本文主要研究内容
作者吴雅茹(2019)在《消除麦长管蚜兼性共生菌对减轻小麦黄矮病危害的影响》一文中研究指出:麦长管蚜Sitobion avenae(Fabricius)是严重影响小麦产量的害虫,它不仅吸食小麦叶片、茎、穗部的汁液,还分泌蜜露阻碍小麦的光合作用和呼吸作用,最重要的是小麦黄矮病(病原为大麦黄矮病毒Barley yellow dwarf virus,BYDV)的传播媒介。小麦黄矮病对小麦的危害极为严重,病害流行时,会造成小麦产量锐减。麦长管蚜体内兼性共生菌与病毒享有共同位置,存在复杂的互作关系。探明共生菌—媒介蚜虫—植物病毒互作理论,可了解病毒病害流行的影响因素,为防治麦长管蚜和小麦黄矮病提供理论基础。本研究通过检测不同麦长管蚜单克隆系体内兼性共生菌感染情况,筛选出仅含1种或2种兼性共生菌单克隆系,通过向人工饲料中添加抗生素的方法消除兼性共生菌,获得与感染兼性共生菌遗传背景一致未感染兼性共生菌的麦长管蚜单克隆系,对其获取和传播病毒BYDV主流株系GAV的能力进行了比较研究,结果如下:1.从杨凌麦田采集麦长管蚜成虫,室内单头饲养形成22个单克隆系,利用16S rDNA特异性引物检测麦长管蚜体内的5种兼性共生菌Hamiltonella defensa、Regiella insecticola、Rickettsia、Wolbachia和Arsenophonus感染情况,检测结果表明:单克隆系C3和Y4未感染任何兼性共生菌,单克隆系F3仅感染H.denfensa,单克隆系C6和F2仅感染R.insecticola,单克隆系C9和F5感染H.defensa和R.insecticola,其余单克隆系感染3种或3种以上兼性共生菌。2.对前人麦长管蚜人工饲料配方进行改进,与对照人工饲料配方相比,在改进后的人工饲料配方条件下,麦长管蚜的存活率从46.00%±7.48%显著上升到90.00%±4.47%,日均体重增长率(MRGR)从0.2646±0.0139显著上升到0.3336±0.0139。通过向改进后的人工饲料配方中添加不同浓度氨苄青霉素ampicillin,头孢噻肟cefotaxime和庆大霉素gentamycin,饲养2日龄F3、C6、F2、C9和F5麦长管蚜单克隆系7d后,单头移入小麦植株中饲养,检测3代后麦长管蚜体内兼性共生菌消除情况,成功消除F3体内H.defensa,C9和F5体内R.insecticola。3.麦长管蚜单克隆系C9消除共生菌R.insecticola后,其对BYDV-GAV获毒能力无显著变化,但传毒能力从90.00%±5.774%显著下降到53.33%±6.67%;而F5消除R.insecticola及F3消除H.defensa后,其获毒能力和传毒能力均无显著变化。综上所述,通过在人工饲料中添加抗生素的方法可以成功消除麦长管蚜体内的部分兼性共生菌,消除兼性共生菌R.insecticola的能降低麦长管蚜对BYDV-GAV的传毒能力,因此通过消除介体麦长管蚜兼性共生菌来减轻小麦黄矮病的危害是可行的。
Abstract
mai chang guan ya Sitobion avenae(Fabricius)shi yan chong ying xiang xiao mai chan liang de hai chong ,ta bu jin xi shi xiao mai xie pian 、jing 、sui bu de zhi ye ,hai fen bi mi lou zu ai xiao mai de guang ge zuo yong he hu xi zuo yong ,zui chong yao de shi xiao mai huang ai bing (bing yuan wei da mai huang ai bing du Barley yellow dwarf virus,BYDV)de chuan bo mei jie 。xiao mai huang ai bing dui xiao mai de wei hai ji wei yan chong ,bing hai liu hang shi ,hui zao cheng xiao mai chan liang rui jian 。mai chang guan ya ti nei jian xing gong sheng jun yu bing du xiang you gong tong wei zhi ,cun zai fu za de hu zuo guan ji 。tan ming gong sheng jun —mei jie ya chong —zhi wu bing du hu zuo li lun ,ke le jie bing du bing hai liu hang de ying xiang yin su ,wei fang zhi mai chang guan ya he xiao mai huang ai bing di gong li lun ji chu 。ben yan jiu tong guo jian ce bu tong mai chang guan ya chan ke long ji ti nei jian xing gong sheng jun gan ran qing kuang ,shai shua chu jin han 1chong huo 2chong jian xing gong sheng jun chan ke long ji ,tong guo xiang ren gong si liao zhong tian jia kang sheng su de fang fa xiao chu jian xing gong sheng jun ,huo de yu gan ran jian xing gong sheng jun wei chuan bei jing yi zhi wei gan ran jian xing gong sheng jun de mai chang guan ya chan ke long ji ,dui ji huo qu he chuan bo bing du BYDVzhu liu zhu ji GAVde neng li jin hang le bi jiao yan jiu ,jie guo ru xia :1.cong yang ling mai tian cai ji mai chang guan ya cheng chong ,shi nei chan tou si yang xing cheng 22ge chan ke long ji ,li yong 16S rDNAte yi xing yin wu jian ce mai chang guan ya ti nei de 5chong jian xing gong sheng jun Hamiltonella defensa、Regiella insecticola、Rickettsia、Wolbachiahe Arsenophonusgan ran qing kuang ,jian ce jie guo biao ming :chan ke long ji C3he Y4wei gan ran ren he jian xing gong sheng jun ,chan ke long ji F3jin gan ran H.denfensa,chan ke long ji C6he F2jin gan ran R.insecticola,chan ke long ji C9he F5gan ran H.defensahe R.insecticola,ji yu chan ke long ji gan ran 3chong huo 3chong yi shang jian xing gong sheng jun 。2.dui qian ren mai chang guan ya ren gong si liao pei fang jin hang gai jin ,yu dui zhao ren gong si liao pei fang xiang bi ,zai gai jin hou de ren gong si liao pei fang tiao jian xia ,mai chang guan ya de cun huo lv cong 46.00%±7.48%xian zhe shang sheng dao 90.00%±4.47%,ri jun ti chong zeng chang lv (MRGR)cong 0.2646±0.0139xian zhe shang sheng dao 0.3336±0.0139。tong guo xiang gai jin hou de ren gong si liao pei fang zhong tian jia bu tong nong du an bian qing mei su ampicillin,tou bao sai wo cefotaximehe qing da mei su gentamycin,si yang 2ri ling F3、C6、F2、C9he F5mai chang guan ya chan ke long ji 7dhou ,chan tou yi ru xiao mai zhi zhu zhong si yang ,jian ce 3dai hou mai chang guan ya ti nei jian xing gong sheng jun xiao chu qing kuang ,cheng gong xiao chu F3ti nei H.defensa,C9he F5ti nei R.insecticola。3.mai chang guan ya chan ke long ji C9xiao chu gong sheng jun R.insecticolahou ,ji dui BYDV-GAVhuo du neng li mo xian zhe bian hua ,dan chuan du neng li cong 90.00%±5.774%xian zhe xia jiang dao 53.33%±6.67%;er F5xiao chu R.insecticolaji F3xiao chu H.defensahou ,ji huo du neng li he chuan du neng li jun mo xian zhe bian hua 。zeng shang suo shu ,tong guo zai ren gong si liao zhong tian jia kang sheng su de fang fa ke yi cheng gong xiao chu mai chang guan ya ti nei de bu fen jian xing gong sheng jun ,xiao chu jian xing gong sheng jun R.insecticolade neng jiang di mai chang guan ya dui BYDV-GAVde chuan du neng li ,yin ci tong guo xiao chu jie ti mai chang guan ya jian xing gong sheng jun lai jian qing xiao mai huang ai bing de wei hai shi ke hang de 。
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论文作者分别是来自西北农林科技大学的吴雅茹,发表于刊物西北农林科技大学2019-07-11论文,是一篇关于麦长管蚜论文,兼性共生菌论文,传毒效率论文,西北农林科技大学2019-07-11论文的文章。本文可供学术参考使用,各位学者可以免费参考阅读下载,文章观点不代表本站观点,资料来自西北农林科技大学2019-07-11论文网站,若本站收录的文献无意侵犯了您的著作版权,请联系我们删除。
标签:麦长管蚜论文; 兼性共生菌论文; 传毒效率论文; 西北农林科技大学2019-07-11论文;