Hybrid Winter Wheat Performance: A Study on Planting Density, Nitrogen Use Efficiency, and Yield Optimization in Eastern China

IF 2.1 3区农林科学 Q2 AGRONOMY

International Journal of Plant Production Pub Date : 2024-07-26 DOI:10.1007/s42106-024-00306-2

Yulu Zhang, Yihang Du, Wenlu Li, Zixin Zhu, Jing Jia, Fangang Meng, Shengquan Zhang, Changxing Zhao

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Abstract

This study evaluates the impact of varying planting densities on hybrid winter wheat (Triticum aestivum L.) varieties in the eastern Huang-Huai-Hai region, an area critical to China’s wheat production. Focusing on ‘Jingmai 17’, a hybrid variety, and ‘Jimai 22’, a conventional type, across three planting densities (150, 300, and 450 plants·m⁻²) during the 2021–2023 growing seasons, the investigation centered on key agronomic metrics such as leaf area per culm (LAC), SPAD values for chlorophyll content, dry matter, nitrogen accumulation and remobilization, alongside grain yield and its components. The results highlight ‘Jingmai 17’’s superior performance over ‘Jimai 22’, notably in maintaining a larger LAC post-anthesis, a slower decline in SPAD values during grain filling, and an extended green leaf area duration. These characteristics are conducive to higher biomass accumulation and efficient post-anthesis remobilization. Importantly, a planting density of 300 plants·m⁻² emerged as optimal, enhancing canopy structure for maximal light interception and promoting a higher nitrogen use efficiency (NUE) and yield for both varieties. The NUE of Jingmai 17 and Jimai 22 in both years increased by 2.2%, 0.4% and 1.7%, 1.4%, respectively, relative to the 450 plants·m⁻² treatment; and the yield increased by 10%, 4%, 9%, 4%, and 10%, 5%, 8%, 2%, relative to the 150 plants·m⁻² and 450 plants·m⁻² treatments, respectively. This optimal density represents a strategic balance, enabling robust wheat growth while maximizing resource use efficiency. For the eastern Huang-Huai-Hai region, these findings suggest a potent strategy to augment wheat yields and improve agricultural sustainability. Adopting a planting density of 300 plants·m⁻² could significantly enhance the productivity of hybrid winter wheat varieties, tapping into their heterosis advantages for substantial yield improvements. By refining planting density practices, the eastern Huang-Huai-Hai region stands to achieve marked gains in wheat yield efficiency, contributing to the broader goals of food security and sustainable farming practices.

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杂交冬小麦的表现：华东地区种植密度、氮利用效率和产量优化研究

本研究评估了不同种植密度对黄淮海东部地区杂交冬小麦（Triticum aestivum L.）品种的影响，该地区是中国小麦生产的关键地区。该研究以杂交品种 "京麦 17 号 "和常规品种 "吉麦 22 号 "为研究对象，在 2021-2023 年生长季期间进行了三种种植密度（150、300 和 450 株/米-2）的研究，重点研究了每秆叶面积（LAC）、叶绿素含量 SPAD 值、干物质、氮积累和再移动等关键农艺指标，以及谷物产量及其组分。研究结果表明，"京麦 17 号 "的表现优于 "吉麦 22 号"，特别是在花后叶面积保持较大、籽粒灌浆期 SPAD 值下降较慢以及绿叶面积持续时间延长等方面。这些特性有利于提高生物量积累和有效的花后再动员。重要的是，300 株/米-2 的种植密度是最佳的，它能增强冠层结构以实现最大的光拦截，提高两个品种的氮利用效率（NUE）和产量。与 450 株/米-2 处理相比，京麦 17 和吉麦 22 两年的氮利用效率分别提高了 2.2%、0.4% 和 1.7%、1.4%；与 150 株/米-2 和 450 株/米-2 处理相比，产量分别提高了 10%、4%、9%、4% 和 10%、5%、8%、2%。这种最佳密度体现了一种战略平衡，既能使小麦生长健壮，又能最大限度地提高资源利用效率。对于黄淮海东部地区来说，这些发现为提高小麦产量、改善农业可持续发展提供了有效策略。采用 300 株/米-2 的种植密度可显著提高杂交冬小麦品种的产量，利用其杂交优势大幅提高产量。通过改进种植密度实践，黄淮海东部地区的小麦产量效率将显著提高，从而有助于实现更广泛的粮食安全和可持续农业实践目标。

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来源期刊

International Journal of Plant Production 农林科学-农艺学

CiteScore

5.30

自引率

4.00%

发文量

审稿时长

6 months

期刊介绍： IJPP publishes original research papers and review papers related to physiology, ecology and production of field crops and forages at field, farm and landscape level. Preferred topics are: (1) yield gap in cropping systems: estimation, causes and closing measures, (2) ecological intensification of plant production, (3) improvement of water and nutrients management in plant production systems, (4) environmental impact of plant production, (5) climate change and plant production, and (6) responses of plant communities to extreme weather conditions. Please note that IJPP does not publish papers with a background in genetics and plant breeding, plant molecular biology, plant biotechnology, as well as soil science, meteorology, product process and post-harvest management unless they are strongly related to plant production under field conditions. Papers based on limited data or of local importance, and results from routine experiments will not normally be considered for publication. Field experiments should include at least two years and/or two environments. Papers on plants other than field crops and forages, and papers based on controlled-environment experiments will not be considered.