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

Yadav, Anurag; Yadav, Kusum; Ahmad, Rumana; Abd-Elsalam, Kamel A.

doi:10.3390/agrochemicals2020016

Cited by 39 publications

(14 citation statements)

References 249 publications

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“…Additionally, the application of nanomaterials, such as TiO 2 and carbon-based nanoparticles, has shown remarkable effectiveness in adsorbing and transforming pollutants, mitigating the adverse effects of agricultural activities on soil health . Furthermore, nanoscale delivery systems, including nanocarriers and nanosensors, have paved the way for precision agriculture for pollutant management . These nanodevices enable the targeted delivery of remediation agents and real-time monitoring of soil conditions, providing a proactive and sustainable approach to agricultural soil remediation.…”

Section: Remediation Of Heavy Metals Using Nanotechnologymentioning

confidence: 99%

“… 100 Furthermore, nanoscale delivery systems, including nanocarriers and nanosensors, have paved the way for precision agriculture for pollutant management. 101 These nanodevices enable the targeted delivery of remediation agents and real-time monitoring of soil conditions, providing a proactive and sustainable approach to agricultural soil remediation. Despite these promising prospects, it is essential to carefully assess the potential risks associated with the deployment of nanomaterials in agricultural settings.…”

Section: Remediation Of Heavy Metals Using Nanotechnologymentioning

confidence: 99%

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Nanotechnology Approaches for the Remediation of Agricultural Polluted Soils

Dhanapal,

Thiruvengadam,

Vairavanathan

et al. 2024

ACS Omega

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Soil pollution from various anthropogenic and natural activities poses a significant threat to the environment and human health. This study explored the sources and types of soil pollution and emphasized the need for innovative remediation approaches. Nanotechnology, including the use of nanoparticles, is a promising approach for remediation. Diverse types of nanomaterials, including nanobiosorbents and nanobiosurfactants, have shown great potential in soil remediation processes. Nanotechnology approaches to soil pollution remediation are multifaceted. Reduction reactions and immobilization techniques demonstrate the versatility of nanomaterials in mitigating soil pollution. Nanomicrobial-based bioremediation further enhances the efficiency of pollutant degradation in agricultural soils. A literature-based screening was conducted using different search engines, including PubMed, Web of Science, and Google Scholar, from 2010 to 2023. Keywords such as "soil pollution, nanotechnology, nanoremediation, heavy metal remediation, soil remediation" and combinations of these were used. The remediation of heavy metals using nanotechnology has demonstrated promising results and offers an eco-friendly and sustainable solution to address this critical issue. Nanobioremediation is a robust strategy for combatting organic contamination in soils, including pesticides and herbicides. The use of nanophytoremediation, in which nanomaterials assist plants in extracting and detoxifying pollutants, represents a cuttingedge and environmentally friendly approach for tackling soil pollution.

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Section: Remediation Of Heavy Metals Using Nanotechnologymentioning

confidence: 99%

Section: Remediation Of Heavy Metals Using Nanotechnologymentioning

confidence: 99%

Nanotechnology Approaches for the Remediation of Agricultural Polluted Soils

Dhanapal,

Thiruvengadam,

Vairavanathan

et al. 2024

ACS Omega

View full text Add to dashboard Cite

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“…Previously created nanoparticles with unique nanoscale properties could represent a significant advance in identifying the presence of contaminants and pathogens [15]. Lab-on-a-chip devices for monitoring micronutrients in water used for irrigation, identifying poisoning in waterways, and regulating the nutritional value of food are also being developed as a result of nanotechnology [22,23]. The scientific discipline of nano-phytopathology uses nanotechnology in the early phases of disease detection, diagnosis, and management in plants.…”

Section: Diagnosis Of Phytopathogensmentioning

confidence: 99%

Detection of Phytopathogens in Agricultural Crops Using Nanodiagnostic Techniques

Enespa,

Chandra

2024

Challenges in Plant Disease Detection and Recent Advancements

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One of the main things restricting yields of crops is diseases that affect plants. Which continue to be the major agricultural threat in the globe and drastically reduce yields of crops internationally, creating serious issues for the availability of food. Despite the fact that chemical-based medication persists as the main tactic for lowering the incidence of agricultural ailments, their frequent usage can make the microorganisms less likely to spread. Consequently, effective screening techniques for the immediate detection of plant-borne pathogens in the initial phases of infection have becoming vital to preserving sustainable farming and adequate nutrition. Quantum dots (QDs), nanoparticles, and nanotechnology have become crucial instruments for the rapid and highly accurate assessment of a specific biochemical marker. Tools including such as biosensors, QDs, nanostructured platforms, nanoimaging, and nanopore DNA sequencing have an opportunity to enhance infection detection’s accuracy, precision, and efficiency. They can also make rapid analysis easier and be utilized for crop protection and high-quality monitoring. Additionally, nanodiagnostic tool technology enables professionals to assist producers in avoiding the emergence of pandemics by swiftly and simply identifying potentially hazardous pathogenic organisms in crops.

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“…The potential of nanotechnology in the field of environmental sustainability has been captured by its application to biochar. Nanomaterials (NMs), which are central to nanotechnology, exhibit unique attributes, such as large surface areas, superior cation exchangeability, and heightened ion absorption capabilities [82]. Nanocomposite biochars have gained attention by leveraging nanotechnology to introduce nanoparticles into the biochar matrix, such as metal oxides or bio-based nano-compounds.…”

Section: Nanotechnology and Its Role In Enhancing P Adsorptionmentioning

confidence: 99%

Advancements in Biochar Modification for Enhanced Phosphorus Utilization in Agriculture

Ahmed,

Deng,

Wang

et al. 2024

Land

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The role of modified biochar in enhancing phosphorus (P) availability is gaining attention as an environmentally friendly approach to address soil P deficiency, a global agricultural challenge. Traditional phosphatic fertilizers, while essential for crop yield, are costly and environmentally detrimental owing to P fixation and leaching. Modified biochar presents a promising alternative with improved properties such as increased porosity, surface area, and cation exchange capacity. This review delves into the variability of biochar properties based on source and production methods and how these can be optimized for effective P adsorption. By adjusting properties such as pH levels and functional groups to align with the phosphate’s zero point of charge, we enhance biochar’s ability to adsorb and retain P, thereby increasing its bioavailability to plants. The integration of nanotechnology and advanced characterization techniques aids in understanding the structural nuances of biochar and its interactions with phosphorus. This approach offers multiple benefits: it enables farmers to use phosphorus more efficiently, reducing the need for traditional fertilizers and thereby minimizing environmental impacts, such as greenhouse gas emissions and P leaching. This review also identifies existing research gaps and future opportunities for further biochar modifications. These findings emphasize the significant potential of modified biochar in sustainable agriculture.

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

Cited by 39 publications

References 249 publications

Nanotechnology Approaches for the Remediation of Agricultural Polluted Soils

Nanotechnology Approaches for the Remediation of Agricultural Polluted Soils

Detection of Phytopathogens in Agricultural Crops Using Nanodiagnostic Techniques

Advancements in Biochar Modification for Enhanced Phosphorus Utilization in Agriculture

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