Effect of Temperature on Development and Immature Survival in the Scale Insect Predator, Chilocorus nigritus (F.) (Coleoptera: Coccinellidae)

Abstract

Developmental and immature survival rates of the coccidophagous coccinellid Chilocorus nigritus (F.) were examined under constant, cycling and glasshouse temperatures in order to determine its suitability for use as a biological control agent in temperature glasshouses. First instar larvae did not complete development at 18 C. However, within the range 20-30 C, the developmental rate increased with rising temperature. The theoretical lower thermal threshold for development was found to be 16.6 C. Thermal summation and polynomial regression methods were used to predict developmental periods under glasshouse conditions. The predictions were accurate to within a mean of 10% in relation to observed data. Under laboratory conditions, immature survival rates were highest 28 C (52%) and lowest at (and below) 20 C (17%). First instar larvae suffered the highest mortality rates, while pupae had the lowest. Under glasshouse conditions, the survival rates were much lower (9% in the winter months and 20% throughout the remainder of the year), but the species was considered to be a suitable biocontrol agent if mean daily temperatures were maintained at levels above 20 C.