缺磷植物常发育不良,叶片呈典型的深绿色,常伴有花青素的积累。
Phosphorus-deficient plants are often stunted, with leaves turning a characteristic dark green, often with the accumulation of anthocyanin.
而低肥力土壤的作物表现出明显的缺磷症。
Low soil fertility and crop shows that the phosphorus deficiency disease.
缺磷导致蛋白质的缺乏,从而降低作物的生活力。
Lack of phosphorus results in lack of protein production and reduces vitality of the plant.
具有发达根系的品种吸磷能力强、耐缺磷程度高。
There was high ability to uptake phosphorus and tolerance phosphorus stress in the varieties with strong root system.
甘蓝型油菜对缺磷敏感,但又存在广泛的基因型差异。
Brassica napus was sensitive to phosphorus deficiency however showed abundance genotypic differences.
缺磷条件下白羽扇豆能够形成排根,并增加有机酸分泌。
Phosphorus deficiency results in cluster root formation and increased organic acid exudation.
品种的磷利用效率同耐缺磷能力和对加磷反应敏感性无关。
The phosphorus use efficiency was not related to the ability to tolerance phosphorus deficiency and sensitivity to phosphorus application.
缺磷胁迫下根际分泌物对不同形态的磷的活化能力有明显差异。
Root exudates could mobilize sparingly soluble P , but its effect depend on the forms of sparingly soluble P.
相同自交系的不同抗氧化酶在缺磷胁迫下的变化趋势也有差异。
There existed genotype differences of maize landraces in tolerance to low-P stress.
在丰磷、缺磷条件下,对不同磷效率小麦品种的磷吸收特性进行研究。
The phosphorus acquisition characteristics were studied in wheat varieties with different P efficiencies under Pi-sufficient and Pi-deficient conditions.
土壤缺磷是世界范围内普遍存在的问题,它严重限制了作物的产量及分布。
Phosphorus deficiency, which seriously limits yields and distribution of crops, is a problem extensively existing in soils around the globe.
红绒盖牛肝菌的溶磷能力较强,具有应用于中国土壤缺磷地区造林的潜力。
Therefore, Xerocomus chrysenteron, which had larger phosphate-dissolving ability, is the most promising fungus for afforestation at P-deficient areas in China.
对6-BA影响缺磷的白羽扇豆排根形成和有机酸分泌的可能机制进行了讨论。
The possible reasons for the effects on cluster root formation and organic acid exudation by 6-BA are discussed.
同时,讨论了缺磷胁迫下,植物根系分泌的低分子量有机酸活化土壤磷的机理。
The paper also discussed that the mechanism of phosphorus mobilization from soil by low molecular weight organic acids derived from plant root under phosphorus defici…
结果表明:(1)缺磷能够诱导白羽扇豆根系产生大量排根,根系的有机酸分泌量也明显增加。
The results showed: 1. More proteoid roots were induced by P deficiency stress in white lupin.
缺磷降低了近红外波段反射率,对可见光波段反射率的影响则受生育阶段和其他肥料互作的影响;
P-deficiency reduced the reflectance at NIR band, and its influence on visible band was depending on the crop developing stage and other nutrient status.
事实上这两个系统都不该拥有这么多物种,它们的土壤中极度缺氮和缺磷,这是植物生长所需的营养盐。
In fact, both ecosystems owe their enormous diversity, in part. to the fact that their soils have critically low supplies of nitrogen and especially phosphorus, nutrients plants need in order to grow.
有效磷的含量在各土地利用类型上都处在缺量范围。
The content of effective phosphor is of lack in all land use types.
在陕西省关中土娄土区布置线辣椒缺素大田试验,研究线辣椒对氮、磷、钾肥的肥效反应。
Field experiment was carried out in Guanzhong area, Shaaxi province using Capsicum as indicator, to study Capsicum to fertilizer effect reaction of n, p, K fertilizer.
在陕西省关中土娄土区布置线辣椒缺素大田试验,研究线辣椒对氮、磷、钾肥的肥效反应。
Field experiment was carried out in Guanzhong area, Shaaxi province using Capsicum as indicator, to study Capsicum to fertilizer effect reaction of n, p, K fertilizer.
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