Biofabricated nanomaterials in sustainable agriculture: insights, challenges and prospects.

IF 8.2 2区 医学 Q1 ENGINEERING, BIOMEDICAL Biofabrication Pub Date : 2024-08-05 DOI:10.1088/1758-5090/ad60f7
Pratikhya Mohanty, Puneet Kumar Singh, Basundhara Lenka, Tapan K Adhya, Suresh K Verma, Zobia Ayreen, Shilpita Patro, Biplab Sarkar, Ranjan K Mohapatra, Snehasish Mishra
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Abstract

One ever-evolving and ever-demanding critical human endeavour is the provision of food security for the growing world population. This can be done by adopting sustainable agriculture through horizontal (expanding the arable land area) and vertical (intensifying agriculture through sound technological approaches) interventions. Customized formulated nanomaterials have numerous advantages. With their specialized physico-chemical properties, some nanoparticulated materials improve the plant's natural development and stress tolerance and some others are good nanocarriers. Nanocarriers in agriculture often coat chemicals to form composites having utilities with crop productivity enhancement abilities, environmental management (such as ecotoxicity reduction ability) and biomedicines (such as the ability to control and target the release of useful nanoscale drugs). Ag, Fe, Zn, TiO2, ZnO, SiO2and MgO nanoparticles (NPs), often employed in advanced agriculture, are covered here. Some NPs used for various extended purposes in modern farming practices, including disease diagnostics and seed treatment are also covered. Thus, nanotechnology has revolutionized agrotechnology, which holds promise to transform agricultural (ecosystems as a whole to ensure food security in the future. Considering the available literature, this article further probes the emergent regulatory issues governing the synthesis and use of nanomaterials in the agriculture sector. If applied responsibly, nanomaterials could help improve soil health. This article provides an overview of the nanomaterials used in the distribution of biomolecules, to aid in devising a safer and eco-friendly sustainable agriculture strategy. Through this, agri-systems that depend on advanced farming practices might function more effectively and enhance agri-productivity to meet the food demand of the rising world population.

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可持续农业中的生物纳米材料:见解、挑战和前景。
为不断增长的世界人口提供粮食安全是人类不断发展和不断需要的一项重要工作。这可以通过横向(扩大可耕土地面积)和纵向(通过合理的技术方法强化农业)干预措施,采用可持续农业来实现。定制配方纳米材料具有众多优势。一些纳米颗粒化材料具有特殊的物理化学特性,可改善植物的自然生长和抗逆性,另一些则是良好的纳米载体。农业中的纳米载体通常包裹化学物质形成复合材料,具有提高作物产量、环境管理(如降低生态毒性)和生物医药(如控制和定向释放有用的纳米级药物)的功能。本文介绍了先进农业中经常使用的 Ag、Fe、Zn、TiO2、ZnO、SiO2 和 MgO 纳米粒子。此外,还介绍了在现代农业实践中用于各种扩展用途的纳米粒子,包括疾病诊断和种子处理。因此,纳米技术已经彻底改变了农业技术,有望改变整个农业(生态)系统,确保未来的粮食安全。考虑到现有文献,文章进一步探讨了农业部门在合成和使用纳米材料方面出现的监管问题。如果负责任地使用,纳米材料有助于改善土壤健康。文章概述了在生物分子分布中使用的纳米材料,以帮助制定更安全、更环保的可持续农业战略。这样,依靠先进耕作方法的农业系统可以更有效地运作,提高农业生产率,以满足不断增长的世界人口对粮食的需求。
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来源期刊
Biofabrication
Biofabrication ENGINEERING, BIOMEDICAL-MATERIALS SCIENCE, BIOMATERIALS
CiteScore
17.40
自引率
3.30%
发文量
118
审稿时长
2 months
期刊介绍: Biofabrication is dedicated to advancing cutting-edge research on the utilization of cells, proteins, biological materials, and biomaterials as fundamental components for the construction of biological systems and/or therapeutic products. Additionally, it proudly serves as the official journal of the International Society for Biofabrication (ISBF).
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