Rock Phosphate Solubilizing Potential of Soil Microorganisms: Advances in Sustainable Crop Production

B. Khoshru, A. F. Nosratabad, Debasis Mitra, M. Chaithra, Y. Danesh, Gökhan Boyno, Sourav Chattaraj, A. Priyadarshini, S. Anđelković, M. Pellegrini, B. Guerra-Sierra, Somya Sinha
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引用次数: 2

Abstract

Phosphorus (P) is one of the most important elements required for crop production. The ideal soil pH for its absorption by plants is about 6.5, but in alkaline and acidic soils, most of the consumed P forms an insoluble complex with calcium, iron, and aluminum elements and its availability for absorption by the plant decreases. The supply of P needed by plants is mainly achieved through chemical fertilizers; however, in addition to the high price of these fertilizers, in the long run, their destructive effects will affect the soil and the environment. The use of cheap and abundant resources such as rock phosphate (RP) can be an alternative strategy for P chemical fertilizers, but the solubilization of P of this source has been a challenge for agricultural researchers. For this, physical and chemical treatments have been used, but the solution that has recently attracted the attention of the researchers is to use the potential of rhizobacteria to solubilize RP and supply P to plants by this method. These microorganisms, via. mechanisms such as proton secretion, organic and mineral acid production, siderophore production, etc., lead to the solubilization of RP, and by releasing its P, they improve the quantitative and qualitative performance of agricultural products. In this review, addressing the potential of rhizosphere microbes (with a focus on rhizobacteria) as an eco-friendly strategy for RP solubilization, along with physical and chemical solutions, has been attempted.
土壤微生物的磷矿增溶潜力:可持续作物生产的研究进展
磷(P)是作物生产所需的最重要元素之一。植物吸收磷的理想土壤pH约为6.5,但在碱性和酸性土壤中,大部分消耗的磷与钙、铁、铝元素形成不溶性复合体,植物吸收磷的有效性降低。植物所需磷的供应主要通过化肥来实现;然而,这些肥料除了价格高昂之外,从长远来看,它们的破坏性作用会影响土壤和环境。利用廉价而丰富的资源如磷矿(RP)可以作为磷肥的替代策略,但这一来源的磷肥的增溶一直是农业研究人员面临的挑战。对此,已有物理和化学处理方法,但最近引起研究人员关注的解决方案是利用根瘤菌的潜力来溶解RP,并通过这种方法为植物提供P。这些微生物,通过。质子分泌、有机酸和无机酸的产生、铁载体的产生等机制导致RP的增溶,并通过释放RP,提高农产品的定量和定性性能。在这篇综述中,解决根际微生物(重点是根杆菌)作为RP增溶的生态友好策略的潜力,以及物理和化学解决方案,已经进行了尝试。
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