旱地高产小麦品种籽粒含磷量差异与氮磷钾吸收利用的关系

刁超朋; 李小涵; 王朝辉; 李莎莎; 王森; 刘璐; 惠晓丽; 罗来超; 黄明; 黄宁

doi:10.11674/zwyf.18054

旱地高产小麦品种籽粒含磷量差异与氮磷钾吸收利用的关系

Difference in grain phosphorus content of high-yielding wheat cultivars and its relation to NPK uptake and utilization in dryland

摘要

摘要:
目的研究旱地高产小麦品种籽粒含磷量差异，明确籽粒含磷量与农艺性状、营养品质的关系，以期为旱地小麦科学施肥与高产优质品种选育提供理论依据。

方法设置施肥 (N 150 kg/hm²、P₂O₅ 100 kg/hm²) 与不施肥两个处理，以123个小麦品种为试验材料，于2013—2016年在渭北旱塬连续三年进行田间试验，研究旱地高产小麦品种籽粒含磷量差异与生物量累积、产量构成及氮磷钾吸收利用的关系。

结果小麦籽粒产量每增加1000 kg/hm²，籽粒含磷量降低0.28 g/kg，两者呈显著负相关。高产品种的产量平均为6.9 t/hm²，品种间籽粒含磷量差异显著，介于2.5～3.7 g/kg，变幅为51.1%。高磷组和低磷组产量及构成要素差异均不显著，高磷组品种的籽粒含氮量显著高于低磷组，含钾量与低磷组无显著差异；高磷组的籽粒与营养器官氮磷吸收量均高于低磷组，向籽粒转移氮、磷的能力无显著差异，转移钾的能力却低于低磷组品种。施肥后，两组品种籽粒与营养器官氮、磷、钾吸收量均增加，高磷组品种的增幅高于低磷组；氮磷钾向籽粒转移的能力均降低，高磷组品种转移钾的能力降幅更大。

结论高产小麦品种中，高磷品种的籽粒含氮量与氮吸收量也更高，对施肥的响应也更显著。施肥后，高磷组的生物量与营养器官氮磷钾吸收量增幅均高于低磷组的，而养分收获指数降幅更大。因此，在选育高产小麦时，应选择籽粒含磷量适中的品种并提高养分收获指数。在小麦生产中，也要依据籽粒含磷量的高低，调整施肥方案，同步提高籽粒含氮量，实现旱地小麦高产优质。

Abstract:
Objectives The grain phosphorus content and its relationship to major agronomic and nutritional traits of the high-yielding wheat cultivars were studied in drylands, aiming to provide reference for optimizing fertilizer management and breeding new cultivars of both high yield and high nutritional quality.

Methods A field experiment was conducted in Weibei dryland during 2013 to 2016, there were 123 wheat cultivars grown under fertilization (N 150 kg/hm² and P₂O₅ 100 kg/hm²) and no fertilization conditions. The biomass accumulation, yield components and NPK uptake were analyzed. The relationship between grain P contents and the main agronomic traits of the cultivars were discussed.

Results The average yield of the high-yielding wheat cultivars was 6.9 t/hm² and the grain P contents varied from 2.5 to 3.7 g/kg with a variation of 51.1%. The grain yields were significantly and negatively correlated with the P content, every increase of 1000 kg/hm² in yield would lead to a decrease of 0.28 g/kg in P content. The grain yields and yield components of the high- and low-grain P cultivar groups were similar, while the high-P group had higher grain N contents and similar grain K contents, compared with those of low-P group. The high-P group accumulated higher N and P in grain and straw, but the N and P translocation from straw to grain were not significantly different between the two groups. The high-P group exhibited lower K translocation than the low-P group. Fertilization increased N, P and K uptake in grain and vegetative parts of both groups, with greater increase for the high-P group, but reduced the translocation of N, P and K from straw to grain, especially for the high-P group.

Conclusions The high-yielding and high-grain P content wheat cultivars have higher N content and uptake, and their response to fertilization is more significant. Fertilization will increase the biomass and N, P and K uptake, and consequently decrease the harvest index of the high-P cultivars. Therefore, cultivars with medium P contents and high P harvest indexes are encouraged in breeding high-yielding wheat. Fertilization regime should be adjusted according to the cultivar’s grain P content for increasing grain N contents and acquiring high-yield and high-quality wheat products in dryland.

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