机译:褐煤降低了牧场中镉的溶解度和植物吸收
Department of Soil and Physical Sciences, Lincoln University, New Zealand,Institute of Terrestrial Ecosystems, ETH Zurich, Switzerland;
Institute for Natural Resources and Agrobiology, Seville, Spain;
Institute of Terrestrial Ecosystems, ETH Zurich, Switzerland;
Institute for Natural Resources and Agrobiology, Seville, Spain;
Agroscope Reckenholz-Tanikon ART, Switzerland;
Institute of Terrestrial Ecosystems, ETH Zurich, Switzerland;
Solid Energy New Zealand, 15 Show Place, Christchurch, New Zealand;
Department of Soil and Physical Sciences, Lincoln University, New Zealand;
机译:褐煤的校正降低了牧场中镉的溶解度和植物吸收
机译:硒和硅通过活化抗氧化酶系统减少镉吸收和减轻PFaffia Glomerata(Spreng。)Pedersen植物的镉毒性
机译:稻草的掺入增加了水稻植物对镉的溶解度和吸收。
机译:用于减少镉的官能化粘土异质结构,植物污染土壤铅的铅作用
机译:IRT1的阳离子选择性:限制植物吸收镉。
机译:即使在SULTR1; 2破坏引起的硫酸盐吸收减少的情况下植物也优先考虑镉暴露期间植物螯合素的合成; 2
机译:褐煤降低了牧场中镉的溶解度和植物吸收
机译:降解核素溶解度,流量污染和植物部分获取轮廓比