Spore density varied significantly in all the sites(p>0.05).
真菌孢子密度在三个种植区内变化较大(p>0.05)。
参考来源 - 印度东北部黄兰种植区丛枝菌根真菌的侵染和分布(英文)AM fungi spores density of Qianli Mountain is higher. AM fungi spores density is least in the verge of Tetraena mongolica protection region.
千里山样地的AM真菌孢子密度偏低,四合木保护区边缘样地最低。
参考来源 - 四合木群落AM真菌多样性及其生理功能研究The results showed that the symbiotic relationship was formed between AM fungi and L. japonica. Maximum spore density and colonization was 59.02 g ﹣1 and 97%, respectively.
结果表明,金银花能与AM真菌形成良好共生关系;AM真菌最大孢子密度为59.02g﹣1,最高定殖率为97%;孢子密度随时间呈升-降趋势,随土层加深而递减;总定殖率随时间呈升-降趋势,随土层变化不显著。
参考来源 - 金银花根围AM真菌分布与土壤碳氮关系·2,447,543篇论文数据,部分数据来源于NoteExpress
孢子密度与土壤速效氮呈显著正相关。
Spore density was also significantly correlated with soil available n.
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.
泡囊定殖率和孢子密度在北刘庄最高,菌丝定殖率在南刘庄最高。
The highest value of vesicular colonization and spore density were in Beiliuzhuang, and the highest hypha colonization was in Nanliuzhuang.
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