 2018

作者其他论文 更多>>

微信小程序