1) Nosema locustae
蝗虫微孢子虫
1.
Effect of nosema locustae for controlling grasshopper on natural enemy in the grassland;
蝗虫微孢子虫防治青藏高原蝗虫对主要天敌种群数量的影响
2.
Effect of Nosema locustae on aggregation behavior of oriental migratory locust (Locusta migratoria manilensis);
蝗虫微孢子虫病对东亚飞蝗聚集行为的影响
3.
Effect of Nosema locustae on the content of vitellogenin of Locusta migratoria manilensis;
蝗虫微孢子虫对东亚飞蝗卵黄原蛋白含量的影响
2) microsporidia
微孢子虫
1.
An overview of research on the microsporidian biodiversity.;
微孢子虫生物多样性研究的述评
2.
Advance in Intrusion and Evolution of Microsporidia;
微孢子虫入侵和进化的研究进展
3.
Reviews of Studying on Microsporidian Functional Protein;
微孢子虫(microsporidia)功能蛋白的研究进展
3) microsporidian
[,maikrəuspə'ridiən]
微孢子虫
1.
ni could be parasited by the microsporidian.
从粉纹夜蛾(Trichoplusia ni,Tn)幼虫中分离纯化得到一种微孢子虫,孢子形状为卵圆形,大小为(2。
2.
A previously unknown microsporidian pathogen Nosema sp.
1997年田间调查时发现一种寄生于棉铃虫Helicoverpaarmigera (H櫣bner)的微孢子虫Nosemasp 。
3.
A microsporidian was isolated from Greatonotus gungis L.
从广东省曲江县蚕区捕捉的黑条灰灯蛾(Creatonotus gungis L)成虫分离到一种微孢子虫。
4) microsporidium
微孢子虫
1.
Infectivity of microsporidium from Apis cerana cerana to Italian honey bee worker;
中蜂来源的微孢子虫对意蜂工蜂的侵染性研究
2.
Characterization of a Microsporidium Isolated From Larvae of Beet Armyworm,Laphygma exigua H.;
一种从甜菜夜蛾分离的微孢子虫的生物学特性研究
3.
A microsporidium (Mic-I) isolated from Mimastra cyanura Hope;
自桑兰叶甲分离出的一种微孢子虫(Mic-Ⅰ)的研究
5) microsporida
微孢子虫
1.
Advance of study on application of insect microsporida;
昆虫微孢子虫及其应用的研究进展
2.
Microsporida is a kind of unicellular protozoa which parasitizes in the living cell specially and it is a kind of important entomopathogen.
微孢子虫是专性细胞内寄生的单细胞原生动物,是一类重要的昆虫病原微生物,它主要寄生在昆虫体内,通过水平传播和垂直传播引起昆虫疾病的发生与流行,是自然界中制约昆虫种群密度的重要因素之一。
6) Nosema bombycis
微孢子虫
1.
Of the three methods used in the present study, the Percoll method appeared to be the best one for the purification of Nosema bombycis .
对微孢子虫表面蛋白的提取法研究表明,在微孢子虫的纯化中采用蔗糖法、甘油法及Percol法,结果Percol法是纯化微孢子虫的理想方法。
2.
The relationship between the infective stage and dosage of Nosema bombycis and the specimen for detection on the diagnostic time of pebrine disease of silkworm.
研究了显微镜检出蚕微粒子病的时期与微孢子虫感染剂量、感染蚕龄和所取样本的关系⒚结果表明,蚁蚕和2 龄起蚕感染高剂量微孢子虫时,能在当龄镜检出孢子,感染低剂量微孢子虫时,可在次龄或以后镜检出孢子⒚从感染蚕中肠、粪便和蚕整体中镜检出孢子的时期,随微孢子虫感染剂量增大和感染蚕龄降低而提早,并且镜检出的时期从先到后分别为病蚕中肠、病蚕整体与病蚕粪便⒚本试验结果对于当前蚕微粒子病防治工作有积极的指导意义
3.
This study determines the protease activity in silkworm midgut and blood;invests the distribution of pebrine spore(Nosema bombycis) in different tissue and its development infected by different density of pebrine spore.
本试验测定了不同浓度剂量微孢子虫感染家蚕后,家蚕中肠和血液中蛋白酶的变化。
补充资料:微孢子虫亚门
见原生动物门。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条