茄二十八星瓢虫对雷公藤和曼陀罗提取物的敏感性

Henosepilachna vigintioctopunctata susceptibility to Ttripterygium wilfordii and Datura stramonium extracts

  • 摘要: 为研究寄主植物对茄二十八星瓢虫药剂敏感性及体内酶活力的影响, 采用浸渍法分别测定了取食茄子、马铃薯、番茄和龙葵的茄二十八星瓢虫幼虫(以下简称幼虫)对雷公藤和曼陀罗提取物的敏感性, 用生化方法测定了雷公藤和曼陀罗提取物对幼虫体内乙酰胆碱酯酶(AChE)和主要解毒酶活性的影响。结果表明, 雷公藤提取物对取食茄子、马铃薯、番茄和龙葵的幼虫LC50值分别为1.407 9 mg·L-1、1.595 8 mg·L-1、1.464 7 mg·L-1和1.109 7 mg·L-1, 相对毒力指数为78.82、69.54、75.76和100; 曼陀罗提取物对取食茄子、马铃薯、番茄和龙葵的幼虫LC50值分别为0.641 7 mg·L-1、0.610 3 mg·L-1、0.758 0 mg·L-1和0.488 3 mg·L-1, 相对毒力指数为76.09、80.01、64.42和100; 取食龙葵的幼虫对2种植物提取物的敏感性显著高于取食茄子、马铃薯和番茄的幼虫。取食4种寄主植物的幼虫体内靶标酶AChE和主要解毒酶谷胱甘肽-S-转移酶(GST)、羧酸酯酶(CarE)、多功能氧化酶(MFO)活力顺序均为茄子>马铃薯>番茄>龙葵。其中, 取食番茄和龙葵的幼虫体内AChE和GST活力显著低于取食茄子和马铃薯的幼虫, 取食马铃薯、番茄和龙葵的幼虫CarE活力显著低于取食茄子的幼虫, 取食4种寄主植物的幼虫MFO活力差异达极显著水平。雷公藤和曼陀罗提取物对幼虫体内AChE和GST、CarE和MFO活性均有抑制作用。其中, 对取食马铃薯幼虫的AChE活力抑制作用最强, 其次为取食茄子和番茄的幼虫, 对取食龙葵的幼虫抑制作用最低。雷公藤和曼陀罗提取物对取食龙葵幼虫CarE活力的抑制作用最强, 而对取食马铃薯的幼虫MFO活力的抑制作用最强。寄主植物中的次生物质对解毒酶的诱导或抑制可能是引起药剂敏感性差异的主要原因。

     

    Abstract: The influence of host plants on the larvae were investigated using the dipping and biochemical methods to determine the susceptibility of Henosepilachna vigintioctopunctata larvae that feed on eggplants, potatoes, tomatoes and nightshades to Ttripterygium wilfordii and Datura stramonium extracts and the activities of the corresponding acetylcholinesterase (AChE) and detoxification enzymes. The results indicated that LC50 values of T. wilfordii extract for larvae fed on eggplants, potatoes, tomatoes and nightshades were 1.407 9 mg·L-1, 1.595 8 mg·L-1, 1.464 7 mg·L-1 and 1.109 7 mg·L-1 and the relative toxicities were 78.82, 69.54, 75.76 and 100, respectively. LC50 values of D. stramonium extract for larvae fed on eggplants, potatoes, tomatoes and nightshades were 0.641 7 mg·L-1, 0.610 3 mg·L-1, 0.758 0 mg·L-1 and 0.488 3 mg·L-1 and the relative toxicities were 76.09, 80.01, 64.42 and 100, respectively. Compared with the susceptibility of larvae fed on eggplants, potatoes and tomatoes, the susceptibility of larvae fed on nightshades to T. wilfordii and D. stramonium extracts were significantly enhanced. The activities of AChE, glutathion-S-transferase (GST), carboxyl esterase (CarE) and mixed function oxidase (MFO) were highest for larvae fed on eggplants, followed by those fed on potatoes, tomatoes and then nightshades. Compared with AChE and GST activities of larvae fed on eggplants and potatoes, AChE and GST activities of larvae fed on tomatoes and nightshades were significantly suppressed. Also compared with CarE activity of larvae fed on eggplants, CarE activities of larvae fed on potatoes, tomatoes and nightshades were significantly suppressed. There were significant differences in MFO activity of larvae fed on the four host plants. T. wilfordii and D. stramonium extracts restrained AChE and GST, CarE and MFO activities of larvae fed on eggplants, potatoes, tomatoes and nightshades. AChE activity of larvae fed on potatoes was most significantly suppressed by T. wilfordii and D. stramonium extracts, that of AChE of larvae fed on eggplants and tomatoes was obviously suppressed and yet that of AChE activity of larvae fed on nightshades was relatively suppressed. CarE activity of larvae fed on nightshades, that of MFO of larvae fed on potatoes were significantly restrained by T. wilfordii and D. stramonium extracts. The induction or restraint of detoxification enzymes by allelochemicals in host plants were the main possible reasons for the differences in pesticide susceptibilities of H. vigintioctopunctata larvae.

     

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