动物学报
動物學報
동물학보
ACTA ZOOLOGICA SINICA
2001年
2期
235-239
,共5页
中华卵索线虫%索科%体外培养
中華卵索線蟲%索科%體外培養
중화란색선충%색과%체외배양
在研究中华卵索线虫的体外培养方法的同时,对其在不同培养基中的生长发育情况进行了观察。结果表明:以培养基TC-199加20%热灭活胎牛血清的培养效果较为理想,大多数线虫可存活3个月,最大虫体长55.1 mm、宽204.13 μm,其发育程度大致与该种索线虫在宿主粘虫体内寄生8~9天的情况相近。培养期间观察到2次蜕皮:第一次蜕皮在卵内,第二次在培养6~8天之后。口针消失,虫体内滋养物体发育明显,尾部附器已经形成,没有观察到生殖原基的发育。
在研究中華卵索線蟲的體外培養方法的同時,對其在不同培養基中的生長髮育情況進行瞭觀察。結果錶明:以培養基TC-199加20%熱滅活胎牛血清的培養效果較為理想,大多數線蟲可存活3箇月,最大蟲體長55.1 mm、寬204.13 μm,其髮育程度大緻與該種索線蟲在宿主粘蟲體內寄生8~9天的情況相近。培養期間觀察到2次蛻皮:第一次蛻皮在卵內,第二次在培養6~8天之後。口針消失,蟲體內滋養物體髮育明顯,尾部附器已經形成,沒有觀察到生殖原基的髮育。
재연구중화란색선충적체외배양방법적동시,대기재불동배양기중적생장발육정황진행료관찰。결과표명:이배양기TC-199가20%열멸활태우혈청적배양효과교위이상,대다수선충가존활3개월,최대충체장55.1 mm、관204.13 μm,기발육정도대치여해충색선충재숙주점충체내기생8~9천적정황상근。배양기간관찰도2차세피:제일차세피재란내,제이차재배양6~8천지후。구침소실,충체내자양물체발육명현,미부부기이경형성,몰유관찰도생식원기적발육。
The insectparasitic nematode, Ovomermis sinensis Chenet al, 1991 has the potential for the biological control of a range of insect pests due to many insect sep ecies are susceptible to this nematode. For example Leucania separata, Helioth is armigera, Prodenia litura, Spodoptera exigua, Plutella xylostella, Pieris rapae, Agrotis ypsilon, Euxoa segetumetc. The insect host invariably dies when the juvenile nematode completes its parasitic development and exits from the host's hemocoel's hemocoel. There is an important significance for studying the mass cultivation of O. sinensis for field trials. This paper describes the techniques of in vitro cultivation of O. sinensis.
Gravid females of O. sinensis collected from sand were washed three times with an antibiotic solution of 200 U penicillin/ml and 200 μg/ml streptomycin/ml per ml solution. Surface washed gravid female were placed in 25 ml culture tubes containing 1~10 ml deionized water, 100 U penicillin/ml, and 100 μg streptomycin /ml for oviposition. Eggs were collected and their surface were sterilized by immersing them for 5~10 min in 0.13%~0.5% sodium hypochlorite solution and rinsing four times with sterile distilled water. Surface sterilized eggs were incubated at 26±1℃ in the culture media. The preparasites which emerged from those eggs were utilized for culture work. The four media were tested and they were TC-199, TC-199+MK, TC-100 or Grace supplemented with 20% heat inactivated fetal bovine serum respectively. The pH of the media were adjusted to pH6.8~7.0. The culture medium was changed or replenished every 3~6 days by withdrawing the supernatant and replacing it with a portion of fresh medium. In vitro growth of O. sinensis parasites was monitored in TC-199 supplemented with 20% heat inactivated fetal bovine serum under differing condition of crowding. Crowded cultures (150~200 parasites per tube) were set up in early days of in vitro (length of nematodes<10 mm), whereas crowed culture (50~70 parasites per tube) and uncrowded cultures (2~7 parasites per tube) were tested in the late days of in vitro cultivation (length of nematodes>10 mm). Cultures were examined daily with an inverted microscope for nematode growth and activity.
The results showed that the best growth obtained among the test media was TC-199 supplemented with 20% heat inactivated fetal bovine serum. In this medium, most nematodes can grow for up to three months, reaching a development stage similar to 8~9-day-old parasites grown in vivo in the armyworm (Leucania separata walker). Maximum size of the juveniles was 55.1 mm in length and 204.13 μm in width at the widest point and the results to date have yielded a 20-fold increase in body volume from the preparasitic to the parasitic stage. Two molts were observed in vitro, with the first occurred within the egg, and the second occurred after 6~8 days in culture. The stylet was lost. Trophosome developed prominently, and some of the nematodes developed a caudal appendage. However, no gonadial development was observed.
Population density were investigated. In vitro length of nematodes (<10 mm) that had developed in the early days of cultivation under crowed condition was significantly greater than that of uncrowed nematodes. In the late stage of cultivation growth of uncrowded nematodes was greater than that of nematodes of crowded nematodes.
The experiment proved that terrestrial mermithid nematode, O. sinensis can live and oviposit in water. The idea that terrestrial mermithid nematode cannot survive in water because lack of O2 is not supported.