Aluminum toxicity has been recognized as a major limiting factor of plant productivity on acidic soils.
铝毒是酸性土壤中作物生长发育的一个最主要限制因素。
参考来源 - 植物激素及铝对小麦根尖有机酸代谢与分泌的影响So,The enhancement of aluminum tolerance in Alfalfa is a key to introduce alfalfa in the south.
因而提高紫花苜蓿对铝毒的耐受性是解决紫花苜蓿顺利引种到我国南方的关键之一。
参考来源 - 农杆菌介导EMDH基因转化紫花苜蓿的研究At present, however, Al toxicity mechanisms in plant are still not clearly understood.
然而,目前对植物铝毒机制仍不清楚。
参考来源 - 大麦根尖和边缘细胞铝毒生物学特性及其机理研究Using the plant materials with contrast Al tolerance as found in this study will help to clarify mechanisms of Al phytotoxicity and resistance in plants.
本研究所得到的植物材料有助于对植物铝毒和耐性机理的深入研究。
参考来源 - 植物耐铝毒基因型差异及荞麦耐铝机理研究Aluminum toxicity is one of the major factors limiting crop production in acid soils worldwide.
铝毒是限制酸性土壤作物生长的主要因素。
参考来源 - 植物耐铝毒基因型差异及荞麦耐铝机理研究·2,447,543篇论文数据,部分数据来源于NoteExpress
铝毒是酸性土壤上限制植物生长的最重要的限制因子之一。
Aluminum (Al) is one of the most important factors limiting plant growth in acid soils.
有机酸解铝毒的效果因小麦品种而异,其中敏感小麦优于抗性小麦。
Sensitive varieties of wheat were better than tolerable ones in efficiency of aluminum detoxification.
本研究所得到的植物材料有助于对植物铝毒和耐性机理的深入研究。
Using the plant materials with contrast Al tolerance as found in this study will help to clarify mechanisms of Al phytotoxicity and resistance in plants.
应用推荐