摘要
Six wheat (Triticum aestivum L.) varieties with different phosphorus (P) efficiency, selected according to their relative yield in P-deficient soil to that in P sufficient soil, were used to compare their responses to P deficiency in growth, root and shoot P content and P concentration in leaf phloem exudates in solution culture. Results showed that P deficiency repressed shoot growth, whereas stimulated root growth. Accordingly, root-shoot dry weight ratio of the P deficient plants was relatively larger than that of the P-sufficient plants. Comparing with P-inefficient varieties, the growth rate of shoot and roots of P-efficient varieties was relatively low both under P-sufficient and -deficient conditions. Phosphorus deficiency also resulted in decrease in shoot and root P content. The rate of decrease in shoot was faster than in root. Difference in P partitioning in shoot and root between P-efficient and -inefficient varieties could not be observed. However, a negative relationship between P concentration in leaf phloem exudates of nine-day-old seedlings of these wheat varieties and their degrees of P efficiency were found under the P-sufficient condition, with higher in P-inefficient varieties but lower in P-efficient varieties. The reduce rate of P concentration in leaf phloem exudates of P-efficient varieties was rather slower than that of P-inefficient varieties, showing higher relative P concentration in leaf phloem exudates. The relative P concentration in leaf phloem exudates under P deficiency ranged from 35.9% of the P-sufficient controls in P-inefficient varieties to 59.0% in P-efficient varieties on the 10th day after the treatments.
在营养液培养条件下,以根据相对产量为指标筛选出的6个不同磷效率的小麦(Triticum aestivum L.)品种为材料,对其苗期在缺磷条件下生长、根冠磷含量及其分配,以及叶片韧皮部汁液中磷浓度等进行了比较研究。结果表明,缺磷抑制植株地上部生长,但刺激根系生长,导致植株根/冠比增加。无论在供磷或缺磷条件下,磷高效品种的根冠生长速率都低于磷低效品种。缺磷导致植株体内的磷含量下降,与根系相比,地上部磷含量的下降速率更快。但在缺磷条件下,不同磷效率的小麦品种根冠间的磷分配变化没有差异。研究发现,在正常供磷条件下,磷高效小麦品种的叶片韧皮部汁液中磷浓度较低,而磷低效品种的叶片韧皮部汁液中磷浓度较高。但开始缺磷后,磷高效品种的叶片韧皮部汁液中的磷浓度下降较慢,使其相对磷浓度较高。缺磷后10天,磷低效品种叶片韧皮部汁液中的磷浓度为供磷对照的35.9%,而磷高效品种叶片韧皮部汁液中的磷浓度为供磷对照的59%。
基金
国家重点基础研究发展规划项目(G1999011707)
国家自然科学基金(30790100)
