用于作物保护和可持续农业的纳米颗粒的抗菌功效。

0 MATERIALS SCIENCE, MULTIDISCIPLINARY
Pallavi Jali, Srinivas Acharya, Gyanranjan Mahalik
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引用次数: 0

摘要

植物病害在全球范围内造成了巨大的作物损失,是制约农业产量的主要因素。纳米技术有可能彻底改变科学、创新、药物和农业等众多领域。纳米技术可用于防治植物传染性病害,纳米材料可作为农药、宿主防御等动态元素向病原体的传输工具。利用纳米传感器,对疾病的分析和病原体的发现可能会变得更加精确和快速。随着全球对食品生产的需求不断增长,纳米技术可以通过减少化学投入和提高病原体的快速识别能力,合理地缓解疾病管理方面的诸多挑战。本综述的主要目标是利用纳米颗粒补充剂提高生长和生产率。(即金属、金属氧化物和碳)来治疗作物疾病,并使农业实践更具生产力和可持续性。值得注意的是,作物的改良不仅与病原微生物的减少有关,还可能增加纳米粒子本身的营养益处,特别是对产生宿主抗性非常重要的微量营养素。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Antimicrobial efficacy of nano-particles for crop protection and sustainable agriculture.

Plant diseases cause colossal crop loss worldwide and are the major yield constraining component in agriculture. Nanotechnology, which has the possible to revolutionize numerous fields of science, innovation, drug, and agriculture. Nanotechnology can be utilized for combating the plant infectious diseases and nano-materials can be utilized as transporter of dynamic elements of pesticides, host defense etc. to the pathogens. The analysis of diseases, finding of pathogens may turn out to be substantially more precise and fast with the utilization of nanosensors. As worldwide demand for food production raises against an evolving atmosphere, nanotechnology could reasonably alleviate numerous challenges in disease managing by diminishing chemical inputs and advancing quick recognition of pathogens. The major goal of this review is to increase growth and productivity using supplements with nanoparticles. (i.e., metals, metal oxides, and carbon) to treat crop diseases and make agricultural practices more productive and sustainable. Prominently, this improved crop may not only be straight connected to the diminished occurrence of pathogenic microorganisms, yet in might possibly add nutritional benefits of the nanoparticles themselves, particularly for the micronutrients important for generating host resistance.

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