| 1. | Remediation of mycorrhiza on cd contaminated soil 镉污染土壤的菌根修复研究 |
| 2. | Effects and mechanisms of new biological fertilizer arbuscular mycorrhizae in fruit tree 新型果树生物肥料丛枝菌根的效应及机理 |
| 3. | Effects of phosphorus levels and va mycorrhizae on growth and mineral contents o f apple seedlings 菌根真菌对小金海棠苹果苗生长及营养的影响 |
| 4. | Arbuscular mycorrhizae are the most widespread mutualistic symbionts among the symbionts between plants and microbes 摘要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。 |
| 5. | Arbuscular mycorrhizae have ability to improve mineral quality of fruit tree , replacing the fertilizer so called the biological fertilizer 摘要丛枝菌根有增强果树吸收矿物质营养的特性,起到代替肥料的作用,故称为生物肥料。 |
| 6. | 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,一些与藻类或蓝细菌共生形成地衣,还有一些真菌与许多植物包括大多数林木的根形成大量的菌根。 |
| 7. | 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 在污染土壤中种植玉米和黄豆,通过施加不同的菌剂,采取菌剂和菌根强化修复措施,在一个生长季节后,土壤中石油类污染物降解率可达53 % ~ 78 % 。 |
| 8. | 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 结果表明:除山杏未发现外生菌根真菌共生外,其它7个树种上均发现了菌根真菌的共生现象。 |
| 9. | The results showed that lamellae were fit tissue for mycelia isolation , and success percentages of mycelia isolation with media pdas , pdaw , bm , pda are 74 . 4 % , 35 . 5 % , 15 . 6 % and 8 . 9 % respectively . the results also showed that stipe , mycorrhizae , and soil with the fungi are not fit for tricholoma matsutake isolation 另外,马铃薯葡萄糖麦数滤汁培养基( pdaw ) 、 bm培养基、 pda培养基也从菌褶2曾东方博士论文:腐生与共生食用菌菌丝体分离、培养及其dna鉴定研究分离到松茸菌丝体,分离成功率依次是35 . 5 % 、巧 |
| 10. | 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,菌丝通过根的皮层细胞获取植物提供的碳源,同时将矿物营养和水从土壤转运到皮层细胞,这种共生过程的研究在生物多样性的保护、陆生植物的起源与演化、退化生态系统的修复与重建以及农业、林业和园艺业的应用具有重要的意义。 |