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- peritrophic mycorrhiza 围食膜菌根
- Besides, herbicides also affected significantly total amount of the hyphae of AM mycorrhiza fungus in the soil. 此外,除草剂对土壤中AM真菌菌丝的总量也有显著影响。
- Effects of salinity on VA mycorrhiza formation and of inoculation with VAM fungi on saline-tolerance of plants. 盐胁迫对VA菌根形成及接种VAM真菌对植物耐盐性的效应。
- Mycorrhiza between P.t270 and Ostryopsis davidina are brown to dark brown, mo- nopodial and pinnate. 彩色豆马勃 (P.;t270) 多形成棕色至暗棕色;棒状、羽状菌根;
- The result shows that the mycorrhiza formed by the symbiosing roots of Castanopsis hystrix and Russula spp. 红菇与红锥的根共生形成的菌根属外生菌根,分叉形状为单轴状,颜色呈浅黄褐色,菌根表面呈波纹状突起。
- In addition, mycorrhiza fungi can also help the plants to biosorp heavy metals through metabolism. 文章对这些研究进展进行了综述,同时还介绍了菌根真菌在重金属的植物修复中所起的重要作用。
- Mycorrhiza is one of the new technologies applied on ecological restoration of coal mine areas. 菌根是目前应用于煤矿区生态治理的一种新技术,菌根孢子密度是衡量菌根生态适应性的标准之一。
- Mycorrhiza colonization was also observed in the control plants due to native AM fungi present in the field soil. 由于田土本身含有天然存在之菌根菌,故对照组之植株上亦可发现菌根菌感染的现象。
- It is indicated that chimozine is relative to the forming of peritrophic membrane (PMb) and the den-sity of PMb determined whether Nosema Apis Zander can inject in the ventriculus epithelium. 蜜蜂中肠酪素酶与蜜蜂中肠围食膜的形成有关,而围食膜的致密度又决定了蜜蜂微孢子虫能否侵入蜜蜂中肠上皮细胞。
- The arbuscular mycorrhiza of Gigaspora margarita and transformed Ri T-DNA carrot root was formed by using dual culture technology. 利用双重培养技术,使丛枝菌根真菌GigasporamaFgarita侵染转移RiT-DNA胡萝卜根器官,建立共生联合体。
- Infectious intensity of VA mycorrhiza increased gradually from seedling to adolescent stage,then decreased slowly as tree age increased. 在幼龄到壮龄期随树龄增加VA菌根感染强度增强,而后逐渐减弱;
- In the economy meaning, there are 77 edulis fungi, 43 medical fungi, 24 poisonous fungi, 93 ectotrophic mycorrhiza fungi and 32 wood rotten fungi. 在经济价值方面,有食用菌77种,药用菌43种,毒菌24种,木材腐朽菌93种,树木共生菌32种。
- Causative factors are then analyzed, followed by descriptions of interactions like antagonism, succession, and mycorrhiza. 成为的原素的原因然后被分析,随后有象对抗,连续和菌根一样的相互作用的描述。
- Arbuscular mycorrhiza was the reciprocal symbiont of AM fungi and plant root that was widely distributed in each ecosystem. 摘要丛枝菌根是AM真菌与植物根系所建立的互惠共生体,遍布各生态系统。
- Mycorrhiza could improve rhizosphere microbe number and plant growth.Mycorrhiza had the same roles on coal wastes medium. 将高效组合后的菌株应用于西部典型矿区如宁夏、内蒙和陕西北部退化土壤中,系统研究了菌根在生态系统生物群落的演变规律。
- As one of mutual symbiosis formed between plants and Glomales fungi, arbuscular mycorrhiza has the widest distribution in the nature. 菌根是真菌与植物根系所建立的互惠共生体,其中以丛枝菌根在自然界中分布最广。
- Acquisition of nutrient and water by VA mycorrhiza associated to winter wheat[J].Chinese Journal of Soil Science,2001,32(3):99-101. VA菌根对冬小麦利用养分和水分的影响[J].;土壤通报;2001;32(3):99-101
- Species, distribution and host plants of VA mycorrhiza fung belonging to Sclerocystis, Glomus, Acaulospora, Gigaspora, Scutellospora in the North of China are reviewed. 摘要对中国北方已发现的球囊霉属、硬囊霉属、无梗囊霉属、巨囊霉属、盾巨囊霉属的VA菌根真菌种类分布以及宿主植物进行了综述。
- An investigation on weed species biodiversity and host plants of vesicular arbuscular mycorrhiza fungi (VAMF) within weed communities in new developed fruit gardens was conducted. 本研究调查了红壤坡地幼龄果园杂草群落的物种多样性以及主要物种被VA菌根真菌的侵染率和侵染强度,分析了VA菌根真菌侵染与根际土壤磷素水平的关系。
- The application of arbuscular mycorrhiza for soil rehabilitation was paid more and more attention to with the development of mycorrhiza research in the recent years. 近年来,随着菌根研究的发展,丛枝菌根在土壤修复中的应用日益受到人们的关注。