机译:富硒根际真菌接种硒高积累性赤松Stanleya pinnata和相关的非积累性Stanleya elata-对硒积累和物种形成的影响的研究。
bioaccumulation; chemical speciation; growth; herbivores; hyperaccumulator plants; hyperaccumulators; inoculation; phytoremediation; polluted soils; rhizosphere fungi; roots; selenium; soil pollution; soil types; sulfur; toxicity; Alternaria; Aspergillus; Stanleya pinnata; Pleosporaceae; Pleosporales; Dothideomycetes; Pezizomycotina; Ascomycota; fungi; eukaryotes; Trichocomaceae; Eurotiales; Eurotiomycetes; Aspergillus; Mountain States of USA; Western States of USA; USA; APEC countries; Developed Countries; North America; America; OECD Countries; Stanleya; Brassicaceae; Capparidales; dicotyledons; angiosperms; Spermatophyta; plants.;
机译:富硒根际真菌接种硒高积累性赤松Stanleya pinnata和相关的非积累性Stanleya elata-对硒积累和物种形成的影响的研究。
机译:硫-硒-钼的相互作用将硒的过度富集植物赤松与非超级富集的芥菜(芸苔科)区分开
机译:耐盐和硼的硒超富集赤松Stanleya pinnata基因型的选择及其对农业排水沉积物中硒的修复作用
机译:土壤 - 斯坦利扎纳纳塔系统中纳米级硒颗粒的生物挥发
机译:硒超桡骨斯坦利塔比纳塔和非蓄能器斯坦利·尔塔的转录组和元素分析
机译:富硒植物Stanleya pinnata和Astragalus bisulcatus被抗硒,除硒的黄蜂和甲虫种子草食动物定殖
机译:硒超富集植物stanleya pinnata和astragalus bisulcatus由se抗性,se-排除的黄蜂和甲虫种子食草动物定殖。