Effect of Temperature on the Development and Longevity of Pezothrips kellyanus (Thysanoptera: Thripidae)

Title	Effect of Temperature on the Development and Longevity of Pezothrips kellyanus (Thysanoptera: Thripidae)
Publication Type	Journal Papers
Year of Publication	2009
Authors	Varikou K., Tsitsipis I., Alexandrakis V., & Hoddle M.
Journal	Annals of the Entmological Society of America
Volume	102
Pagination	835-841
ISSN
URL	https://academic.oup.com/aesa/article/102/5/835/89680?login=true
DOI	10.1603/008.102.0510
Citation Key
Keywords	Pezothrips kellyanus, citrus, developmental time, temperature thresholds, thermal requirements
Abstract	The developmental biology and adult longevity of Pezothrips kellyanus (Bagnall) (Thysanoptera: Thripidae) on lemon (Citrus limon L.) leaves was studied at Þve constant temperatures (15, 20, 25, 30, 32.5, and 35C) under laboratory conditions. Developmental time and adult longevity were inversely related to temperature. The developmental time from egg to adult ranged from 10.1 d at 32.5C to 40.3 d at 15C. Adult thrips lived from 5.3 d at 35C to 45.9 d at 15C and females tended to live signiÞcantly longer than males at these two extreme temperatures. No signiÞcant differences were found in developmental times between male and female immature stages of P. kellyanus within each tested temperature regime. The highest larval to adult survival (80.6%) was found at 25C and the lowest (50%) at 32.5C. No larvae hatched from eggs incubated at 35C. Both linear and nonlinear models adequately described the relationship between temperature and developmental rates for immature stages of P. kellyanus. Thus, thrips required 204.5 degree-days to complete development from egg to adult stage, above a minimum threshold of 10.2C as estimated by linear regression. The temperature thresholds for all immature stages except for pupae of P. kellyanus, estimated by the linear model were similar to values that were estimated by the nonlinear model. The predicted upper lethal temperature was 33.12C, with a minimum threshold for total development occurring at 10C, as estimated by nonlinear model. The importance of the results in the management of this species through the prediction of its seasonal appearance and population levels are discussed.
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