Pathogenicity and in vivo Development of Metarhizium rileyi Against Spodoptera litura (Lepidoptera: Noctuidae) Larvae

Author:

Liu Shouzhu12,Xu Zhimin1,Wang Xueying3,Zhao Lvquan2,Wang Guiqing1,Li Xuewen1,Zhang Leilei1

Affiliation:

1. School of Agriculture, Liaocheng University, Liaocheng, China

2. College of Forestry, Nanjing Forestry University, Nanjing, China

3. Plant Protection Station, Jiyang Agricultural Bureau, Jinan, China

Abstract

AbstractMetarhizium rileyi, a well-known entomopathogenic fungus, could open up new vistas in biological control of insect pests; however, due to its intrinsic shortcomings, such as long pathogenic process, its application is largely limited. To explore which process, the invasion or the following in vivo development, is the main factor responsible for the long pathogenic process, the lethal effect of M. rileyi against Spodoptera litura (Fabricius) was determined by conidial topical application and hyphae body injection, and the host immune response was also monitored. Results showed when larvae were inoculated by conidial topical application, the pathogenicity of M. rileyi varied greatly depending on the larval instar and conidia concentration, and LC50 values ranged from 6.24 × 106 to 6.06 × 109 conidia/ml while LT50 values fluctuated from 4.35 to 9.43 d. However, in vivo study showed when hyphal bodies (Hbs) of M. rileyi were injected into host hemocoel, they would not be recognized by the host’s immune system as invaders. There were no significant differences in the hemocytes and phenoloxidase activity between the infected and control larvae at the initial 44 h, indicated that the fungus was able to successfully avoid the attack from the cellular and humoral immune systems, therefore, it could multiply freely in the hemocoel. The in vivo development time of M. rileyi tended to remain constant for 2–3 d regardless of the initial inoculated numbers. Considering no detectable defense response was observed during in vivo development, it can be concluded that host nonself-recognition system does not respond to the hemolymph borne-Hbs.

Funder

Shandong Natural Science Foundation

Student’s Platform for Innovation and Entrepreneurship Training Program

Jiangsu Key Laboratory for Poplar Germplasm Enhancement and Variety Improvement

Publisher

Oxford University Press (OUP)

Subject

Insect Science,Ecology,General Medicine

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