Effects of tomato spotted wilt virus (TSWV) isolates, host plants, and temperature on survival, size, and development time of Frankliniella fusca

The effects of different isolates of the tomato spotted wilt tospovirus (TSWV), host plants, and temperatures on Frankliniella fusca (Hinds) (Thysanoptera: Thripidac), the most important vector of TSWV in North Carolina, were measured in the laboratory. Thrips were reared at either 18.3, 23.9, or 29...

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Published in:Entomologia experimentalis et applicata 2005-03, Vol.114 (3), p.215-225
Main Authors: Stumpf, C.F, Kennedy, G.G
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Animals
Autoecology
Biological and medical sciences
body size
Datura stramonium
Emilia sonchifolia
Frankliniella fusca
Fundamental and applied biological sciences. Psychology
host quality
infection
insect development
insect vector
insect vectors
mortality
Phytopathology. Animal pests. Plant and forest protection
plant disease
plant viruses
Protozoa. Invertebrata
Protozoa. Invertebrates
Records, symptoms, damages, economic importance, population surveys
strain differences
temperature
Thripidae
Thysanoptera
tobacco thrips
Tomato spotted wilt virus
virus transmission
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Summary:The effects of different isolates of the tomato spotted wilt tospovirus (TSWV), host plants, and temperatures on Frankliniella fusca (Hinds) (Thysanoptera: Thripidac), the most important vector of TSWV in North Carolina, were measured in the laboratory. Thrips were reared at either 18.3, 23.9, or 29.4 degrees C until adult eclosion on excised leaves of Datura stramonium L. or Emilia sonchifolia (L.). Plants were either infected with the TSWV isolates CFL or RG2, or left uninfected (control). The results revealed a positive relationship between larval survival and temperature, regardless of host plant or TSWV isolate. Both survival to adult and percentage transmission of TSWV by F. fusca were significantly affected by the interaction between host plant and TSWV isolate. The consequence of this interaction was that the cohort-based percentage transmission from infected E. sonchifolia plants for CFL was 1.3-fold greater than that of RG2, whereas the percentage transmission from infected D. stramonium plants for RG2 was twice that of CFL. Both host plant and TSWV isolates showed significant effects on thrips development time to adult and head capsule width of adult thrips, as well as on the incidence of thrips infection with TSWV. The infection status of these thrips was determined by ELISA for the NSs viral protein. Infected thrips reared on infected host foliage took longer to develop to adult and were smaller than non-infected thrips which had also been reared on infected host foliage, demonstrating a direct effect of the TSWV on thrips. However, non-infected thrips reared on non-infected leaves took longer to develop than non-infected thrips reared on infected leaves, suggesting an effect of the plant tissue on thrips. In addition, adult thrips reared on TSWV-infected D. stramonium at 29.4 degrees C developed smaller head capsules than thrips developing on infected foliage at lower temperatures and on non-infected leaves of D. stramonium or E. sonchifolia. Both TSWV isolates and host plants differentially affected females more than males. In conclusion, both the infection of thrips by TSWV and TSWV-mediated changes in host plant quality were found to have significant biological effects on F. fusca.
ISSN:0013-8703
1570-7458
1570-8703
DOI:10.1111/j.1570-7458.2005.00251.x