农科机构知识库联盟

Differential physiological effects of neonicotinoid insecticides on honey bees: A comparison between Apis mellifera and Apis cerana

文献类型：外文期刊

第一作者： Li, Zhiguo

作者： Li, Zhiguo;Li, Meng;He, Jingfang;Zhao, Xiaomeng;Huang, Wei-Fone;Nie, Hongyi;Zhao, Yazhou;Su, Songkun;Chaimanee, Veeranan;Zhao, Yazhou

作者机构：

关键词： Apis cerana;Apis mellifera;Imidacloprid;Clothianidin;Detoxification;Immunity

期刊名称：PESTICIDE BIOCHEMISTRY AND PHYSIOLOGY （影响因子：3.963；五年影响因子：4.454 ）

ISSN： 0048-3575

年卷期： 2017 年 140 卷

页码：

收录情况： SCI

摘要： Acute toxicities (LD50s) of imidacloprid and clothianidin to Apis mellifera and A. cerana were investigated. Changing patterns of immune-related gene expressions and the activities of four enzymes between the two bee species were compared and analyzed after exposure to sublethal doses of insecticides. Results indicated that A. cerana was more sensitive to imidacloprid and clothianidin than A. mellifera. The acute oral LD50 values of imidacloprid and clothianidin for A. mellifera were 8.6 and 2.0 ng/bee, respectively, whereas the corresponding values for A. cerana were 2.7 and 0.5 ng/bee. The two bee species possessed distinct abilities to mount innate immune response against neonicotinoids. After 48 h of imidacloprid treatment, carboxylesterase (CCE), prophenol oxidase (PPO), and acetyl cholinesterase (AChE) activities were significantly downregulated in A mellifera but were upregulated inA. cerana. Glutathione-S-transferase (GST) activity was significantly elevated in A. mellifera at 48 h after exposure to imidacloprid, but no significant change was observed in A. cerana. AChE was downregulated in both bee species at three different time points during clothianidin exposure, and GST activities were upregulated in both species exposed to clothianidin. Different patterns of immune-related gene expression and enzymatic activities implied distinct detoxification and immune responses of A. cerana and A. mellifera to imidacloprid and clothianidin. (C) 2017 Elsevier Inc. All rights reserved.

分类号：

相关文献

[1]Melittopalynology and Trophic Niche Analysis of Apis cerana and Apis mellifera in Yunnan Province of Southwest China. Liu, Y. J.,Zhao, T. R.,Zhao, F. Y.,Liu, Y. J.,Zhang, X. W.,Liang, C.. 2013

[2]Identification of Varroa mites (Acari : Varroidae) infesting Apis cerana and Apis mellifera in China. Zhou, T,Anderson, DL,Huang, ZY,Huang, SX,Yao, J,Ken, T,Zhang, QW. 2004

[3]New Asian types of Varroa destructor: a potential new threat for world apiculture. Navajas, Maria,Clement, Jeremy,Anderson, Denis L.,de Guzman, Lilia I.,Huang, Zachary Y.,Zhou, Ting,Le Conte, Yves.

[4]Preliminary observations on possible pathogen spill-over from Apis mellifera to Apis cerana. Forsgren, Eva,Fries, Ingemar,Shi Wei,Ding Guiling,Liu Zhiguang,Toan Van Tran,Phuong Thi Tang,Tuan Anh Truong,Tam Quyet Dinh.

[5]Native Honey Bees Outperform Adventive Honey Bees in Increasing Pyrus bretschneideri (Rosales: Rosaceae) Pollination. Gemeda, Tolera Kumsa,Yang, Huipeng,Huang, Jiaxing,Wu, Jie,Shao, Youquan,Wu, Wenqin. 2017

[6]Bt Toxin Cry1Ie Causes No Negative Effects on Survival, Pollen Consumption, or Olfactory Learning in Worker Honey Bees (Hymenoptera: Apidae). Diao, Qing-Yun,Jia, Hui-Ru,Geng, Li-Li.

[7]Clothianidin dissipation in tomato and soil, and distribution in tomato peel and flesh. Li, Li,Jiang, Gaiqing,Liang, Hongwu,Sun, Dali,Li, Wei,Liu, Congyun,Liang, Hongwu. 2012

[8]Dissipation dynamics of clothianidin and its control efficacy against Bradysia odoriphaga Yang and Zhang in Chinese chive ecosystems. Zhang, Peng,Zhao, Yunhe,Ren, Yupeng,Wei, Yan,Mu, Wei,Liu, Feng,Zhang, Peng,He, Min.

[9]Adaptive functions of defensive plant phenolics and a non-linear bee response to nectar components. Liu, F.,Chen, J.,Chai, J.,Zhang, X.,Bai, X.,He, D.,Roubik, D. W.. 2007

[10]Pollen phenolics and regulation of pollen foraging in honeybee colony. Liu, FL,Zhang, XW,Chai, JP,Yang, DR. 2006

[11]Reinforcement of bee-plant interaction by phenolics in food. Liu, FL,Fu, WJ,Yang, DR,Peng, YQ,Zhang, XW,He, JZ. 2004

[12]A scientific note on detection of honeybee viruses in the darkling beetle (Alphitobius diaperinus, Coleoptera: Tenebrionidae), a new pest in Apis cerana cerana colonies. Li, Zhiguo,Huang, Shaokang,Huang, Wei-fone,Geng, Haiyang,Li, Meng,Su, Songkun,Zhao, Yazhou,Chen, Yanping.

[13]Characterization of gut bacteria at different developmental stages of Asian honey bees, Apis cerana. Guo, Jun,Wu, Jie,Li, Jilian,Guo, Jun,Dai, Rongguo,Luo, Wenhua,Chen, Yanping,Evans, Jay D..

[14]The Influence of Bt-Transgenic Maize Pollen on the Bacterial Diversity in the Midgut of Chinese Honeybees, Apis cerana cerana. Geng Li-li,Shu Chang-long,Song Fu-ping,Zhang Jie,Jiang Wei-yu,Lin Yi,Dai Ping-li,Zhou Ting,Lang Zhi-hong. 2013

[15]Managed honeybee colony losses of the Eastern honeybee (Apis cerana) in China (2011-2014). Chen, Chao,Liu, Zhiguang,Chen, Xiao,Guo, Haikun,Wang, Huihua,Tang, Jiao,Shi, Wei,Chen, Chao,Liu, Zhiguang,Shi, Wei,Luo, Yuexiong,Xu, Zheng,Wang, Shunhai,Zhang, Xuewen,Dai, Rongguo,Gao, Jinglin.

[16]Nosema ceranae n sp (Microspora, Nosematidae), morphological and molecular characterization of a microsporidian parasite of the Asian honey bee Apis cerana (Hymenoptera, Apidae). Fries, I,Feng, F,daSilva, A,Slemenda, SB,Pieniazek, NJ. 1996

[17]Diagnosis and distribution of the Apis mellifera filamentous virus (AmFV) in honey bees (Apis mellifera) in China. Hou, C.,Li, B.,Deng, S.,Chu, Y.,Diao, Q.,Hou, C.,Li, B.,Deng, S.,Chu, Y.,Diao, Q.,Li, B..

[18]Prevalence, intensity and associated factor analysis of Tropilaelaps mercedesae infesting Apis mellifera in China. Luo, Qi-Hua,Zhou, Ting,Dai, Ping-Li,Song, Huai-Lei,Wu, Yan-Yan,Wang, Qiang,Luo, Qi-Hua,Zhou, Ting,Dai, Ping-Li,Song, Huai-Lei,Wu, Yan-Yan,Wang, Qiang.

[19]INGESTION OF Bt RICE POLLEN DOES NOTREDUCE THE SURVIVALORHYPOPHARYNGEAL GLAND DEVELOPMENT OF APIS MELLIFERA ADULTS. Chen, Xiuping,Romeis, Jorg,Peng, Yufa,Li, Yunhe,Wang, Yuanyuan,Chen, Xiuping,Romeis, Jorg,Peng, Yufa,Li, Yunhe,Wang, Yuanyuan,Shi, Jianrong,Dai, Pingli.

[20]Survey results of honey bee (Apis mellifera) colony losses in China (2010-2013). Liu, Zhiguang,Chen, Chao,Guo, Haikun,Lv, Liping,Ding, Guiling,Shi, Wei,Liu, Zhiguang,Shi, Wei,Niu, Qingsheng,Qi, Wenzhong,Yuan, Chunying,Su, Songkun,Liu, Shidong,Zhang, Yingsheng,Zhang, Xuewen,Ji, Ting,Dai, Rongguo,Zhang, Zhongyin,Wang, Shunhai,Gao, Fuchao. 2016

作者其他论文更多>>

Extensive cytonuclear discordance revealed by phylogenomic analyses suggests complex evolutionary history in the holly genus Ilex (Aquifoliaceae)

作者：Xu, Ke-Wang;Lin, Chen-Xue;Jiang, Lei;Guo, Zhong-Long;Li, Meng;Yang, Yi;Chen, Hong;Hao, Ming-Zhuo;Meng, Kai-Kai

关键词：Aquifoliales; Ilex; Incomplete lineage sorting; Hybridization; Phylogenomic discordance
Glyphosate and spinetoram alter viral communities with different effects on antibiotic resistance genes in the bumblebee gut

作者：Tang, Qihe;Li, Xijie;Zhang, Jun;Zhao, Chonghui;Pang, Yantao;Guo, Jun;Zhao, Yazhou;Li, Jilian;Li, Wanli;Liu, Zhenxing;Huang, Qi;Xiong, Jian;Qian, Kai

关键词：Antibiotic resistance genes; Glyphosate; Spinetoram; Bumblebee; Lytic phages
Sensitivity Analysis of AquaCrop Model Parameters for Winter Wheat under Different Meteorological Conditions Based on the EFAST Method

作者：Xing, Huimin;Sun, Qi;Li, Zhiguo;Wang, Zhen;Xing, Huimin;Wang, Zhen;Xing, Huimin;Sun, Qi;Wang, Zhen;Li, Zhiguo;Feng, Haikuan

关键词：winter wheat; biomass; sensitivity analysis; AquaCrop model
OEE1 affects the tobacco photosynthesis through the hormone regulation☆

作者：Deng, Lele;Yang, Yekun;Yang, Wenwu;Shuai, Yanju;Wang, Kunmiao;Zhang, Jianduo;Xiang, Haiying;Li, Meng;Xie, Xiaodong;Yu, Zheyan;Dai, Changbo;Wu, Qi;Chen, Yudong

关键词：Metabolites; Tobacco; Oxygen-Evolving Enhancer Protein 1 (OEE1); Plant hormone; Photosynthesis
Precipitation-driven biomass reallocation in a desert steppe: Unraveling adaptive strategies through a 6-year manipulative experiment

作者：Cui, Yuanyuan;Bai, Liu;Hou, Dongjie;Wang, Zhongwu;Wang, Jing;Qu, Zhiqiang;Wang, Yunbo;Han, Guodong;Li, Zhiguo;Ren, Haiyan;Wang, Haiming

关键词：Precipitation amount; Adaptive strategies of plants; Biomass allocation; Plant diversity; Soil physical properties; Soil available nutrients
Simultaneous regulation of both lignin and cellulose biosynthesis modifies xylem fiber properties in Populus

作者：Li, Jian;Li, Meng;Han, Yu;Tang, Xinwei;Sun, Jiayan;Li, Laigeng;Han, Yu;Lu, Xianwen

关键词：lignin; Populus; cellulose; cell wall; fiber cell
Haplotype-resolved chromosomal-level genome assembly of Prunus mahaleb

作者：Fu, Chenlong;Zhao, Zhuang;Wang, Zefu;Fu, Chenlong;Li, Meng;Wang, Xianrong;Yu, Lixia;Hou, Zhuangwei

关键词：

Differential physiological effects of neonicotinoid insecticides on honey bees: A comparison between Apis mellifera and Apis cerana

作者其他论文 更多>>

Extensive cytonuclear discordance revealed by phylogenomic analyses suggests complex evolutionary history in the holly genus Ilex (Aquifoliaceae)

Glyphosate and spinetoram alter viral communities with different effects on antibiotic resistance genes in the bumblebee gut

Sensitivity Analysis of AquaCrop Model Parameters for Winter Wheat under Different Meteorological Conditions Based on the EFAST Method

OEE1 affects the tobacco photosynthesis through the hormone regulation☆

Precipitation-driven biomass reallocation in a desert steppe: Unraveling adaptive strategies through a 6-year manipulative experiment

Simultaneous regulation of both lignin and cellulose biosynthesis modifies xylem fiber properties in Populus

Haplotype-resolved chromosomal-level genome assembly of Prunus mahaleb

作者其他论文更多>>