Protaetia brevitarsis larvae have been widely used for traditional medicine and food in East Asia. This research comprised two experiments. The first experiment compared the growth in densities (10, 20, 30 larvae), substrates (commercial, self-made), and containers (Tyvek, zipper bags). In the second experiment, different numbers of air holes (16, 32, 48 holes) in zipper bags experiment is ongoing. The results indicated that the larvae development rate was 72.6%, 69.98%, and 55.33% in 10, 20, and 30 larvae densities, respectively. However, there was no significant difference in larvae survival rate and weight. In the different feed material experiments, the average larvae weight of commercial feed was 1.09g and for self-made, it was 2.85g. The survival rate was 86% and 96% in commercial and self-made feed, respectively. Lastly, while 96% of larvae survived in Tyvek bags, none of the larvae survived in the zipper bags.
The Eurytoma maslovskii conduces the unexpected plum dropping. It stayed overwinter inside the pits of the dropped plums and able to oviposit on plum surface when the diameter of the plums are over 16 mm prior to endocarp hardening. To control this harmful pests is too much essential to plum orchard. Therefore, the plum seed crusher (PSC) was designed and developed according to the purpose of perishing the pests through destroying the dropped plums. The rocks and the weeds were removed from the plum orchard prior to the test. Manually operated plum seed crusher picked-up the dropped plums from the ground and crushed them. The performance of PSC was evaluated by applying 2.5 and 3.0 km/h travelling speeds, and controlling the gaps; 18, and 28 mm intervals between plum pick-up discs. The test result showed the plum pick-up rate was 98±2.0%, and 92±5.3% with the machine travelling speed of 3.0 km/h in laboratory. Further, it changed to 95±8.7%, and 93±5.8% when the travelling speed was used 2.5 km/h. In both cases of test plum pick-up discs were maintained 18 mm, and 28 mm gap intervals, respectively. Furthermore, in field conditions, pursuing to similar gap intervals, the plum pick-up rate was 94±4.0%, and 92±2.0% with the speed of 3.0 km/h albeit it showed 92±4.0%, and 90±3.5% when the speed was decreased to 2.5 km/h. The maximum plum pick-up rate was found at 18 mm disc intervals with 3.0 km/h travelling speeds. The crushing teeth were selected 8 mm in height by repeated test to destroy the plum seeds. The result showed 100% crushing efficiency was facilitated to entire tests at 280 RPM crushing speeds regardless of plum sizes and shapes. This machine is preferred for the farmers to control the damage of plums by preventing the propagation of the identified pests.
1분 간격 자동 잎면적 분석을 통해 온도에 따른 담배거세미나방 유충의 섭식과 발육을 조사하였다. 20, 25, 30℃의 세 온도에서 피망 잎을 배지에 부착하여 담배거세미나방 유충에 제공하였고 하루에 한번내지 두번 새로운 잎을 갈아주었다. 30℃에서 담배거세미나방 유충은 탈피 직후 섭식을 즉시 시작하여 1회 섭식은 10~15분 지속하고, 60~90분 간격으로 섭식을 하였다. 이러한 섭식 행동은 약 30~50시간 지속되며 탈피 직전 10~16시간 동안은 섭식이 중단되었다. 탈피 후 앞서의 섭식 패턴은 다음 영기에서 동일하게 반복되었다. 25℃에서 담배거세미나방 유충의 영기 내 섭식 기간은 약 32~53시간 지속되며 탈피 전 비섭식 기간은 16~22시간 지속되었다. 20℃에서는 영기 내섭식 기간은 60~133시간으로 크게 증가하고 비섭식 기간도 11~38시간으로 다른 온도에 비해 길어졌으며 다른 온도와 달리 7령충까지 발육하였다. 2령충에서 고치 형성 전까지의 발육 시간은 20℃에서는 39046분(27.1일)이 소요되었고 25℃에서는 17626분(12.2일), 30℃에서는 14168분(9.8일)으로 조사되었다. 각 온도별 유충의 섭식량은 영기에 따라 지수적으로 증가하였다.
지의류 추출물이 흰줄숲모기(Aedes albopictus)에 대하여 살충활성 및 생장 억제에 미치는 영향을 조사하였다. 2종의 지의류의 메탄올 추출물이 흰줄숲모기 3령 유충에 미치는 치사농도, 사충수, 생장억제를 알아보기 위한 실험을 진행한 결과Parmelia sp.엽상체 추출물경우 LC50농도는 0.13%로 나타났으며 Porpidia albocaerulescens의 LC50농 도는 0.45%로 나타나 Parmelia sp.의 추출물이 더 높은 살충활성을 보였다. 24h, 48h, 72h의 노출시간 따른 농도별 사충 수를 조사한 결과, 전반적으로 지의류의 메탄올 추출물이 고농도일수록, 노출시간이 길어질수록 유충의 사충 수는 증가하였다. Parmelia sp. 엽상체의 추출물에서 사육한 유충의 경우 용화시간은 대조군보다 지연되었고, 추출물의 농도가 높을수록 더 많은 시간이 지연된 것으로 보아 지의류 추출물이 흰줄숲모기 유충의 생장을 억제하는 효과가 있음을 확인하였다.
This study was conducted to investigate exact life cycle and Parnassius bremeri’s response to heat shock stress from 2012 to 2016 in Holoce Ecosystem Conservation Research Institution through captive breeding. About 16 days(15.7±0.3days) later embryo in eggs were developed as pharate first instar and the eggs of Parnassius bremeri possessed the ability to undergo an extended aestivation hosting a fully developed pharate 1st instar larvae within the chorion. Pharate 1st instar in egg hatched from late in November to early in December about 194 days(194.3±1.1days) later. All pharate 1st instar in egg and out of egg survived at 25℃, 35℃. In case of 45℃ survival rate of pharate 1st instar in an egg (93.8±6.3%) was significantly higher than those (22.2±10%) of pharate 1st instar out of an egg. All was dead at 47.5, 50, 52.5 and 55℃.
갈색거저리의 온도에 따른 유충 발육시험을 15, 17, 20, 22, 25, 28 및 30℃의 7개 항온조건, 광주기 14L:10D, 상대습도 60~70% 조건에서 수행하였다. 유충은 13령까지 경과하였고 항온 조건에서 사망률은 17, 20℃에서 극소수 개체만이 발견되었고, 22℃ 이상의 항온조건에서는 발견되지 않았다. 유충의 발육기간은 17℃에서 244.3일로 가장 길었고, 30℃에서 110.8일로 가장 짧았다. 15℃는 부화되지 않아 유충 발육 조사가 불가능하였다. 온도와 발육율과의 관계를 알아보기 위하여 선형모형과 비선형모형(Logan 6)을 이용하였으며, 선형모형을 이용하여 추정한 전체유충의 발육영점온도는 6.0℃, 발육 유효적산온도는 2564.1DD 였으며 선형, 비선형 모두 결정계수값(r2) 이 0.95로 높은 값을 보였다. 전체유충의 발육완료분포는 2-parameter Weibull 함수를 사용하였으며 전체 유충의 결정계수 값은 0.8502~0.9390의 양호한 모형 적합성을 보였다.
The developmental time of larvae of mealworm beetle, Tenebrio molitor was studied at six temperatures ranging from 17 to 30℃ with 60~70% RH, and a photoperiod of 14L:10D. Mortality of 1st~13th larva was very low at 17 and 20℃ but did not die over 22℃. Developmental time of larva decreased with increasing temperature. The total developmental time was longest at 17℃ (244.3 days) and shortest at 30℃ (110.8 days), suggesting that the higher temperature, the faster development period. The lower developmental threshold temperature and effective accumulative temperatures for the total larval stages were 6.0℃ and 2564.1 day-degrees. The relationship between developmental rate and temperature fitted a linear model and nonlinear model by Logan-6 (r2=0.95). The distribution of completion of each development stage was well described by the 3-parameter Weibull function (r2=0.89).
Many insects overwinter in diapause in the temperate region. Winter diapause often terminates far yearly than our thought, eg. Many in December. After diapause termination, insect becomes in quiescence. The lower developmental threshold of overwintering Oriental fruit moth larvae is in the range of 7.5-8.4℃ depending on the geographic location. We have determined the developmental period of overwintering OFM larvae from the time series interval collection. Collections were made from mid Jan to late March at 10d interval. Collected larvae were held in a cold chamber at 6°C for 5 days, and then subjected at 20°C with 75% R.H., 16:8(L:D).hr. The developmental period from overwintering cocooned larvae to adults was longest in mid. January collections, became shorter after 31 Jan. collection, then gradually decreased until mid March. Cocooned larvae developmental period became shorter after 31 Jan. while that of pupae became shorter after 20 Feb. During this study, female ratio was not different to 0.5. Mortality of winter collected larvae to adults was 45% including 30% parasitism. Partial explanation of the insect development under the lower developmental threshold was discussed; limitation of linear model estimation, temperature data quality and physiological metabolism after diapause termination. From January to February, daily average temperature fluctuated but under the lower developmental threshold. However, daily maximum temperature became noticeably higher than the lower developmental threshold after 20 Jan. However, this result indicates that after late Jan, physiological state of OFM is altered.
Larvae of Monochamus saltuarius showed normal growth and development on conifers of Pinus koraiensis, P. densiflora, Abies holophylla, Larix leptolepsis, P. bungeana, and P. rigida, respectively, but the conifers influenced significantly the body weight and the survival rate of larvae. Though the larval body weights were in a wide spectrum among treatments, growth curves of them were very similar from each other, showing continuous increase from the early larval stage to about 3 months old. The body weight was decreased slightly after the feeding period of the early 3 months. The size of larvae and adults became the largest from P. bungeana fed larvae. The mid-sized ones were from P. koraiensis, P. densiflora and A. holophylla. Small ones came from L. leptolepsis and P. rigida. The larval growth was retarded without water supply. Overall survival rates from the early stage of a larva to a fertile adult were 53.6% from P. koraiensis, 51.8%, P. densiflora, 34.7%, A. holophylla, 17.8%, P. bungeana, 16.7%, L. leptolepsis, and 12.3%, P. rigida. Adults from larvae fed the 6 species of conifers, respectively, were grown into the reproductively potent adults, which laid viable eggs. A few of overwintered larvae did not pupate and remained still as a larva until the late October of the year. Data from the field survey, the head width emerged from P. koraiensis was larger than that of L. leptolepsis. The adult emergence hole in P. koraiensis was larger also. While, the size of the emergence hole was larger in the artificially innoculated log of P. koraiensis, which was kept for a larva to be with a minimized food competition and sufficient water supply, than that of the field.