内生菌根

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  • endomycorrhiza
内生菌根内生菌根
  1. 丛枝菌根(AM)真菌是自然界分布最为广泛的一种内生菌根真菌,它能够与90%陆生植物形成丛枝菌根共生体。

    Arbuscular mycorrhizal ( AM ) fungi are the most widespread and evolutionarily ancient symbiotic endomycorrhiza microorganisms , which can form symbionts with 90 % of terrestrial plants . The successful establishment of arbuscular mycorrhiza constitutes a strategy to improve the nutritional status of both partners .

  2. VA菌根是泡囊-丛枝内生菌根菌与高等植物根系形成的共生体。

    Vesicular arbuscular mycorrhiza ( VAM ) is the symbiont composed of vesicular-arbuscular fungi and fine roots of higher plants .

  3. 陕西省主要树种内生菌根真菌的调查

    A preliminary study of VA mycorrhizal fungi on common forest trees in Shaanxi Province

  4. 阿尔金山自然保护区几种高山植物内生菌根的初报

    The First Report of Vesicular-Arbuscular Mycorrhiza of a Few Alpine Plants in the Natural Proteetive District of Altun Mountains

  5. 在最适生长温度的研究中,本实验确定了20~25℃为内生菌根真菌的最适温度。

    The optimal growth temperature of the study , the experiments of20 ~ 25 ℃ for ectomycorrhizal fungi within the optimum temperature .

  6. 重点综述亲和组合、不亲和组合及内生菌根中真菌对植物几丁酶蛋白的诱导、几丁酶的组织细胞学定位及其抗真菌活性研究。

    A detailed summary of the literature , the induction , subcellular location and antifungal activity of chitinases in compatible combination , incompatible combination and endomycorrhiza is provided .

  7. 丛枝菌根真菌是自然界广泛存在的一种内生菌根,能够提高植物的耐盐能力。

    Arbuscular mycorrhizal fungi ( AMF ) has been known to occur naturally in saline environments as a vesicular-arbuscular mycorrhizal fungi ( VAM ) that can improve plant salt tolerance .

  8. 在长期受镍胁迫土壤中,土壤细菌、真菌、内生菌根、外生菌根中的某些种类产生了体内和体外的抗性机制以减少镍的毒害作用。

    Under Ni stress condition , some species of bacteria , epiphyte , endotrophic mycorrhiza and exotrophic mycorrhiza in soils have been developed complex , internal metal protection or resistance mechanisms to reduce the damage degree from nickel .

  9. 结果表明:在对照土壤中黑麦草和百喜草根部内生菌根的侵染率分别为48.0%和28.0%,说明两种草均易与内生菌根菌形成内生菌根。

    The results showed that the AM infection rates in ryegrass and bahia grass were 48.0 % and 28.0 % in the control soil , respectively which indicated that both grass species were prone to forming AM symbiosis with AM fungi .