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机构地区:[1]浙江农业大学生物科学系
出 处:《菌物系统》1998年第4期361-366,共6页Mycosystema
基 金:国家杰出青年科学基金;国家自然科学基金
摘 要:用“孢子浴”法将人工培养的安徽虫瘟霉(Zophthoraanhuiensis)对桃蚜(Myzuspersicae)接种而进行定量生物测定(18℃,光周期为L∶D12∶12),包括10个剂量(1.5~197.7个分生孢子/mm2),每剂量处理蚜虫64~120头,逐日观察记载死亡数至第7d。接种后第3d在高剂量处理中始见少量死蚜,第4~6d为死蚜盛期。所获数据很好地拟合时间剂量死亡率模型,由模型参数估计出该菌作用于桃蚜的时间效应随剂量增大而减小,在37.1~197.7个分生孢子/mm2的剂量范围内LT50值为4.5~6.7d;剂量效应在接种后随时间递减,第5~7d的LD50分别为86.8、43.7和34.1个分生孢子/mm2。结果表明,安徽虫瘟霉是一种较为理想的杀蚜微生物,在寄主体内的潜伏期为4~5d。The entomophthoralean fungus, Zoophthora anhuiensis , was bioassayed on the green peach aphid, Myzus percisae in a growth chamber at the regime of 18℃ and 1212 (L∶D). The aphids with detached leaves of the Chinese cabbage were exposed to the spore shower of the fungal inocula produced in vitro for 1~30 min, resulting in 10 doses (1.5~197.7 conidia per square milliliter) with each for 64~120 aphids. Based on daily observations, the visible deaths attributed to the spore shower did not occur until day 3 after the exposure but most of the deaths occurred on days 4~6. The resulting data fit well to the time dose mortality model, generating the parameters for use in estimation of lethal dose (LD 50 ) and time length (LT 50 ) effects. The estimates of LT 50 ’s ranged from 4.5 to 6.7 d at the doses of 37.1~197.7 conidia per square milliliter, decreasing with the increasing doses. The LD 50 ’s were 86.8, 43.7, and 34.1 conidia per square milliliter from day 5 to day 7 after the exposure, respectively. The results showed that Z. anhuiensis was a promising aphidicidal fungal pathogen with a latent period of 4~5 d in host.
分 类 号:Q949.323.4[生物学—植物学] S476.12[农业科学—农业昆虫与害虫防治]
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