纳米肥料(NFs)提高养分利用效率(NUE):可持续农业战略

IF 6.4 2区 环境科学与生态学 Q1 ENVIRONMENTAL SCIENCES
Baveesh Pudhuvai, Bhupendra Koul, Rajib Das, Maulin P. Shah
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引用次数: 0

摘要

全世界的农业系统都依赖合成肥料来满足不断增长的人口对粮食生产的需求。几十年来,这些合成化学品的大量使用对环境造成了严重威胁,并降低了作物的养分吸收效率(NUE)。纳米载体可以调节养分释放动力学,延长养分在根瘤层和叶球层的可用性,从而提高养分吸收效率和作物营养。我们的综述深入探讨了纳米肥料(NFs)在促进可持续农业、各种宏量和微量营养元素肥料及配方和绿色合成方法方面的作用。我们进行了广泛而系统的文献综述,并通过科学网、Scopus、Google Scholar 和 CAB 摘要以及一些网站进行了计算机文献检索,确定了各部分的数据。在过去的十年中,已经开展了大量研究,将无机肥用于作物营养、开发、剂量和配方、改善净效率、影响作物抗逆性、提高经济可行性和环境可持续性以及促进安全性。与传统肥料相比,使用无营养型肥料产生了积极而显著的影响,涵盖了所有作物生产情况。无营养型肥料在作物从发芽到收获的整个生长阶段为作物提供了持续的营养,同时最大限度地减少了径流和沥滤液损失,改善了土壤性质。为了减少污染、环境危害和全球变暖,利用微生物和植物材料进行绿色合成的无机肥生产取得了一些进展。传统肥料存在一些主要限制,如动态化学形态,植物更难吸收,无法持续释放养分。无机肥是提高养分吸收率、作物产量和土壤生产力的最佳替代品。然而,合成方法涉及高能量和侵蚀性化学试剂。绿色合成 NFs 仍然是一种可持续、生态友好、经济可行、可靠和节能的方法,它使用微生物和植物提取物。然而,未来 NFs 在促进可持续发展方面的潜力有赖于揭示其局限性的毒理学研究,从而提供对使用 NFs 安全营养作物的透彻理解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Nano-Fertilizers (NFs) for Resurgence in Nutrient Use Efficiency (NUE): a Sustainable Agricultural Strategy

Agriculture systems worldwide rely on synthetic fertilizers to meet the food production demand of the burgeoning population. Over the decades, the abundant use of these synthetic chemicals has posed a significant threat to the environment and declined crop nutrient uptake efficiency (NUE). Nanocarriers can modulate nutrient release kinetics and extend their availability in the rhizosphere and phyllosphere, improving NUE and crop nutrition. Our review provides insights into the role of nano-fertilizers (NFs) in promoting sustainable agriculture, various macro- and micronutrient fertilizers and formulations and green synthesis methods. An extensive and systematic literature review was conducted, and the data under various sections has been identified using a computerized bibliographic search via the Web of Science, Scopus, Google Scholar and CAB abstracts, as well as several websites. Over the past decade, considerable research has been conducted employing the NFs for crop nutrition, development, doses and formulations, improving NUE, impacting crop stress resilience, improving economic viability and environmental sustainability and promoting safety. Use of NFs over conventional fertilizers has yielded a positive and significant impact, encompassing all crop production scenarios. NFs provided sustained nourishment to crops throughout the development phases, from germination to harvest, while minimizing the runoff and leachate losses and improving soil properties. Several advancements in the NFs production utilizing green synthesis methods involving microbes and plant materials are developed to reduce pollution, environmental hazards and global warming. Conventional fertilizers possess major constraints like dynamic chemical forms, which are more challenging for plants to absorb and do not provide sustained release of nutrients. NFs are the best alternatives to increase nutrient uptake, crop yield and soil productivity. However, the synthesis approaches involve high-energy and aggressive chemical reagents. The green synthesis of NFs remains the sustainable, eco-friendly, economically viable, reliable and energy-efficient approach which uses microbial and plant extracts. However, the future potential of NFs in promoting sustainability relies on toxicology research that reveals their limitations, offering a thorough understanding of safe crop nutrition with NFs.

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来源期刊
Current Pollution Reports
Current Pollution Reports Environmental Science-Water Science and Technology
CiteScore
12.10
自引率
1.40%
发文量
31
期刊介绍: Current Pollution Reports provides in-depth review articles contributed by international experts on the most significant developments in the field of environmental pollution.By presenting clear, insightful, balanced reviews that emphasize recently published papers of major importance, the journal elucidates current and emerging approaches to identification, characterization, treatment, management of pollutants and much more.
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