Microbial Biofortification of Grain Crops: Current State and Prospects

Q3 Economics, Econometrics and Finance Food Processing: Techniques and Technology Pub Date : 2024-07-03 DOI:10.21603/2074-9414-2024-2-2500
D. Kolpakova, Y.R Serazetdinova, N. Fotina, A. Zaushintsena, L. Asyakina, A. Loseva
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Abstract

Hidden hunger is a significant social issue in numerous countries worldwide, causing the development of nutrition-related diseases among populations annually. Biofortification offers a sustainable solution as it combines methods of cross-breeding, genetic engineering, agriculture, and microbiology. The authors reviewed international studies in the field of microbial biofortification in order to assess the microbial potential to enh ance the essential element content in grain crops. The review featured relevant scientific articles published by foreign experts in Scopus, ScienceDirect, and Google Scholar in 1984–2024. The keywords included biofortification, wheat, rice, oats, growth stimulation, antagonism, and phytopathogen. The sources were processed in Zotero and VOSviewer. Nitrogen fixation and nutrient solubilization are the main mechanisms of microbial biofortification. Solubilization occurs as a synthesis of organic and inorganic acids, protons, siderophores, extracellular enzymes, and other secondary metabolites. Microorganisms can improve the expression of plant genes in terms of absorption and nutrient accumulation. They also affect root systems, facilitating the extraction of nutrients from the soil. The authors summarized laboratory and field studies on microbial biofortification of rice, wheat, and barley with iron, selenium, zinc, copper, manganese, nitrogen, phosphorus, and potassium. Biofortified growth-promoting microorganisms are a sustainable, reliable, and cost-effective approach to food security and hidden hunger issues. The review offers relevant information that can be used to develop new microbial preparations for the domestic agriculture.
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粮食作物的微生物生物强化:现状与前景
隐性饥饿是世界上许多国家面临的一个重大社会问题,每年都会引发与营养有关的疾病。生物强化提供了一种可持续的解决方案,因为它结合了杂交育种、基因工程、农业和微生物学等方法。作者回顾了微生物生物强化领域的国际研究,以评估微生物提高粮食作物必需元素含量的潜力。该综述收录了国外专家于 1984-2024 年间在 Scopus、ScienceDirect 和 Google Scholar 上发表的相关科学文章。关键词包括生物强化、小麦、水稻、燕麦、生长刺激、拮抗作用和植物病原体。Zotero 和 VOSviewer 对这些资料进行了处理。固氮和营养增溶是微生物生物强化的主要机制。溶解是有机酸和无机酸、质子、苷元、胞外酶和其他次生代谢产物的合成过程。微生物可以改善植物基因在吸收和养分积累方面的表达。它们还能影响根系,促进从土壤中提取养分。作者总结了对水稻、小麦和大麦进行铁、硒、锌、铜、锰、氮、磷和钾微生物生物强化的实验室和田间研究。生物强化促进生长的微生物是解决粮食安全和隐性饥饿问题的一种可持续、可靠和具有成本效益的方法。本综述提供了相关信息,可用于为国内农业开发新的微生物制剂。
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来源期刊
Food Processing: Techniques and Technology
Food Processing: Techniques and Technology Engineering-Industrial and Manufacturing Engineering
CiteScore
1.40
自引率
0.00%
发文量
82
审稿时长
12 weeks
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