• Title/Summary/Keyword: Coboldia fuscipes

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Ovarian Development and Yolk Protein of the Mushroom Fly, Coboldia fuscipes (Diptera: Scatopsidae) (버섯파리(Coboldia fuscipes)의 난소발육 및 난황단백질에 관한 연구)

  • 김성렬;최광호;김익수;진병래;손흥대
    • Journal of Life Science
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    • v.10 no.1
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    • pp.45-51
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    • 2000
  • Ovarian development and yolk protein (YP) of mushroom fly, Coboldia fuscipes, were characterized. C. fuscipes has a pair of ovaries, composed of 130∼140 ovarioles, respectively. Ovarian development begins at 1 day of pupa, and growth of the ovaries continued to become a matured shape at 1 day after emergence. The YP of C. fuscipes identified by SDS-PAGE analysis revealed that the protein is composed of three subunits, designated YP1 (61 kDa), YPS(50 kDa), and YP3 (47 kDa). These three subunits of YP gradually decreased during embryogenesis. The YP was first detected in the 3 day-old pupal ovary and was continually detected up to 2 day-old adult, but not in the hemolymph. Furthermore, Western blot analysis of male and female adult hemolymph and ovary revealed that the antibodies against YP1, YP2, and YP3 reacted with three YP bands in ovary and egg extract, respectively. However, this reactivity was not observed in the male and female hemolymps. Therefore, it is assumed that the UP of C. fuscipes is synthesized in the ovary at 3 days after pupation.

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A Study on Respiratory horns on Pupa of Mushroom Pest, Coboldia fuscipes (Diptera: Scatopsidae) (버섯해충 Coboldia fuscipes (Diptera: Scatopsidae) 번데기 호흡뿔에 관한 연구)

  • 최광호;김성렬;조은숙;배진식;진병래;양원진;손흥대
    • Korean journal of applied entomology
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    • v.38 no.3
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    • pp.241-247
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    • 1999
  • This study was aimed to elucidate the physiological function of a pair of protuberances like bifurcated horns developed on the anterior part of pupa in Coboldia fuscipes (Diptera: Scatopsidae), a pest on the oyster mushroom. In the morphological characteristics, larvae had a pair of 0.04 mm long microspines at their second body segment. Pupae had a pair of protuberances like bifurcated horns of 0.55 mm long on the anterior part and six pairs of spines, 0.12 mm long, at the posterior part of the abdomen. The microspines-removed 4th instar C. fuscipes larvae developed into pupae without a pair of the protuberances. After emergence, however, the adults have a pair of antenna normal regardless of with or without the protuberances. As ecological characteristics at the pupation, the pupa without a pair of the protuberances have a tendency to pupate outside the medium. However, development characteristics of the microspines-removed larvae were very similar to those of control larvae. In the result of microscopic observation, a pair of the protuberances was connected wit six pairs of spines by lateral longitudinal trunck and formed a tracheal system. In conclusion, this results implicates that the protuberances have an important role as a respiratory horn during the pupal period.

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Insecticidal Activity of Bacillus thuringiensis 656-3 Strain to Mushroom Flies in Oyster Mushroom House

  • Park, Yong-Soo;Kang, Young-Jin;Lee, Kwang-Sik;Jianhong Le;Je, Yeon-Ho;Roh, Jong-Yul;Seo, Sook-Jae;Sohn, Hung-Dae;Jin, Byung-Rae
    • International Journal of Industrial Entomology and Biomaterials
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    • v.8 no.1
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    • pp.61-66
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    • 2004
  • Bacillus thuringiensis 656-3 which was isolated from a soil sample of mushroom house and showed high toxicity to mushroom flies, Lycoliella mali and Coboldia fuscipes, was surveyed for insecticidal effect in the oyster mushroom house.3. thutingiensis 656-3 was mass-cultured in the fermenter containing soybean cake(2%) and wheat bran (2%) as media source. Semi-for-mutation of B. thuringiensis 656-3 was performed with metamorphic starch only. When the formulation suspension containing $5{\times}{10^7}$ cfu was sprayed on the mushroom in mushroom house, the insecticidal effect of B. thuringiensis 656-3 to mushroom flies,1. mali and C. fuscipes, was maintained over 90% by the fifth day after starting spraying. The yield of oyster mushroom house with B. thuringiensis 656-3 was significantly increased compared to control. B. thuringiensis 656-3 represents a powerful biological insecticide for the control of mushroom flies.

An Investigation of the Major Dipteran Pests on the Oyster Mushroom(Pleurotus ostreatus) in Korea (한국 느타리버섯 재배지에 발생하는 주요 파리류 해충에 관한 연구)

  • 김성렬;최광호;조은숙;양원진;진병래;손흥대
    • Korean journal of applied entomology
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    • v.38 no.1
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    • pp.41-46
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    • 1999
  • This study was carried out to investigate the seasonal and regional occurrence and development of major pest flies on the oyster mushroom. The survey was performed in the oyster mushroom houses located at 16 places, selected randomly throughout South Korea from July to August and from October to November in 1997. The six species of flies were found including three pest species from Sciaridae, Cecidomyiidae and Scatopsidae flies. The pattern of occurrence was somewhat dissimilar depending on the survey periods and regions. Among these, the most serious and abundant pest, Lycoriella mali (Diptera: Sciaridae), occurred year around at the regions surveyed. In this study, Coboldia fuscipes (Diptera: Scatopsidae) was confinned as a mushroom pest. Its larvae damaged the mycelium, and occurred usually in summer from July to August. The paedogenetic Mycophila sp. (Diptera: Cecidomyiidae) was found abundantly on the oyster mushroom bed, and caused a severe damage in fall from October to November.

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Isolation Method of Mushroom Infesting Pests from Mushroom-Growing Compost (버섯배지에서 버섯해충류 분리방법)

  • Lee, Heung-Su;Kim, Kyu-Jin;Song, Geun-Woo;Kim, Jin-Ho
    • The Korean Journal of Mycology
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    • v.27 no.4 s.91
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    • pp.289-292
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    • 1999
  • We investigated the isolation method of mushroom infesting pests, Lycoriella mali, Coboldia fuscipes, Histiostoma sp. from mushroom-growing compost. Sugar solution of different densities (0, 10, 20, 30, 40, 50%) was tested to provide a means of seperating mushroom pests from the compost media. Thus, 40% sugar solution was suitable for isolation. The sieve size to entrap the pests was $30{\sim}140$ mesh; Lycoriella mali was trappped mainly $30{\sim}65$ mesh sieve, Coboldia fuscipes was caught mainly $30{\sim}100$ mesh sieve, Histiostoma sp. was trapped mainly $65{\sim}140$ mesh sieve. An isolation procedure was as follows; The infested compost was disintegrated in water and poured onto a set of 16, 30, 80, 140-mesh sieve. The material caught in the sieve is added in 40% sugar solution and then most compost particle were massed at the bottom while the supernatant contains mushroom pests. The upperlayer material was poured into a Seperatory funnel and the sediment at the bottom is drained off. The remaining material are washed off examination dish for study.

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