This shows that the root exudates play a key role for plants to use the nutritional elements.
表明根系分泌物是植物利用养分元素的决定因素。
参考来源 - 植物根系分泌物对难溶磷钾及土壤硒的活化作用研究Al-P mobilized by root exudates was 69.3% (mature stage) and 40.1% (sand culture) in Brazil 10 than in the Local 2.
巴西10号根分泌物对铝磷的活化量比本地2号分别高出69.3%(成熟期)和40.1%(砂培)。
参考来源 - 大豆根系分泌物和根细胞壁对难溶性磷的活化The effect of root exudates on degradation of diuron in soil was impacted by the components of the exudates.
根系分泌物对土壤中敌草隆降解的影响与分泌物的组成有关。
参考来源 - 不同植物对土壤中敌草隆降解的影响及其差异性分析The results indicated that:1. After planting wheat, the pH, organic matter content for rhizosphere of red soil and yellow cinnamon soil, have changed by root exudates and root surface physical-chemical processes.2.
结果表明:1、植麦后,根分泌物及根表物理化学过程等改变了红壤和黄褐土根际pH,有机质含量等因子,两土壤上改变程度和规律有所不同。
参考来源 - 红壤与黄褐土根际环境下外源重金属铅的化学行为研究·2,447,543篇论文数据,部分数据来源于NoteExpress
These results indicated that soybean could alleviate aluminum stress by changing root exudates.
说明大豆通过改变根系分泌作用而缓解酸铝的毒害。
Root exudates and plant remains in soils were concerned as one of the key reasons for these problems in other crops.
许多研究表明根系分泌物与植物残体是连作障碍的关键问题之一。
Tissue culture methods were used to simulate the allelopathy effect of lily root exudates under sterilized conditions.
连作条件下根系分泌物的逐年积累产生的自毒效应,可能就是百合连作障碍产生的重要原因。
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