Abstract

Simple SummaryThe rapid growth of the biocontrol market is increasing the research into the usefulness of native natural enemies. For the commercial use of native natural enemies, economical mass-rearing technology must be developed. This study was conducted to establish a mass-rearing technique for improving the usability of Orius minutus in Korea. This species uses plants for moisture intake, nutritional supplementation, and oviposition substrates. However, the use of plants in mass production systems significantly increases the cost of production. Eggs of stored grain insect pests used as food in rearing Orius spp., are the most nutritionally balanced food source, but their high market price necessitates the selection of an economical food source to replace them. In this study, Ephestia cautella eggs and iron-coated brine shrimp eggs were selected as diet, and cork sheets were selected as an artificial oviposition substrate to obtain basic data for establishing a plant-free rearing system. The plant-free model developed in our study can reduce rearing costs by 70.5% compared to the conventional mass-rearing model.This study presented biological and economic data for the mass-rearing of Orius minutus in Korea. Simplifying the mass-rearing process through an alternative diet and an artificial oviposition substrate is a prerequisite for enhancing the usability of this insect as a biological control agent. We compare the hatch rate of O. minutus eggs deposited on a plant substrate with that of eggs deposited on two artificial substrates, cork sheets and rubber. The results indicate that cork sheet is the most cost-effective artificial oviposition substrate for the mass-rearing of O. minutus. We also examine five feeding treatments that included two types of brine shrimp eggs and eggs of Ephestia cautella to compare the number of eggs laid in the fifth generation. We found no significant difference between the two treatment groups; 61.3 eggs were laid in the treatment group fed iron-coated brine shrimp and moth eggs, and 67.4 eggs were laid in the control group. The plant-free model developed in our study can reduce rearing costs by 70.5% compared to the conventional mass-rearing model.

Highlights

  • The commercial use of biological control has developed quickly and created the need for advanced rearing techniques, cost-effective substitute diets, and reliable methods of field application to improve the utilization of biological control agents (BCAs) [1,2]

  • We presented biological and economic data for the development of O. minutus, an indigenous insect species, using a plant-free rearing system for the localization of biological control agents, which are increasingly dependent on imports

  • This study investigated the preference of artificial oviposition substrates in O. minutus; substrate preference based on thickness and texture; and hatch rate related to the moisture supply

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Summary

Introduction

The commercial use of biological control has developed quickly and created the need for advanced rearing techniques, cost-effective substitute diets, and reliable methods of field application to improve the utilization of biological control agents (BCAs) [1,2]. According to van Lenteren et al [3], approximately 500 commercial producers world-wide supply about 350 species of BCAs. About 30 of them are mass producers, and about 20 are located in Europe [4]. In the international biological control market, the top 25 BCAs originate from Europe and are imported for domestic use [4]. Imported foreign species are associated with an ecological risk of eliminating native species or reducing the population in a specific region, possibly changing the entire biological community [5,6]. The development of indigenous-insect resource technologies is imperative for the preservation of biodiversity and sustainable use

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