摘要
对防治蔬菜甜菜夜蛾(SpodopteraexiguaHübner)和斜纹夜蛾(ProdenialituraFabricius)为主并兼治菜螟、菜青虫、小菜蛾等鳞翅目害虫的单一型和复配型苜蓿银纹夜蛾核型多角体病毒(AutographacalifornicanuclearpolyhedrosisVirus,AcMNPV)生物杀虫剂进行筛选。毒力测定结果表明:选用单剂的AcMNPVA株(从甜菜夜蛾虫体增殖获得)的毒力(LD50=131.8PIB/头)比AcMNPVB株(从草地贪夜蛾细胞株Sf9中获得)的毒力(LD50=1949.4PIB/头)高14.79倍。AcMNPVA株加苏云金杆菌(Bt)加斜纹夜蛾核型多角体病毒(PlNPV)形成的复配型AcMNPVA株制剂对甜菜夜蛾二龄幼虫的LD50值(21.82~21.4PIB/头)与单剂AcMNPVA株的LD50值(168.84~204.36PIB/头)比值为9.5~7.7倍。同样复配型AcMNPVA株制剂对斜纹夜蛾二龄幼虫LD50(3.16~15.46PIB/头)与单剂PlNPVLD50值(16.02~53.53PIB/头)比值为5.1~3.5倍。说明以Bt和非耙标害?
The multiple with other biological agent Autographa californica nucleopolyhedrovirus (AcMNPV) pesticide, which is widely used to control Spodoptera exigua and Prodenia litura as well as Artogeia rapat, Hellula untalis, Plutella xylostella , was selected. Tested with 2nd instar S. exigua larvae, the virulence of AcMNPV A strain amplified in S.exigua larvae is higher than that of AcMNPV B strain in Sf9 cells. LD 50 of AcMNPV B (1949.4 PIB/Larva) is 14.79 times more than AcMNPV A (131.8 PIB/Larva).The ratio of LD 50 between AcMNPV A (LD 50 =168.84-240.36 PIB/Larva) and AcMNPV A+Bt (LD 50 =1.4329-128.91 PIB/Larva) is 118-1.5 while the ratio between AcMNPV A and AcMNPV A+Bt+PlNPV (LD 50 = 21.82 -21.4 PIB/Larva) is 7.7-9.5. Tested with 2nd instar P.litura larvae, the ratio of LD 50 between PlNPV (LD 50 =16.02-53.53 PIB/Larva)and PlNP V+Bt(LD 50 =2.9-7.76 PIB/Larva ) is 5.5-6.9 while the ratio between PlNPV and PlNPV+Bt+AcMNPV A (LD 50 =3.16-15.469PIB/Larva) is 3.5-5.1. It shows that the virulence of the multiple AcMNPV A significantly increases. The multiple pesticide of AcMNPV A+Bt+PlNPV named SNB 3 has been successfully used in controlling 5 major leaf pests in vegetable.
出处
《中国病毒学》
CSCD
1998年第4期345-350,共6页
Virologica Sinica
基金
南京市科学技术委员会96(208)项目
关键词
苜宽厚银纹夜蛾
核型多角体病毒
夜蛾
毒力测定
Autographa californica nucleopolyhedrovirus (AcMNPV), Bacillus thuringiensis (Bt), Prodenia litura nucleopolyhedrovirus (PlNPV), Spodoptera exigua, Prodenia litura, Bioassay