Pathology and Properties of the Tetravirus Helicoverpa armigera Stunt Virus

Abstract

Abstract A quantitative study of the pathogenicity of Helicoverpa armigera stunt virus (HaSV) (Tetraviridae) isolates toward larvae of several heliothine species was conducted along with studies on the stability of the virus to a variety of chemical, enzymic, and temperature treatments. Surface contamination bioassays of several HaSV isolates against H. armigera produced 50% effective concentration (EC 50 ) estimates ranging between 568 and 9244 virus particles (vp)/mm 2 . Against mid 1st instar larvae of H. armigera, H. punctigera, and Heliothis punctifera, EC 50 estimates for one isolate were 1288, 16,137, and 2667 vp/mm 2 , respectively. The virulence of HaSV infection varied markedly with the age at which larvae were exposed to the virus. Presentation of the virus to the first three instars of H. armigera was accompanied by cessation of feeding, growth retardation, and eventual lethality, whereas no adverse effects were observed when later instars were exposed to the virus, even at very high concentrations. Active HaSV was recovered from frass of larvae exposed to the virus as 1st instars. Household bleach (1% v/v; 0.04% w/v available chlorine, 0.004% w/v NaOH), formaldehyde (1% w/v), and temperatures ≥65°C completely inactivated HaSV in suspension. Treatments with ether, proteinase K (1 mg/ml), H. armigera gut contents, and temperatures between 22 and 55°C partially inactivated virus activity. No observable inactivation was observed after treatment with chloroform, chymotrypsin (1 mg/ml), trypsin (1 mg/ml), or RNase A (1 mg/ml). The virus was stable between pH 2.8 and pH 10.0 with around 60% loss of activity observed at pH 11.4. The pattern of pathogenic effects seen in several other insect species challenged by high concentrations of HaSV indicated that the host range of the virus is limited to species within the lepidopteran family Noctuidae. The apparently restricted host range of HaSV along with a number of other features indicate that this virus has considerable potential for the development of novel control agents for use against heliothine pests.