Author:
Ning Xinyi,Lin Mengfei,Huang Guohua,Mao Jipeng,Gao Zhu,Wang Xiaoling
Abstract
Iron is a trace element essential for normal plant life activities and is involved in various metabolic pathways such as chlorophyll synthesis, photosynthesis, and respiration. Although iron is highly abundant in the earth’s crust, the amount that can be absorbed and utilized by plants is very low. Therefore, plants have developed a series of systems for absorption, transport, and utilization in the course of long-term evolution. This review focuses on the findings of current studies of the Fe2+ absorption mechanism I, Fe3+ chelate absorption mechanism II and plant-microbial interaction iron absorption mechanism, particularly effective measures for artificially regulating plant iron absorption and transportation to promote plant growth and development. According to the available literature, the beneficial effects of using microbial fertilizers as iron fertilizers are promising but further evidence of the interaction mechanism between microorganisms and plants is required.
Reference106 articles.
1. Effect of iron supply on growth, chlorophyll, tissue iron and activity of certain enzymes in maize and radish;Agarwala;Plant Physiol.,1965
2. Combating iron and zinc malnutrition through mineral biofortification in maize through plant growth promoting Bacillus and Paenibacillus species;Ahmad;Front. Plant Science.,2023
3. Iron chlorosis in fruit stone trees with emphasis on chlorosis correction mechanisms in orchards: a review;Ahmadi;J. Plant Nutr.,2023
4. Plant growth-promoting rhizobacterial biofertilizers for crop production: the past, present, and future;Aloo;Front. Plant Science.,2022
5. Evaluation of synthetic iron(III)-chelates (EDDHA/Fe3+, EDDHMA/Fe3+ and the novel EDDHSA/Fe3+) to correct iron chlorosis;Ana;Eur. J. Agronomy.,2004
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