AI Article Synopsis
- Iron deficiency limits crop yields in calcareous soil, prompting the development of a new Fe chelator called proline-2'-deoxymugineic acid (PDMA) to address this issue.
- Research involving pot and field experiments showed that PDMA helps dissolve insoluble iron and enhances iron nutrition in peanut plants by increasing the expression of the AhYSL1 gene.
- The application of PDMA significantly improved peanut yields and micronutrient content, showing its potential as an effective solution for enhancing agricultural productivity in iron-deficient soils.
Article Abstract
Iron (Fe) deficiency restricts crop yields in calcareous soil. Thus, a novel Fe chelator, proline-2'-deoxymugineic acid (PDMA), based on the natural phytosiderophore 2'-deoxymugineic acid (DMA), was developed to solve the Fe deficiency problem. However, the effects and mechanisms of PDMA relevant to the Fe nutrition and yield of dicots grown under field conditions require further exploration. In this study, pot and field experiments with calcareous soil were conducted to investigate the effects of PDMA on the Fe nutrition and yield of peanuts. The results demonstrated that PDMA could dissolve insoluble Fe in the rhizosphere and up-regulate the expression of the yellow stripe-like family gene AhYSL1 to improve the Fe nutrition of peanut plants. Moreover, the chlorosis and growth inhibition caused by Fe deficiency were significantly diminished. Notably, under field conditions, the peanut yield and kernel micronutrient contents were promoted by PDMA application. Our results indicate that PDMA promotes the dissolution of insoluble Fe and a rich supply of Fe in the rhizosphere, increasing yields through integrated improvements in soil-plant Fe nutrition at the molecular and ecological levels. In conclusion, the efficacy of PDMA for improving the Fe nutrition and yield of peanut indicates its outstanding potential for agricultural applications.
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| http://dx.doi.org/10.1111/pce.14459 | DOI Listing |
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