H. M. Christophersen@Soil and Land Systems, School of Environmental Sciences, Wake Campus, The University of Adelaide, South Australia 5005, Australia--E. Facelli@Soil and Land Systems, School of Environmental Sciences, Wake Campus, The University of Adelaide, South Australia 5005, Australia--F. A. Smith@Soil and Land Systems, School of Environmental Sciences, Wake Campus, The University of Adelaide, South Australia 5005, Australia--S. E. Smith@Soil and Land Systems, School of Environmental Sciences, Wake Campus, The University of Adelaide, South Australia 5005, Australia--;
Arsenic; barley; phosphate; soil;
机译:没有证据表明医务人员或大麦对砷和磷酸盐从土壤中吸收的竞争
机译:丛枝菌根定植通过直接表皮磷酸盐摄取途径中转运蛋白的下调减少大麦中砷的摄取
机译:磷酸盐通过改变耐性大麦基因型中磷酸盐转运蛋白的表达来减轻砷酸盐的毒性
机译:来自土壤的大麦的磷酸盐和砷化物摄取不是通过普通运输车的简单竞争来解释的
机译:微生物对磷的增溶作用在增加热带土壤中植物对磷的吸收中的作用及其增溶机理的评估
机译:常见菌根网络中植物磷酸盐吸收的调节:自由基真菌内磷酸盐转运蛋白的作用
机译:丛枝菌根定植通过直接表皮磷酸盐吸收途径中转运蛋白的下调来减少大麦中的砷酸盐吸收