Optimizing nitrogen fertilization and planting density management enhances lodging resistance and wheat yield by promoting carbohydrate accumulation and single spike development

IF 2 3区 农林科学 Q2 AGRONOMY Crop Science Pub Date : 2024-08-28 DOI:10.1002/csc2.21327
Haimeng Mu, Zhuangzhuang Wang, Lifang Sun, Yuan Huang, Yifan Song, Rong Zhang, Zijun Wu, Kaixia Fu, Jianzhao Duan, Guozhang Kang, Tiancai Guo, Yonghua Wang
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Abstract

Nitrogen fertilizer application and increasing planting density have been recognized as essential measures to achieve higher wheat (Triticum aestivum L.) yields. However, inadequate management practices often lead to poor culm quality and lodging. We hypothesized that optimizing culm characteristics could be a feasible approach to improving both lodging resistance and yield. In this study, field experiments involved five nitrogen levels (0, 180, 240, 300, and 360 kg ha−1) and three planting densities (225, 375, and 525 × 104 ha−1). Two wheat cultivars with different lodging resistance were selected and their culm morphological characteristics, biochemical components, field lodging rate, and yield in different treatments were measured. We found that field lodging rate in wheat was negatively correlated with yield, and there was a contradiction between increasing spike number and lodging resistance. Culm carbohydrate accumulation affected field lodging rate by regulating culm quality rather than the center of gravity height. Compared with Xinmai 26, Xinhuamai 818 had higher culm carbohydrate accumulation, which increased the breaking strength and yield by 14.2% and 17.0%. Nitrogen application and planting density had significant effects on yield and lodging resistance. Compared with N0 treatment, increasing nitrogen application rate improved yield of 67.2%–83.2% by increasing spike number and grain number per spike, and the N2 treatment showed the largest increase. Planting density had little effect on yield. Reducing planting density can increase the culm carbohydrate accumulation and enhance lodging resistance. Compared with D3 treatment, the culm breaking strength was increased by 27.6% under the D1 treatment. This study determined that the optimal combination of nitrogen and density for improving wheat lodging resistance and yield is 240 kg ha−1 and 225 × 104 ha−1. This combination enhances culm breaking strength by increasing carbohydrate accumulation and achieves high yield by increasing grain number per spike, 1000‐grain weight, and stabilizing spike number.
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优化氮肥施用和种植密度管理,通过促进碳水化合物积累和单穗发育,提高抗倒伏能力和小麦产量
施用氮肥和增加种植密度被认为是提高小麦(Triticum aestivum L.)产量的基本措施。然而,不适当的管理措施往往会导致茎秆质量差和茎秆徒长。我们假设,优化茎秆特性可能是提高抗倒伏性和产量的可行方法。在这项研究中,田间试验涉及五种氮水平(0、180、240、300 和 360 千克/公顷-1)和三种种植密度(225、375 和 525 × 104 公顷-1)。选取了两个抗倒伏性不同的小麦品种,测定了它们在不同处理下的茎秆形态特征、生化成分、田间倒伏率和产量。我们发现,小麦的田间抗倒伏率与产量呈负相关,穗数增加与抗倒伏性之间存在矛盾。茎秆碳水化合物积累通过调节茎秆质量而非重心高度影响田间结实率。与 "新麦26 "相比,"新花麦818 "的茎秆碳水化合物积累量更高,断裂强度和产量分别提高了14.2%和17.0%。施氮量和种植密度对产量和抗倒伏性有显著影响。与施氮量为 0 的处理相比,增加施氮量可增加穗数和每穗粒数,从而提高产量 67.2%-83.2%,其中施氮量为 2 的处理增产幅度最大。种植密度对产量影响不大。降低种植密度可增加茎秆碳水化合物的积累,提高抗倒伏能力。与 D3 处理相比,D1 处理的茎秆断裂强度提高了 27.6%。本研究确定,提高小麦抗倒伏性和产量的最佳氮肥和密度组合为 240 kg ha-1 和 225 × 104 ha-1。这一组合通过增加碳水化合物的积累来提高断秆强度,并通过增加每穗粒数、千粒重和稳定穗数实现高产。
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来源期刊
Crop Science
Crop Science 农林科学-农艺学
CiteScore
4.50
自引率
8.70%
发文量
197
审稿时长
3 months
期刊介绍: Articles in Crop Science are of interest to researchers, policy makers, educators, and practitioners. The scope of articles in Crop Science includes crop breeding and genetics; crop physiology and metabolism; crop ecology, production, and management; seed physiology, production, and technology; turfgrass science; forage and grazing land ecology and management; genomics, molecular genetics, and biotechnology; germplasm collections and their use; and biomedical, health beneficial, and nutritionally enhanced plants. Crop Science publishes thematic collections of articles across its scope and includes topical Review and Interpretation, and Perspectives articles.
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