The Plant Pathology Journal (Apr 2017)

A Model to Explain Temperature Dependent Systemic Infection of Potato Plants by Potato virus Y

  • Kyung San Choi,
  • Francisco del Toro,
  • Francisco Tenllado,
  • Tomas Canto,
  • Bong Nam Chung

DOI
https://doi.org/10.5423/PPJ.NT.06.2016.0144
Journal volume & issue
Vol. 33, no. 2
pp. 206 – 211

Abstract

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The effect of temperature on the rate of systemic infection of potatoes (Solanum tuberosum L. cv. Chu-Baek) by Potato virus Y (PVY) was studied in growth chambers. Systemic infection of PVY was observed only within the temperature range of 16°C to 32°C. Within this temperature range, the time required for a plant to become infected systemically decreased from 14 days at 20°C to 5.7 days at 28°C. The estimated lower thermal threshold was 15.6°C and the thermal constant was 65.6 degree days. A systemic infection model was constructed based on experimental data, using the infection rate (Lactin-2 model) and the infection distribution (three-parameter Weibull function) models, which accurately described the completion rate curves to systemic infection and the cumulative distributions obtained in the PVY-potato system, respectively. Therefore, this model was useful to predict the progress of systemic infections by PVY in potato plants, and to construct the epidemic models.

Keywords