Impact of nanopesticide CuO-NPs and nanofertilizer CeO2-NPs on wheat Triticum aestivum under global warming scenarios

Xu, Xueqing; Qiu, Hao; Gestel, C.A.M. van; Gong, Bing; He, Erkai

doi:10.1016/j.chemosphere.2023.138576

Cited by 7 publications

(1 citation statement)

References 64 publications

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“…Similar to organic molecules, some nanomaterials, such as ZnO, CuO, Ag, and carbon dots, are able to scavenge ROS produced by plants under stress conditions and mitigate the inhibition of photosynthesis and damage to other cellular organelles by ROS. − Nanomaterials mitigation of plant abiotic stress is a dynamic process. Exogenous application of CeO 2 NPs first eliminates accumulated ROS and protects the photosynthetic system .…”

Section: The Role Of Nanoenabled Strategies In Exogenous Application ...mentioning

confidence: 99%

Nanoenabled Enhancement of Plant Tolerance to Heat and Drought Stress on Molecular Response

Zhao,

Wu,

Amde

et al. 2023

J. Agric. Food Chem.

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Section: The Role Of Nanoenabled Strategies In Exogenous Application ...mentioning

confidence: 99%

Nanoenabled Enhancement of Plant Tolerance to Heat and Drought Stress on Molecular Response

Zhao,

Wu,

Amde

et al. 2023

J. Agric. Food Chem.

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A comprehensive review on mitigating abiotic stresses in plants by metallic nanomaterials: prospects and concerns

Rajpal

Prakash

Mehta

et al. 2023

Clean Techn Environ Policy

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Can nanotechnology and genomics innovations trigger agricultural revolution and sustainable development?

Javaid,

Hameed,

et al. 2024

Funct Integr Genomics

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At the dawn of new millennium, policy makers and researchers focused on sustainable agricultural growth, aiming for food security and enhanced food quality. Several emerging scientific innovations hold the promise to meet the future challenges. Nanotechnology presents a promising avenue to tackle the diverse challenges in agriculture. By leveraging nanomaterials, including nano fertilizers, pesticides, and sensors, it provides targeted delivery methods, enhancing efficacy in both crop production and protection. This integration of nanotechnology with agriculture introduces innovations like disease diagnostics, improved nutrient uptake in plants, and advanced delivery systems for agrochemicals. These precision-based approaches not only optimize resource utilization but also reduce environmental impact, aligning well with sustainability objectives. Concurrently, genetic innovations, including genome editing and advanced breeding techniques, enable the development of crops with improved yield, resilience, and nutritional content. The emergence of precision gene-editing technologies, exemplified by CRISPR/Cas9, can transform the realm of genetic modification and enabled precise manipulation of plant genomes while avoiding the incorporation of external DNAs. Integration of nanotechnology and genetic innovations in agriculture presents a transformative approach. Leveraging nanoparticles for targeted genetic modifications, nanosensors for early plant health monitoring, and precision nanomaterials for controlled delivery of inputs offers a sustainable pathway towards enhanced crop productivity, resource efficiency, and food safety throughout the agricultural lifecycle. This comprehensive review outlines the pivotal role of nanotechnology in precision agriculture, emphasizing soil health improvement, stress resilience against biotic and abiotic factors, environmental sustainability, and genetic engineering.

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Impact of nanopesticide CuO-NPs and nanofertilizer CeO2-NPs on wheat Triticum aestivum under global warming scenarios

Cited by 7 publications

References 64 publications

Nanoenabled Enhancement of Plant Tolerance to Heat and Drought Stress on Molecular Response

Nanoenabled Enhancement of Plant Tolerance to Heat and Drought Stress on Molecular Response

A comprehensive review on mitigating abiotic stresses in plants by metallic nanomaterials: prospects and concerns

Can nanotechnology and genomics innovations trigger agricultural revolution and sustainable development?

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