Nano-fertilizers: Bio-fabrication, application and biosafety

Q3 Agricultural and Biological Sciences Novel Research in Microbiology Journal Pub Date : 2020-08-01 DOI:10.21608/nrmj.2020.107540

Rabaa Yaseen, Ahmed I. S. Ahmed, A. Mohamed, Mohamed K. M. Agha, T. M. Emam

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引用次数: 17

Abstract

At the global level, sustainable horticulture faces many challenges due to climate changes in addition to limitations in water and land resources. Nanotechnology is an innovate strategy for sustainable agricultural development. This eco-friendly technology is becoming vital in modern agricultural practices, due to its role in improving plants production, protection with environmental security, biological supportability and financial steadiness. Production of nano-fertilizers is considered as the most important alternative to the conventional fertilizers and pesticides, due to their potential roles in crop production, reducing the use of chemical fertilizers and mitigating the adverse impacts in soil. The aims of the current study were to highlight nanotechnology in terms of several important definitions including; nano-fertilization, biosynthesis of nano-fertilizers and the use of nanomaterial as an alternative to the traditional mineral fertilizers. This is in addition to the control of nutrient release in the soil, nanoparticles (NPs) role in enhancing the bio-agent activity, and the fate of nanomaterials in plants with respect to the toxicological data of any nano-product.

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纳米肥料:生物制造、应用和生物安全

在全球一级，由于气候变化以及水和土地资源的限制，可持续园艺还面临许多挑战。纳米技术是农业可持续发展的创新战略。这种环保技术在现代农业实践中变得至关重要，因为它在改善植物生产、保护环境安全、生物支持性和财政稳定性方面发挥着作用。纳米肥料的生产被认为是传统肥料和农药的最重要替代品，因为它们在作物生产、减少化肥使用和减轻对土壤的不利影响方面具有潜在作用。当前研究的目的是从几个重要的定义来强调纳米技术，包括：；纳米肥料、纳米肥料的生物合成以及纳米材料作为传统矿物肥料的替代品的使用。除了控制土壤中的养分释放、纳米颗粒（NP）在增强生物制剂活性中的作用以及纳米材料在植物中的命运外，还涉及任何纳米产品的毒理学数据。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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