Abstract
Abstract The yellow ladybeetle, Illeis koebelei Timberlake, is a potential biological agent for powdery mildew. The objective of this study was to construct development and oviposition models of I. koebelei. Development experiment was conducted at eight temperatures ranging from 15.4 to 39.5 °C. Development rates were well fitted with linear and nonlinear models. Lower developmental thresholds for egg, first instar, second instar, third instar, and fourth instar larva, pre-pupa, pupa, and total immature stage were estimated to be 3.6, 12.7, 12.1, 11.3, 11.3, 12.8, 14.7, and 14.2 °C, respectively. Their respective thermal requirements in degree days (DD) were 86.6, 16.0, 22.5, 30.2, 49.3, 14.5, 43.8 and 217.4, respectively. Survivorship was the highest at 25.1 °C for immatures. Oviposition experiment was conducted at nine temperatures, ranging from 15.4 to 35.3 °C. Mean fecundity ranged from 18.6 eggs at 29.3 °C to 205.3 eggs at 20.3 °C. It was well described by extreme value function. Adult survival and cumulative oviposition rates of I. koebelei were fitted to a sigmoid function and a two-parameter Weibull function, respectively. Findings of this study provide basic information for ecology of I. koebelei. They can be used to optimize environmental conditions for mass-rearing and shipping, comparing optimal occurrence conditions between I. koebelei and powdery mildew, and forecasting phenology and population dynamics of I. koebelei in the fields.
Published Version
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