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机译:丛枝菌根真菌的氮吸收效率和机制 - Canna indica symbiosis
Southeast Univ SEU Sch Civil Engn Nanjing 210096 Peoples R China|SEU Monash Univ Joint Res Ctr Future Cities Nanjing 210096 Peoples R China;
Southeast Univ SEU Sch Civil Engn Nanjing 210096 Peoples R China|SEU Monash Univ Joint Res Ctr Future Cities Nanjing 210096 Peoples R China;
IHE Delft Inst Water Educ Delft Netherlands;
Southeast Univ SEU Sch Civil Engn Nanjing 210096 Peoples R China|SEU Monash Univ Joint Res Ctr Future Cities Nanjing 210096 Peoples R China;
Arbuscular mycorrhizal fungi; Inoculation; Canna indica L; Symbiosis; Adsorption; Nitrogen species;
机译:Canna Indica L.(Cannaceae)根和鳞片状叶片中的囊泡菌根真菌
机译:在热带苗圃条件下,印to(印ica(Azadirachta indica A. Juss))对本地丛枝菌根真菌,可溶解磷酸盐和非共生固氮细菌的反应
机译:原生动物提高了丛枝菌根真菌从土壤有机质中获取矿质氮的觅食效率,从而有利于寄主植物
机译:NaCl诱导和盐混合物盐度对丛生菌根真菌共生中番茄叶脯氨酸和生长的影响
机译:从土壤生态学到人类营养:在农业生态系统中与丛枝菌根真菌共生。
机译:丛枝菌根共生中氮转移途径的调控:基因表征和氮通量的表达协调。
机译:氮气添加和丛枝菌根真菌Beta多样性:模式和机制