菌根真菌 的英文怎麼說
中文拼音 [jūngēnzhēnjūn]
菌根真菌
英文
mycorrhiza fungi-
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。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。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。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。The tolerance of suillus granulatus and paxillus involutus to zn, cd, and pb was then compared using liquid culture medium without agitation. compared to suillus granulatus, paxillus involutus was more tolerant to zn and pb, but more sensitive to cd than suillus granulatus. the adsorption of heavy metals in ectomycorrhizal fungi might be related to the base exchange capacity of the fungal mycelium
在此基礎上,研究了兩種外生菌根真菌對不同濃度重金屬cd和zn的耐性能力,發現不同真菌對不同重金屬的耐性不同,表現在卷緣樁菇對zn的耐性高於點柄乳牛肝菌,而兩種真菌對cd的耐性則相反。These four are plarix - 2, pbetula - 2, bostryopsis - 1 and wpinus - 2
經鑒定有8個外生菌根真菌。Research and utilization of hot - water to prevent root - knot nematodes
菌根真菌在馬鈴薯上的應用效果Inoculation effect of ectomycorrhizal fungi on cunninghamia lanceolata
外生菌根真菌對杉木的接種效應Effects of arbuscular mycorrhizal fungi on plant secondary metabolism
叢枝菌根真菌對植物次生代謝的影響Study on mycorrhizal fungi in some species of tropical orchids in xishuangbanna, yunnan
雲南西雙版納幾種熱帶蘭菌根真菌的研究Screening of arbuscular mycorrhizal fungi with high ecological adaptations in purple soil
灰棕紫泥土中具生態適應能力叢枝菌根真菌的篩選Effects of co - inoculation with two ectomycorrhizal fungi on quercus liaotungensis seedlings
兩種外生菌根真菌在遼東櫟幼苗上的混合接種效應Arbuscular mycorrhiza can improve the ability of resisting drought from several aspects : hyphal enhances plants ' chances of absorbing water from soil ; it can improve plants ' phosphorus and another minerals ' nutrition, increase the content of chlorophyll ; observably enhance transpiration and stoma conduction ; reduce the flow of water, permanent languish point, stoma resistance ; change the balance of hormone, promote accumulation plant proline and capability of nitric reductive enzyme
叢枝菌根真菌可以通過以下幾個方面增強植物抗旱性:通過菌絲增加植物對土壤水分的吸收;改善植物的磷營養及其他礦質元素營養;能顯著提高蒸騰速率和氣孔導度;乾旱條件下降低植株葉片水勢、永久凋萎點、葉片飽和虧、氣孔阻力和恢復時間;改變激素平衡。Effect of va mycorrhizal fungi and phosphate - solubilizing bacteria on growth and phosphorus uptake of red clover
菌根真菌和解磷細菌對紅三葉草生長和氮磷營養的影響O. kuntze ) to zn, cd and pb, and the adsorption of heavy metals by three fungi ( paxillus involutus, suillus granulatus and suillus bovinus ( l. ex fr. )
) o kuntze )為菌種材料,在純培養條件下研究了菌根真菌對兒種重金屬的耐性和吸附特性。In order to investigate the tolerance of ectomycorrhizal fungi to heavy metals in vitro, three culture methods, namely liquid culture without agitation, liquid culture with agitation and solid agar culture, were investigated to determine which method would give the best combination of fungal biomass and ec50. the results indicated that liquid medium without agitation was the best culture method
為研究外生菌根真菌本身對重金屬污染的耐性,比較了液體靜置、液體搖床和瓊脂固體培養這三種常用的菌絲體的純培養方法,以真菌生物量大小和分離難易程度為主要指標,篩選出液體靜置方法為最優方法。Concentrations of zn and cd were significantly lower in mycorrhizal plants, but p concentrations did not differ substantially between mycorrhizal and non - mycorrhizal treatments. the results indicate that the higher metal tolerance of mycorrhizal plants was due to the direct involvement of the mycorrhizal fungi in plant tolerance to heavy metals rather than a p - mediated nutritional effect
通過盆栽試驗研究了接種外生菌根真菌對油松幼苗耐重金屬能力的影響,結果表明在重金屬zn和cd污染條件下,點柄乳牛肝菌侵染油松后,顯著改善了植株生長狀況,大幅度降低了植株體內zn和cd含量,而菌根與非菌根處理植株磷營養差異不大。分享友人