该真菌名为菌根真菌,伴生于自然界中的绝大部分植物。它通过为植物提供必需的营养成分——更确切的说是磷酸盐——以获得糖分。
The so-called mycorrhizal fungi are found in association with nearly all plants in nature, where they deliver essential nutrients-specifically phosphate-to plants in return for sugar.
不过,这里一切的基础不是珊瑚虫,而是菌根菌及其与植物的共生关系。
But here, instead of coral polyps, it's mycorrhizal fungi and their symbiotic relationship with plants that's the basis for everything.
报告称,研究人员对菌根真菌的基因改变导致稻米关键基因的活动产生了变化。
The genetic changes that the researchers produced in the fungi led to changes in the activity of important genes in the rice, they report.
研究结果证实,杉林溪台湾杜鹃根系之根菌结合体属于杜鹃类菌根。
The results suggested that the root-fungus association of the Formosan azalea belong to ericoid mycorrhiza.
三种石斛菌根形态结构及元素构成的研究。
The form structure and element component of mycorrhizas in dendrobium SPP.
菌根真菌与根际微生物间的关系及其对宿主植物的影响是近年来菌根研究的一个热点问题。
One of the focus problems of mycorrhizal researches has been laid on the relationships between mycorrhizal fungi and microbe of rhizosphere and their influences on host plant.
同时,讨论了根际金属形态对金属有效性的影响,及其与菌根植物金属抗性机理的关系。
Meanwhile, the influence of metal speciation in rhizosphere on its bioavailability as well as the mechanism of mycorrhizal plant in toleranting excess metals were also discussed.
菌根起着固氮和贮氮的作用。
Mycorhizae perform the function of nitrogen fixation and storage.
春兰与丝核菌共生菌根及结构研究。
Ultra-structure of symbiosis mycorrhizal between cymbidium goeringii and rhizoctonia sp.
保护好它们就是保护好了森林的基因库、保护好了母树和菌根网络。
These are the repositories of genes and mother trees and mycorrhizal networks.
菌根繁殖技术是未来研究热点。
Arbuscular mycorrhiza l propagating is to study the hot point In future.
林木生长与凋落物分解代谢及菌根真菌之间存在密切联系。
The process of forest material circulation, the growth of trees, and the catabolism of litter and ectomycorrhizal fungi are closely linked.
本研究表明,同时采集地下外生菌根和地上子实体,并结合菌根和子实体的分子序列分析和菌根形态特征观察,是研究外生菌根真菌群落的有效手段。
The practice in this work demonstrated that integrating ECM morphotyping and sporocarps surveys with DNA analysis of ECMF is an effective approach for documenting the ECMF community.
采用土培试验研究了水分胁迫条件下接种菌根对玉米生长发育、光合作用、养分吸收和水分利用的影响。
The paper studied on influence of VA mycorrhiza on maize plant growth, photosynthesis, nutrient absorption and water utilization under water stress with soil culture experiment.
宿主植物也影响着AM真菌生长和发育,不同的宿主植物会影响AM真菌的侵染率、产孢量以及菌根效应。
Moreover, host plant can also affect the growth and development of AM fungi, and produce different infection rate, spore-bearing rate and mycorrhiza effect.
菌根真菌早在高等植物出现以前,就已经同古老的陆生低等植物形成了共生体。
The Arbuscular fungus had formed the symbiont with the ancient land lower plants before the appearance of the higher plant.
放线菌根瘤植物是自然界中一类重要的固氮资源,作为先锋树种和伴生树种在造林中有重要的应用价值。
Actinorhizal Plants are a kind of important natural nitrogen-fixing resources, and they have high value in reforestation as pioneer and accompanying species.
春兰菌根真菌对其宿主的细胞核大小及形状有一定的影响。
The mycorrhizal fungi affects the size and shape of the host cell nucleus.
目的对幽门螺杆菌根除方案进行综合评估,为临床医师提供选择参考。
Objective To appraise synthetically the eradication schemes of Helicobacter pylori (HP), and provide choice for the physicians.
不同菌根菌的混合接种及菌根菌与根瘤菌的混合接种在多数情况下均比单接种效果好。
The effect of multiple inoculation with different mycorrhizal fungi and Rhizobium is better than single microorganism material inoculation at most circumstances.
菌根侵染率与孢子密度间没有显著相关性。
No significant correlation exhibited between mycorrhizal infection and spore density.
对棉革菌属、红菇属等部分外生菌根的形态描述进行了详细描述。
Morphological characteristics of Tomentella, Russula and some other genera were given.
总体来看,在现实条件下,镉不会显著降低外生菌根真菌菌丝体氮、磷、钾含量和吸收量。
Generally, Cd could not decrease the contents and absorptions of nitrogen, phosphorus and potassium in ectomycorrhizal fungi mycelium.
在植物与微生物的共生体中,最广泛的互惠共生体就是丛枝菌根。
Arbuscular mycorrhizae are the most widespread mutualistic symbionts among the symbionts between plants and microbes.
刺激了外生菌根的形成。
苗期接种VA菌根菌可提高菌根感染率,促进苗木生长。
Inoculation with VA mycorrhizal fungi significantly increased mycorrhizal infection and enhanced seedling growth.
研究表明,外生菌根真菌可增强树木对磷的吸收利用,促进树木的生长。
Previous research shows that ectomycorrhizal fungi can promote phosphorus absorption and growth of the trees.
研究表明,外生菌根真菌可增强树木对磷的吸收利用,促进树木的生长。
Previous research shows that ectomycorrhizal fungi can promote phosphorus absorption and growth of the trees.
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