机译:评估植物生长促进和Bradyrhizobium japonicum CB1809的砷耐受性
School of Engineering RMIT University Melbourne VIC Australia Department of Environmental Science and Management North South University Dhaka Bangladesh;
Department of Biochemistry and Molecular Biology University of Dhaka Dhaka Bangladesh;
School of Science RMIT University Bundoora VIC Australia;
School of Engineering RMIT University Melbourne VIC Australia Centre for Anthropogenic Pollution Impact and Management School of BioSciences University of Melbourne Parkville VIC Australia;
Plant growth-promoting rhizobacteria (PGPR); Arsenic; Bioremediation; Soybean; Sunflower; Bradyrhizobium japonicum;
机译:探讨日本根瘤菌CB1809对植物的促生长和重金属耐受性
机译:与日本根瘤菌根瘤菌SAY3-7和灰链霉菌P4的低密度共同接种促进大豆品种的植物生长和固氮
机译:大豆共生特性与大豆大豆根瘤菌共接种促进大豆生长的大豆Glycine max(L.)
机译:评估开花植物Zinnia Angustifolia的植物修复潜力砷污染土壤
机译:固氮根瘤菌日本根瘤菌和苜蓿中华根瘤菌的碳代谢和干燥耐性。
机译:重金属污染土壤中接种抗砷和植物生长促进剂微生物后增强的普通小麦的耐砷性
机译:Dodonaea Viscosa L的盐度耐受性接种植物生长促进的根瘤菌:基于种子萌发和幼苗生长特征评估