The challenge of nanotechnology in the field of agricultural applications: Nanofertilizers as an emerging technology

Ana Henriquez-Alegría; David Asmat-Campos

doi:10.18687/laccei2023.1.1.640

0

Article ? AI-assigned paper type based on the abstract. Classification may not be perfect — flag errors using the feedback button. Tier 2 ? Original research — experimental, observational, or case-control study. Direct primary evidence. Environmental Sources Sign in to save

The challenge of nanotechnology in the field of agricultural applications: Nanofertilizers as an emerging technology

2023 Score: 30 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Ana Henriquez-Alegría, David Asmat-Campos

Summary

This systematic review covers the development and applications of nanofertilizers — nano-scale nutrient delivery systems for agriculture — as an emerging and more efficient alternative to conventional fertilizers. Precision agriculture using nanotechnology could reduce the reliance on plastic-coated slow-release fertilizers that contribute microplastics to soil.

En los últimos años, el desafío constante de encontrar alternativas rentables y sostenibles se ha vuelto una tarea difícil para todos los investigadores a nivel mundial. Si bien es cierto, los avances científicos han sido ricos dentro de la esta rama de la química verde; sin embargo, aún existen metodologías por perfeccionar. La presente revisión sistemática se elaboró con relación a la nanotecnología y su aplicación en campo agrícola como nanofertilizantes; con el objetivo de aportar a la comunidad, en materia de estado del arte, con los últimos avances científicos de la aplicación de nanopartículas (NPs) como nuevas tecnologías emergentes, a favor del desarrollo fenológico de las plantas y/o cultivos. Esta investigación se pudo desarrollar a partir del análisis de artículos de investigación, empleando la metodología PRISMA, con la que se logró recolectar alrededor de 200 artículos; de los cuales, considerando diversos criterios de inclusión y exclusión, entre lo principal, aquellos artículos publicados entre los años 2019 y 2022, fueron seleccionados 50 artículos indexados y de Q1. Cada uno de estos, fueron recopilados en matrices de registro, características y categorías; gracias a ello se pudo determinar que 48% fueron publicados en el año 2022; seguidos de 32% encontrados en el año 2021, lo que señala que la nanotecnología seguirá avanzando a lo largo de los años. De igual forma, en la matriz de categoría se consideraron diversos métodos para la mejora de la agricultura. Finalmente se determinó que, si bien los nanofertilizantes como tecnologías emergentes aportan en gran porcentaje en el desarrollo estructural de las características fenológicas de la planta, existen efectos secundarios; por lo que es importante tener en cuenta antecedentes, para así lograr la incorporación de esta nueva tecnología verde en el desarrollo agroindustrial.

Read via DOI Download PDF

Sign in to start a discussion.

More Papers Like This

Article Tier 2

Emerging Frontiers in Nanotechnology for Precision Agriculture: Advancements, Hurdles and Prospects

This review explores how nanotechnology is being used in precision agriculture, from nano-based fertilizers and pesticides to tiny sensors that monitor soil quality and plant health. While promising for reducing chemical use in farming, the paper notes that the environmental, health, and safety risks of nanomaterials -- similar to concerns about nanoplastics -- need thorough evaluation before widespread adoption.

Article Tier 2

Comparative Study on the Use of Traditional, Conventional and Advanced Methodologies for Sustainable Agriculture – a Review

Not relevant to microplastics — this is a review comparing traditional, conventional, and nano-technology-based fertilisation methods in agriculture.

Article Tier 2

Nanofertilizers and Stress Management: Emerging Opportunities for Climate-resilient Farming

This review examines advances in nanofertilizer technology for sustainable agriculture, covering macro-, micro-, bio-, and smart nanofertilizers with controlled-release capabilities. Researchers found that nanoscale nutrient delivery systems can improve crop resilience to environmental stresses while reducing fertilizer waste. The study discusses emerging opportunities for climate-resilient farming through precision nutrient management at the nanoscale.

Article Tier 2

Nanofarming: Promising Solutions for the Future of the Global Agricultural Industry

This review covers how nanotechnology is being applied to improve agriculture through nanofertilizers, nanopesticides, and nanosensors that can boost crop yields while reducing environmental impact. While not directly about microplastics, the research is relevant because nano-based agricultural solutions could reduce reliance on plastic-intensive farming practices like plastic mulch films. Smarter farming technology may help decrease the amount of plastic entering agricultural soils.

Article Tier 2

A Review on Crop Responses to Nanofertilizers for Mitigation of Multiple Environmental Stresses

This review examines how nanoscale fertilizers can help crops survive environmental stresses like drought, salt, and pollution by improving nutrient delivery at the cellular level. While focused on agricultural benefits, the research is relevant to microplastics because nanofertilizers may help plants cope with microplastic-contaminated soil. However, the authors caution that widespread use of nanoparticles in farming raises its own questions about potential effects on the environment and human health.

View more similar papers →

Share this paper

Post Share Share Pin Email