Effects of baculovirus-killed cadavers on plant defenses and insect behavior

Baculoviruses are a group of entomopathogenic viruses that are important natural enemies of insects, particularly lepidopteran larvae. An important component of baculovirus transmission efficiency is the frequency with which hosts encounter patchily distributed virions on plants. Little is known about the ecology and bacterial composition of virus-killed cadavers. We used a baculovirus and host Trichoplusia ni caterpillars to study the effects of virus-killed cadavers on tomato plant defenses and T. ni behavior. We also compared bacterial communities associated with virus-killed and uninfected (freeze-killed) cadavers and found that there was no significant difference in community composition and membership between tomato-fed virus-killed or freeze-killed cadavers. Comparison of virus-killed cadavers from two separate experiments revealed significant differences in bacterial community composition, suggesting that host plant could play a more important role in shaping bacterial communities than virus infection status. Culture-dependent plating indicated that virus-killed cadavers had significantly higher bacterial titers compared with uninfected cadavers. We found that virus-killed cadavers suppressed polyphenol oxidase activity, an important plant defense protein, in mechanically damaged plants, but not in plants damaged by herbivory. Although cadavers did not influence plant defenses induced by feeding damage inflicted by healthy or infected T. ni, this study provides the first evidence that baculoviruses could influence plant defenses through host cadavers. When applied to intact plants, neither virus-killed or freeze-killed cadavers influenced T. ni oviposition, larval choice, or larval consumption, indicating these insects did not discriminate cadaver cues. Virus-killed cadavers could play important roles in mediating interactions between plants, herbivores, and other trophic levels, with potential implications for viral transmission dynamics.

• Publication year

  2025

• Venue

  Arthropod-Plant Interactions

• Publication date

  2025-01-28

• Fields of study

  Not labeled

• Identifiers
  DOI 10.1007/s11829-024-10129-7
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar

• No claims are published for this paper.

• No concepts are published for this paper.

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