Persistence and coexistence of engineered baculoviruses

M.B. Bonsall, D.R. O'Reilly, J.S. Cory, R.S. Hails

Research output: Contribution to journalArticleAcademicpeer-review

10 Citations (Scopus)

Abstract

Baculoviruses, and in particular, the nucleopolyhedroviruses infect a wide range of arthropod hosts and have the potential to be used as biopesticides. However, one of the major drawbacks with these pathogens as biocontrol agents is that they have a slow response time. Alterations to the speed of kill and pathogen life history characteristics can influence the competitive outcome and persistence between wildtype and modified strains. Here, we explore, theoretically, how life-history modifications of pathogens can affect the epidemiology and ecology of strain coexistence. In particular, we show how under simple mass action disease transmission, life-history difference between strains are insufficient to allow coexistence. Additional heterogeneities in transmission are shown to be necessary to facilitate coexistence of wildtype and modified pathogen strains. We also illustrate how the patterns of infectivity of wildtype and modified strains can also affect long-term coexistence, and argue that appropriate assessment of genetic modifications must be presented in terms of relevant ecological theory.
Original languageEnglish
Pages (from-to)217-230
JournalTheoretical Population Biology
Volume67
Issue number4
DOIs
Publication statusPublished - 2005

Keywords

  • insect-pathogen interactions
  • nuclear polyhedrosis-virus
  • udp-glucosyl transferase
  • recombinant baculovirus
  • trichoplusia-ni
  • egt gene
  • population-dynamics
  • spodoptera-exigua
  • gypsy-moth
  • host

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