纳米技术在精准农业中的新兴前沿:进步、障碍和前景

Anurag Yadav, K. Yadav, R. Ahmad, K. Abd-Elsalam
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引用次数: 5

摘要

这篇综述文章提供了一个广泛的概述纳米技术在精准农业的新兴前沿,突出了最近的进展,障碍和前景。纳米技术在这一领域的好处包括开发先进的纳米材料,用于增强种子发芽和微量营养素供应,以及减轻生物和非生物胁迫。此外,基于纳米技术的肥料和农药可以以较低剂量交付,从而减少了对环境的影响和对人类健康的危害。另一个显著的优势在于引进尖端的纳米诊断系统和纳米生物传感器,监测土壤质量参数、植物病害和胁迫,所有这些都对精准农业至关重要。此外,该技术在减少农业废弃物、合成高价值产品以及使用标记、监测和跟踪农产品的方法和设备方面已显示出潜力。除了这些发展,云计算和基于智能手机的生物传感器已经成为重要的数据收集和分析工具。最后,这篇综述深入探讨了纳米技术在农业中的经济、法律、社会和风险影响,为了广泛采用这项技术,必须彻底研究这些影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Emerging Frontiers in Nanotechnology for Precision Agriculture: Advancements, Hurdles and Prospects
This review article provides an extensive overview of the emerging frontiers of nanotechnology in precision agriculture, highlighting recent advancements, hurdles, and prospects. The benefits of nanotechnology in this field include the development of advanced nanomaterials for enhanced seed germination and micronutrient supply, along with the alleviation of biotic and abiotic stress. Further, nanotechnology-based fertilizers and pesticides can be delivered in lower dosages, which reduces environmental impacts and human health hazards. Another significant advantage lies in introducing cutting-edge nanodiagnostic systems and nanobiosensors that monitor soil quality parameters, plant diseases, and stress, all of which are critical for precision agriculture. Additionally, this technology has demonstrated potential in reducing agro-waste, synthesizing high-value products, and using methods and devices for tagging, monitoring, and tracking agroproducts. Alongside these developments, cloud computing and smartphone-based biosensors have emerged as crucial data collection and analysis tools. Finally, this review delves into the economic, legal, social, and risk implications of nanotechnology in agriculture, which must be thoroughly examined for the technology’s widespread adoption.
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