{"title":"Mitigating Wheat Lodging Through Varietal Selection and Nitrogen Management","authors":"Farooq Shah, Zhaojie Li, Mingqing Fu, Changjiang Li, Wei Wu","doi":"10.1002/fes3.70071","DOIUrl":null,"url":null,"abstract":"<p>For greater crop yields, farmers frequently use high-yielding varieties and apply more nitrogen, both enhancing the risk of crop lodging. To better understand the tradeoff between high yield and lodging, a diverse set of 15 wheat varieties was tested under two nitrogen application rates (75 and 225 kg N ha<sup>−1</sup>). Significant variations ranging from 2.60 to 6.90 t ha<sup>−1</sup> were observed in grain yield. The lodging index also varied tremendously from 118% to 537% during the two growing seasons. The higher nitrogen application rate increased grain yield, spike number per m<sup>−2</sup>, grain number per spike, and grain weight by 17.2%, 8.0%, 5%, and 3.2%, respectively, than the lower rate. Meanwhile, it also increased the lodging index (8.60%), breaking resistance (11.1%), and bending moment (20.5%). The grain yield showed a positive correlation with the lodging index and bending moment and a negative correlation with breaking resistance. The study concludes that remarkable variations exist among the currently grown wheat varieties regarding grain yield and resistance to lodging. Moreover, a higher grain yield, whether due to the genetic superiority of the cultivar or a higher rate of nitrogen fertilizer, was mostly accompanied by an increased susceptibility to lodging. Nevertheless, genotypes with shorter plants, minimum length and dry weight of the third internode, and greater breaking resistance exhibited higher lodging resistance. Meanwhile, the percent increase in grain yield under higher nitrogen levels compared to lower was more than the percent increase in lodging index and can be thus recommended to growers after assessing its environmental implications.</p>","PeriodicalId":54283,"journal":{"name":"Food and Energy Security","volume":"14 2","pages":""},"PeriodicalIF":4.5000,"publicationDate":"2025-03-06","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://onlinelibrary.wiley.com/doi/epdf/10.1002/fes3.70071","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Food and Energy Security","FirstCategoryId":"97","ListUrlMain":"https://onlinelibrary.wiley.com/doi/10.1002/fes3.70071","RegionNum":2,"RegionCategory":"农林科学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"FOOD SCIENCE & TECHNOLOGY","Score":null,"Total":0}
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Abstract
For greater crop yields, farmers frequently use high-yielding varieties and apply more nitrogen, both enhancing the risk of crop lodging. To better understand the tradeoff between high yield and lodging, a diverse set of 15 wheat varieties was tested under two nitrogen application rates (75 and 225 kg N ha−1). Significant variations ranging from 2.60 to 6.90 t ha−1 were observed in grain yield. The lodging index also varied tremendously from 118% to 537% during the two growing seasons. The higher nitrogen application rate increased grain yield, spike number per m−2, grain number per spike, and grain weight by 17.2%, 8.0%, 5%, and 3.2%, respectively, than the lower rate. Meanwhile, it also increased the lodging index (8.60%), breaking resistance (11.1%), and bending moment (20.5%). The grain yield showed a positive correlation with the lodging index and bending moment and a negative correlation with breaking resistance. The study concludes that remarkable variations exist among the currently grown wheat varieties regarding grain yield and resistance to lodging. Moreover, a higher grain yield, whether due to the genetic superiority of the cultivar or a higher rate of nitrogen fertilizer, was mostly accompanied by an increased susceptibility to lodging. Nevertheless, genotypes with shorter plants, minimum length and dry weight of the third internode, and greater breaking resistance exhibited higher lodging resistance. Meanwhile, the percent increase in grain yield under higher nitrogen levels compared to lower was more than the percent increase in lodging index and can be thus recommended to growers after assessing its environmental implications.
为了提高作物产量,农民经常使用高产品种并施用更多的氮肥,这两者都增加了作物倒伏的风险。为了更好地了解高产与倒伏之间的权衡,在两种施氮量(75和225 kg N ha - 1)下,对15个不同的小麦品种进行了试验。籽粒产量的显著变化范围为2.60 ~ 6.90 t ha - 1。两个生长季节的倒伏指数变化也很大,从118%到537%不等。施氮量较高的水稻产量、每m−2穗数、每穗粒数和籽粒重分别比施氮量较低的水稻增产17.2%、8.0%、5%和3.2%。同时,还增加了倒伏指数(8.60%)、断裂阻力(11.1%)和弯矩(20.5%)。籽粒产量与倒伏指数、弯矩呈正相关,与抗折力负相关。该研究得出结论,目前种植的小麦品种在籽粒产量和抗倒伏方面存在显著差异。此外,籽粒产量的提高,无论是由于品种的遗传优势还是氮肥用量的增加,大多伴随着倒伏敏感性的增加。而植株较短、第三节间最小长度和干重较轻、抗折断能力较强的基因型,其抗倒伏能力较强。与此同时,高施氮水平下籽粒产量比低施氮水平下籽粒产量的增加百分比大于倒伏指数的增加百分比,因此可以在评估其环境影响后推荐给种植者。
期刊介绍:
Food and Energy Security seeks to publish high quality and high impact original research on agricultural crop and forest productivity to improve food and energy security. It actively seeks submissions from emerging countries with expanding agricultural research communities. Papers from China, other parts of Asia, India and South America are particularly welcome. The Editorial Board, headed by Editor-in-Chief Professor Martin Parry, is determined to make FES the leading publication in its sector and will be aiming for a top-ranking impact factor.
Primary research articles should report hypothesis driven investigations that provide new insights into mechanisms and processes that determine productivity and properties for exploitation. Review articles are welcome but they must be critical in approach and provide particularly novel and far reaching insights.
Food and Energy Security offers authors a forum for the discussion of the most important advances in this field and promotes an integrative approach of scientific disciplines. Papers must contribute substantially to the advancement of knowledge.
Examples of areas covered in Food and Energy Security include:
• Agronomy
• Biotechnological Approaches
• Breeding & Genetics
• Climate Change
• Quality and Composition
• Food Crops and Bioenergy Feedstocks
• Developmental, Physiology and Biochemistry
• Functional Genomics
• Molecular Biology
• Pest and Disease Management
• Post Harvest Biology
• Soil Science
• Systems Biology
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