菌根 的英文怎麼說
中文拼音 [jūngēn]
菌根
英文
mycorhiza; mycorrhiza; mycohiza; bacteriorhizae; fungus root菌根瘤 mycodomatium; 菌根體 mycorrhizomata; 菌根營養 mycotrophy; 菌根真菌 mycorrhizal fungi-
Interaction of associative nitrogen - fixation bacteria with evcaiyptus
固氮植物的菌根研究Mycorhizae perform the function of nitrogen fixation and storage.
菌根起著固氮和貯氮的作用。The site had been inoculated with soil containing suitable mycorrhizal fungi.
在生境中用帶有合適菌根真菌的土壤接種。Paper analyzes four biological effect of arbuscular mycorrhiza including promote plant growth enhance absorption of mineral nutrition, improve water metabolism and resolve the problem of re - inseminator in fruit tree mechanisms of four arbuscular mycorrhizal biological effect are explained. as well as paper brings forward the arbuscular mycorrhizal necessity in fruit tree
文章分析果樹叢枝菌根生物肥料的四大生物效應,即促進生長、增強礦質營養的吸收、改善水分、解決果樹重茬及其機理,提出叢枝菌根在果樹應用中的必要性。Interaction between va mycorhiza to seabuckthorn and treated soil in different phosphoric fertilizers
菌根對沙棘改土效應的影響Remediation of mycorrhiza on cd contaminated soil
鎘污染土壤的菌根修復研究Effects and mechanisms of new biological fertilizer arbuscular mycorrhizae in fruit tree
新型果樹生物肥料叢枝菌根的效應及機理Effects of phosphorus levels and va mycorrhizae on growth and mineral contents o f apple seedlings
菌根真菌對小金海棠蘋果苗生長及營養的影響Arbuscular mycorrhizae are the most widespread mutualistic symbionts among the symbionts between plants and microbes
摘要在植物與微生物的共生體中,最廣泛的互惠共生體就是叢枝菌根。Arbuscular mycorrhizae have ability to improve mineral quality of fruit tree, replacing the fertilizer so called the biological fertilizer
摘要叢枝菌根有增強果樹吸收礦物質營養的特性,起到代替肥料的作用,故稱為生物肥料。Some form symbiotic associations with algae or cyanobacteria to form lichens, while others form extremely important mycorrhizae with the roots of many plants, including most forest trees
真菌是土壤和淡水中主要的分解者,一些與藻類或藍細菌共生形成地衣,還有一些真菌與許多植物包括大多數林木的根形成大量的菌根。With soybean and corn, fungi can grow with plant root into mycorrhiza as a bioremediation method which is effective and economical on treating soils contaminated by petroleum hydrocarbons
在污染土壤中種植玉米和黃豆,通過施加不同的菌劑,採取菌劑和菌根強化修復措施,在一個生長季節后,土壤中石油類污染物降解率可達53 % ~ 78 % 。The survey shows that there found mycorrhizae in all the 7 tree species beside prunus ansu. through differentiating, we understand that these ectomycorrhizal fungi are 8 different species which are subordinated to 6 families and 7 genera
結果表明:除山杏未發現外生菌根真菌共生外,其它7個樹種上均發現了菌根真菌的共生現象。Fungi form mycorrhizae in plant roots and the hyphae take in carbon from plants through their epidermal cells and move mineral nutrients and water from soil to their epidermal cells ; this symbiosis is of high importance in studying biodiversity conservation, the origins and evolution of terrestrial plant, the rehabilitation and reconstruction of degenerated ecosystems, agriculture, horticulture and forestry
真菌在植物根系形成菌根后,菌絲通過根的皮層細胞獲取植物提供的碳源,同時將礦物營養和水從土壤轉運到皮層細胞,這種共生過程的研究在生物多樣性的保護、陸生植物的起源與演化、退化生態系統的修復與重建以及農業、林業和園藝業的應用具有重要的意義。Acrasiomycota ( cellular slime molds ) a class of protoctists in the phylum rhizopoda
集胞粘菌門(細胞狀粘菌) :根足亞綱的一類原生生物。Am fungi in the tropical rain forest of xishuangbanna
西雙版納熱帶雨林中叢枝菌根真菌的初步研究This is the first repot of amf pure isolate seprated in chinese heavy metal contaminated soil. 2
這是我國首次從重金屬污染區土壤中分離到叢枝菌根真菌純種並在國際上報道。Multiplicity of signals and diversity of signaling pathways exist during the establishment of mycorrhizal associations together with the regulation of symbiosis - specific genes expression. this mechanism of signal recognition and transduction related with development process of the symbiont was reviewed at the molecular level
在菌根共生體建立過程中存在信號分子的多重性和信號通路的多樣性以及共牛體特異基因的表達調控,從分子水平上揭示了菌根整個發育過程。The three fungi also differed in base exchange capacity, with paxillus involutus having the highest base exchange capacity and suillus bovinus the lowest
供試的三種菌根真菌的菌絲都具較大的鹽基代換量值,因而具有較強吸附重金屬潛力。The results showed that the base exchange capacity of the three ectomycorrhizal fungi was much higher than cation exchange capacity of plant roots, indicating that the fungi may have great potential to adsorb heavy metals
菌根真菌耐重金屬的能力與真菌吸附重金屬的能力有關,因而需要了解菌根真菌對重金屬吸附和固持的特性。真菌的吸附能力在一定程度上受真菌鹽基代換量影響,因此測定二種真菌的鹽基代換量。分享友人