{"title":"Foliar-Applied Zinc is Beneficial to Growth, Grain Yield, and Quality of Standard and Ancient Wheats Grown under Saline and Non-Saline Conditions","authors":"Zahra Abdehpour, Parviz Ehsanzadeh","doi":"10.1007/s42106-024-00293-4","DOIUrl":null,"url":null,"abstract":"<p>Ancient wheats are valuable genetic resources, though knowledge on their response to micronutrients in the presence of saline irrigation water is scanty. Two studies were conducted to unravel the behavior of ancient emmer and spelt wheats upon exposure to saline (75 and 150 mM NaCl) water and foliar-applied Zn (4 g L<sup>− 1</sup>) under pot and field conditions. Two weeks after implementing the salt treatment, Zn treatment was implemented twice with one week interval and the plants were exposed to the prolonged salt stress until physiological maturity. Then, an array of physiological processes underlying differential grain yield and quality responses of the ancient and standard wheats to these treatments were scrutinized. Salinity suppressed chlorophyll, relative water content, root volume, stubble yield, and grain yield of emmer and spelt and standard durum and bread wheats. Though, it increased the proline concentration, and Na<sup>+</sup>/K<sup>+</sup> in all wheat genotypes. Emmer wheats indicated smaller salt-induced suppressions in stubble yield and grain yield, despite indicating a greater Na<sup>+</sup>/K<sup>+</sup>. Ancient emmer and spelt wheats indicated smaller grain yield components, but out-ranked the standard durum and bread wheats in terms of root volume, grain Zn, and protein concentrations. Zn’s effect on the grain yield attributes and grain yield was moderate but it enhanced the grain Zn, particularly in emmer wheats. Novel findings of this study suggest that emmer wheats supplied with foliar-applied Zn are superior to standard durum and bread wheats in terms of grain protein and Zn, root volume, and tolerance to saline water.</p>","PeriodicalId":54947,"journal":{"name":"International Journal of Plant Production","volume":"61 1","pages":""},"PeriodicalIF":2.1000,"publicationDate":"2024-04-08","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"International Journal of Plant Production","FirstCategoryId":"97","ListUrlMain":"https://doi.org/10.1007/s42106-024-00293-4","RegionNum":3,"RegionCategory":"农林科学","ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q2","JCRName":"AGRONOMY","Score":null,"Total":0}
引用次数: 0
Abstract
Ancient wheats are valuable genetic resources, though knowledge on their response to micronutrients in the presence of saline irrigation water is scanty. Two studies were conducted to unravel the behavior of ancient emmer and spelt wheats upon exposure to saline (75 and 150 mM NaCl) water and foliar-applied Zn (4 g L− 1) under pot and field conditions. Two weeks after implementing the salt treatment, Zn treatment was implemented twice with one week interval and the plants were exposed to the prolonged salt stress until physiological maturity. Then, an array of physiological processes underlying differential grain yield and quality responses of the ancient and standard wheats to these treatments were scrutinized. Salinity suppressed chlorophyll, relative water content, root volume, stubble yield, and grain yield of emmer and spelt and standard durum and bread wheats. Though, it increased the proline concentration, and Na+/K+ in all wheat genotypes. Emmer wheats indicated smaller salt-induced suppressions in stubble yield and grain yield, despite indicating a greater Na+/K+. Ancient emmer and spelt wheats indicated smaller grain yield components, but out-ranked the standard durum and bread wheats in terms of root volume, grain Zn, and protein concentrations. Zn’s effect on the grain yield attributes and grain yield was moderate but it enhanced the grain Zn, particularly in emmer wheats. Novel findings of this study suggest that emmer wheats supplied with foliar-applied Zn are superior to standard durum and bread wheats in terms of grain protein and Zn, root volume, and tolerance to saline water.
古代小麦是宝贵的遗传资源,但有关它们在盐水灌溉下对微量营养元素的反应的知识却很少。我们进行了两项研究,以揭示在盆栽和田间条件下,古小麦和斯佩耳特小麦暴露于盐水(75 和 150 mM NaCl)和叶面施肥锌(4 g L-1)后的行为。在实施盐处理两周后,再实施两次锌处理,每次间隔一周,并将植物暴露在长期的盐胁迫下直至生理成熟。然后,仔细研究了古法小麦和标准小麦对这些处理的不同谷物产量和品质反应的一系列生理过程。盐胁迫抑制了埃默小麦和斯佩耳特小麦以及标准硬质小麦和面包小麦的叶绿素、相对含水量、根系体积、残茬产量和谷物产量。不过,盐分增加了所有小麦基因型的脯氨酸浓度和 Na+/K+。埃默小麦的 Na+/K+ 较高,但盐对茬口产量和谷物产量的抑制作用较小。古老的埃默小麦和斯佩耳特小麦的籽粒产量成分较小,但在根系体积、籽粒锌含量和蛋白质浓度方面优于标准硬质小麦和面包小麦。锌对谷物产量属性和谷物产量的影响不大,但它提高了谷物的锌含量,尤其是在埃默小麦中。这项研究的新发现表明,叶面喷施锌的埃默小麦在谷物蛋白质和锌、根系体积以及对盐水的耐受性方面优于标准硬麦和面包小麦。
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.