全面审查岩尘在可持续农业中的土壤再矿化作用,初步评估越南义安省微粉多孔玄武岩中的营养价值

Nguyen Hoang Thien Khoi, Nguyen Ngoc Tri Huynh, Nguyen Vinh Phuoc, Nguyen Khanh Son
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引用次数: 1

摘要

本综述深入探讨了在可持续农业背景下利用岩粉作为矿物肥料支持土壤再矿化的问题。土壤再矿化已成为确保土壤长期肥沃和减少对合成肥料依赖的关键策略。本综述结合当地岩石矿物学、土壤条件、作物类型和植物养分吸收等因素,对各种研究中采用的方法进行了严格评估。综述涵盖一系列方法,包括养分值分析、养分释放率评估、实验室和田间作物栽培实验,以及由此产生的对土壤再矿化的影响。此外,我们还介绍了一项初步研究的结果,重点是越南义安省玄武岩的养分含量。这项实验调查的核心是评估特定多孔玄武岩材料中的养分值,该材料已使用高能球磨机加工成微纳米颗粒,从而提高了养分释放效率。研究采用了一系列分析技术,包括 XRD、XRF、SEM/EDS 和 ICP-MS,对宏观和微观营养成分进行量化。与商用方解石相比,玄武岩样本在提供宏量营养元素(如钾)方面可能存在局限性,但在提供次宏量营养元素(如钙)方面却具有明显优势。这项综合分析为微粉玄武岩在土壤再矿化方面的潜在用途提供了深入的见解。
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comprehensive review of rock dust for soil remineralization in sustainable agriculture and preliminary assessment of nutrient values in micronized porous basalt rock from Nghe-An province, Vietnam
This review delves into the utilization of rock powder as a mineral-derived fertilizer to support soil remineralization in the context of sustainable agriculture. Soil remineralization has emerged as a key strategy for ensuring long-term soil fertility and reducing the dependency on synthetic fertilizers. This review critically assesses the methodological approaches applied in various studies, taking into account factors such as local rock mineralogy, soil conditions, crop types, and nutrient uptake by plants. The review covers a range of methods, including nutrient value analysis, assessment of nutrient release rates, crop cultivation experiments in both laboratory and field settings, and the resulting implications for soil remineralization. Additionally, we present findings from a preliminary study focusing on the nutrient content of basalt rock from Nghe-An Province, Vietnam. This experimental investigation is centered on the assessment of nutrient values in a specific porous basalt material, which has been processed into micro-nanometer particles using a high-energy ball mill, thereby enhancing nutrient release efficiency. The study employs a range of analytical techniques, including XRD, XRF, SEM/EDS, and ICP-MS, to quantify macro- and micro-nutrient compositions. While the basalt rock samples may exhibit limitations in providing macronutrients (such as K) compared to commercial azomite rock, they offer distinct advantages in furnishing secondary macronutrients (like Ca). This comprehensive analysis provides insights into the potential use of micronized basalt rock for soil remineralization.
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