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.
本文结合我们的研究工作,综述了微生物的铝毒害和耐铝毒机制。
In this paper, combination with our researches, Al toxicity and tolerance mechanism of microorganisms were reviewed.
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.
探讨了植物对铝的吸收与运输、对铝毒的内外适应机制以及铝与其它营养元素的关系。
Uptake and transport of aluminum, internal detoxification mechanism of aluminum and its impact on uptake of other nutrition in plant were discussed.
铝毒是酸性土壤影响作物生长的主要原因,已成为植物胁迫生理学与遗传学的重要研究内容。
Al toxicity is a major limited factor for crop production and quality in acid soil, and it has become the focus of ongoing research in the area of plant stress physiology and genetics.
以豇豆为材料,采用悬空培养法,研究了豇豆边缘细胞发育的特性及铝毒对豇豆边缘细胞的影响。
The effect of aluminum toxin on production and development of root border cells were investigated with cowpea ( Vigna ungniculata ssp.
通过盆栽试验,研究在砖红壤中施加富含铝盐的造纸污泥堆肥后,土壤-作物体系中的铝毒效应。
The aluminum pollution in red soil and plant when paper mill sludge compost (PMSC) was applied in a maize pot experiment was evaluated.
这个研究同时也包括了利用标准的CIMMYT铝敏感玉米系和相互杂交系进行铝毒筛选的对比评估。
These also included comparative evaluations involving al toxicity screening using a standardized CIMMYT al sensitive maize line and reciprocal hybrids.
两种植物的主根伸长对铝胁迫的差异不显著,而秋葵侧根对铝毒的抗性比两个供试的小麦基因型强;
There was no difference of root elongation between the H. moscheutos and wheat, but the lateral roots of H. moscheutos were more tolerant to Al than that of wheat genotypes.
油页岩废渣因酸度高,养分含量低,并存在一定程度的铝毒和重金属污染等,使得植物很难在其中正常生长发育。
Because of the high acidity, low nutrients content, aluminum toxicity and potential heavy metals pollution, oil shale waste slag has negative effects on the normal growth of plants.
课题的实施将有助于丰富水稻矿质营养学中耐铝毒、耐铁毒、硅吸收机理的理论,同时,对创造、培育出适合我国栽培的耐铝毒、耐铁毒、硅高效吸收新品种(系)有指导意义。
Our project will map and clone the genes related to Al and Fe toxicity tolerance, and Si uptake, and develop new rice strains or cultivars suitable for rice cropping areas in China.
由于无机单聚体铝对鱼类有致毒作用,因此,光解作用的结果使水体中铝的毒性增加。
Since the monomeric inorganic aluminium is toxic to fish, the result of the transformation will increase the toxicity of aquatic aluminium.
由于无机单聚体铝对鱼类有致毒作用,因此,光解作用的结果使水体中铝的毒性增加。
Since the monomeric inorganic aluminium is toxic to fish, the result of the transformation will increase the toxicity of aquatic aluminium.
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