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Develop the Successive Rearing Method of the Large Copper Butterfly, Lycaena dispar
Seong-hyun Kim,Namjung Kim,Hae-chul Park,Hwang-young Kim,Jeong-hwan Kim,Seok-jo Whang,Man-young Choi,Yeon-ho Je 한국응용곤충학회 2009 한국응용곤충학회 학술대회논문집 Vol.2009 No.05
In order to establish an indoor-rearing system for Copper butterflies; Large Copper butterfly, Lycaena dispar, the effect of temperature, photoperiod on larval development was investigated. As temperature increased, the developmental period was gradually reduced. The developmental periods of Large Copper larvae was 11.0 days and 28.5 days at 30℃ and 17.5℃, respectively. We investigated the sensitivity of stages to diapause induction. The experiment involved transfer of individuals from diapause averting (LD 16:8 h, 25℃) to diapause inducing condition (LD 8:16 h, 20℃) at various stages. Daipause was induced in 95.2% insect transferred at hatching larvae, in 15.6% of insects transferred at 2nd stadium molt, in 0% of insects transferred at after 3rd stadium molt. Percentage of diapause induction increased with the length of short days and low temperature. The main sensitive stage to photoperiodic and temperature induction of diapause determination was the early first larval instar. The diapause sensitivity began 14 days and ended 20 days after hatching larvae. The main stage sensitive to photoperiodic induction of diapause determination was the early first larval instar under low temperature and short day length. In relation to diapause termination, pupation was accelerated with cold treatment after diapausing 15 to 20 days and suitable chilling temperature was 8℃.
Rearing the swallowtail butterfly, Papilio xuthus, on a pellet-type artificial diet
Seonghyun Kim,Namjung Kim,Seongjin Hong,Haechul Park,Youngbo Lee,Kwanho Park,Wonho Choi 한국응용곤충학회 2013 한국응용곤충학회 학술대회논문집 Vol.2013 No.10
The effect of an artificial diet on the developmental rate, a life history parameter, was examined for the swallowtail butterfly, Papilio xuthus. Artificial insect diets are an essential component of many insect rearing systems that produce insects for research purposes. Complex agar-gelled diets are generally prepared in large batches and used shortly after preparation because the degradation of perishable diet ingredients, such as vitamins and fatty acids, can adversely affect insect quality (Brewer F D 1984). However, the timing of diet preparation may be inconvenient and large batches wasteful if the unused, excess diet is discarded. This study showed that if the artificial diet was fed during the larval stage, the larval and pupal developmental periods, the percentage of pupation, and the pupal weight generally did not differ significantly among the five artificial diets evaluated. The percentage of pupation varied considerably, with no significant differences among diets except for diet C. A maximum pupation percentage of 83% was observed on diet C. Pellet-type diets were investigated with the aim of developing a more easily prepared diet. The extrusion of the artificial diet under high temperature and pressure may induce desirable chemical and physical changes in the extruded product. The purpose of the present study was to develop an artificial diet for rearing P. xuthus.
Jongbin Park,Namjung Kim,Wonho Choi,Seonghyun Kim,Hyojung Jin 한국응용곤충학회 2013 한국응용곤충학회 학술대회논문집 Vol.2013 No.10
A Tenebrio molitor larva that is called mealworm is widely used as feed for raising a pet. Also, it is the insect that would be produced as the edible food for human. For these reasons, many researchers are revealing about physiologic characteristic of Tenebrio molitor to make good use of it. However, morphological characteristic of different larval stage is not specifically indicated and researchers have different opinions about the average number of Tenebrio molitor’s instar until now. This study, therefore, was carried out to examine the physiological and morphological characteristics of Tenebrio molitor larva in different larval stages, and the average number of Tenebrio molitor’s instar. As a result, all of the Tenebrio molitor larvae had 7~8 days during their incubation period and 3~4 days during the 1st instar period. After the 1st instar, there were comparatively large differences in the number of days in each instar. Before emergence, most of the larvae comparatively showed 15th~17th instars, particularly, the largest rate of pupae (28.83%) was observed in the 17th instar. In terms of the body length of each Tenebrio molitor larval stage, the body length was gradually increased by the 17th instar. Beyond the 17th instar, however, the body length was smaller than 17th instar. In the 1st instar, the larva had white color, and the color gradually changed into brown from the 2nd instar. Through this study, we could identify the accurate incubation period, 1st instar period, the average number of instar, body length and the color change in different larval stages. These results would be used as a fundamental data for further study about the physiological and morphological characteristic of each instar period.
Effects of Temperature on Flight Behavior in Cabbage Butterfly, Pieris rapae
Seong-Hyun Kim,Namjung Kim,Seong-Jin Hong,Yong-Bo Lee,Hae-Chul Park 한국응용곤충학회 2013 한국응용곤충학회 학술대회논문집 Vol.2013 No.04
The flight behavior of Pieris rapae were compared to understand how temperature affects flight behavior. The effects of temperature on insect thermal performance curves are generally poorly understood but significant for understanding responses to insect gardening. Temperature is a physical factor as well as a stimulus for insects behavior. In Pieris rapae, we examine the physiological effects of temperature-dependence of flight behavior. At test temperature increased, flight speed typically increased. The maximum flight speed of P. rapae at given temperatures show a straight line relationship between 20, 25 and 30℃. Therefore, the effects of test temperature were significant for flight behavior.
Hyojung Jin,Namjung Kim,Seong Hyun Kim,Won Ho Choi,Jong Bin Park 한국응용곤충학회 2013 한국응용곤충학회 학술대회논문집 Vol.2013 No.10
As demand for Tenebrio molitor increases in animal feed market, improvement of mass-rearing indoor system became more crucial. This study is aimed at establishing the technology for conserving genetic resource of Tenebrio molitor, and increasing the technology utilization. This year, in advance, this experiment was designed for examining the developmental characteristics of eggs and larvae. To research the developmental characteristics under different temperatures, eggs, larvae and papae were treated at 17.5, 20, 22.5, 25, 27.5 and 30°C. At 25°C, larvae were exposed to various photoperiod conditions, LD 14:10, 12:12, and 10:14. The results show that the temperature range which affected hatching was 15~32.5°C. To achieve 70 percent or higher hatching rate 17.5~27.5°C was required. Furthermore, hatching occurred within 10 days, when the eggs were treated in 22.5~27.5°C. In regard of larval development, shorter developmental period, and higher pupation and eclosion rates were observed in 25~27.5°C. The shortest larval period was recorded at 14L:10D. At 10L:14D, in contrast, pupae showed the lowest chance of eclosion. Overall, larval development was optimal in long-day condition.
Analysis of psychological effects expected from educational pet insect rearing
Kim, So Yun,Park, Hae Chul,Park, Ingyun,Park, Kwan Ho,Kim, Namjung,Kim, Seong Hyun Korean Society of Sericultural Science 2015 International Journal of Industrial Entomology Vol.31 No.1
In an effort to obtain foundational data required to evaluate the therapeutic effect of educational insect rearing, this study surveyed current educational pet insect rearing practices in Korea and examined the expected psychological effects from participating in the activity. Data were collected from those who visited the special insect exhibition in May 2013 using a self-reporting survey. The results indicated that 48.3% of the responders had experienced insect rearing, and that rhino and stag beetles were the most commonly reared insects. Most of the respondents (83.1%) reported they were not currently rearing any insects, which suggested that insect rearing tends to be a one-time experience. Expected psychological effects could be divided into emotional (56.3%) and cognitive (41.8%) effects, and these varied by age and gender. The differences in expected psychological effects were particularly clear between adults and adolescents, the latter of whom were the main participants in the activity. It is therefore necessary to develop standardized manuals and care programs for more diverse insect species with which to help keep up consumer interest in educational insect rearing. These efforts will help champion the psychotherapeutic effects of educational pet insect rearing and enhance its role as a learning aid.
An artificial diet for the swallowtail butterfly, Papilio xuthus
Kim, Seonghyun,Hong, Seongjin,Park, Haechul,Lee, Youngbo,Park, Kwanho,Choi, Wonho,Kim, Namjung Korean Society of Sericultural Science 2014 International Journal of Industrial Entomology Vol.28 No.1
The effect of an artificial diet on developmental rate, a life history parameter, was examined for the swallowtail butterfly Papilio xuthus. Artificial insect diets are an essential component of many insect rearing systems that produce insects for research purposes. Complex agar-gelled diets are generally prepared in large batches and used shortly after preparation because the degradation of perishable diet ingredients, such as vitamins and fatty acids, can adversely affect insect quality (Brewer 1984). However, the timing of diet preparation may be inconvenient, and large batches wasteful, if the unused excess is discarded. The percentage of pupation varied considerably, with no significant differences among diets, on which a maximum pupation percentage of 83% was observed. Pellet-type diets were investigated with the aim of developing a more easily prepared diet. The extrusion of the artificial diet under high temperature and pressure may induce desirable chemical and physical changes in the extruded product. The purpose of the present study was to develop an artificial diet for rearing P. xuthus.