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Nanofarming: Promising Solutions for the Future of the Global Agricultural Industry
The agricultural sector is a vital source of human well-being that provides the necessities of daily life. A variety of farming systems are utilized in agriculture, such as a wide range of tillage options, no-till, agroforestry, precision farming, organic farming, cover cropping, crop rotations, etc...
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| Published in: | Agronomy (Basel) 2023-06, Vol.13 (6), p.1600 |
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| creator | El-Ramady, Hassan Abdalla, Neama Sári, Daniella Ferroudj, Aya Muthu, Arjun Prokisch, József Fawzy, Zakaria F. Brevik, Eric C. Solberg, Svein Ø. |
| description | The agricultural sector is a vital source of human well-being that provides the necessities of daily life. A variety of farming systems are utilized in agriculture, such as a wide range of tillage options, no-till, agroforestry, precision farming, organic farming, cover cropping, crop rotations, etc. Each of these farming systems has unique challenges, and nanotechnology has successfully improved on many of them. Agricultural applications of nanotechnology include nanofertilizers, nanopesticides, nanosensors, nanobiotechnology, and nanoremediation. This study focuses on the application of nano-farming technologies to different farming systems. Suggested practices include nano improvement of soil quality, crop nano-protection under biotic stress, nanoremediation of polluted soil and water environments, nanomanagement of agro-wastes, nano-agrochemicals, nano-precision farming, and nanobiotechnology for modern farming. This review also addresses expected problems that may occur due to over application of nanomaterials to farming systems, such as nanopollution and nanotoxicity of agroecosystem compartments. Several dimensions are emphasized in this study, such as green energy, sustainable development, the circular bioeconomy, land biodegradation, pollution, and the one health approach, as essential for the global goals of sustainable development. Nanofarming presents both benefits and obstacles to human life. The exact balance between these benefits and challenges needs more study. |
| doi_str_mv | 10.3390/agronomy13061600 |
| format | article |
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This review also addresses expected problems that may occur due to over application of nanomaterials to farming systems, such as nanopollution and nanotoxicity of agroecosystem compartments. Several dimensions are emphasized in this study, such as green energy, sustainable development, the circular bioeconomy, land biodegradation, pollution, and the one health approach, as essential for the global goals of sustainable development. Nanofarming presents both benefits and obstacles to human life. 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A variety of farming systems are utilized in agriculture, such as a wide range of tillage options, no-till, agroforestry, precision farming, organic farming, cover cropping, crop rotations, etc. Each of these farming systems has unique challenges, and nanotechnology has successfully improved on many of them. Agricultural applications of nanotechnology include nanofertilizers, nanopesticides, nanosensors, nanobiotechnology, and nanoremediation. This study focuses on the application of nano-farming technologies to different farming systems. Suggested practices include nano improvement of soil quality, crop nano-protection under biotic stress, nanoremediation of polluted soil and water environments, nanomanagement of agro-wastes, nano-agrochemicals, nano-precision farming, and nanobiotechnology for modern farming. This review also addresses expected problems that may occur due to over application of nanomaterials to farming systems, such as nanopollution and nanotoxicity of agroecosystem compartments. Several dimensions are emphasized in this study, such as green energy, sustainable development, the circular bioeconomy, land biodegradation, pollution, and the one health approach, as essential for the global goals of sustainable development. Nanofarming presents both benefits and obstacles to human life. The exact balance between these benefits and challenges needs more study.</description><subject>Agricultural ecosystems</subject><subject>Agricultural industry</subject><subject>Agricultural practices</subject><subject>Agricultural technology</subject><subject>Agricultural wastes</subject><subject>Agriculture</subject><subject>Agrochemicals</subject><subject>Agroforestry</subject><subject>Animals</subject><subject>Biodegradation</subject><subject>Clean energy</subject><subject>Climate change</subject><subject>Cover crops</subject><subject>Crop rotation</subject><subject>Cropping systems</subject><subject>Crops</subject><subject>Environmental impact</subject><subject>Farming</subject><subject>Farming systems</subject><subject>Food</subject><subject>Genetically altered foods</subject><subject>Green development</subject><subject>Green energy</subject><subject>Green technology</subject><subject>Land 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| subjects | Agricultural ecosystems Agricultural industry Agricultural practices Agricultural technology Agricultural wastes Agriculture Agrochemicals Agroforestry Animals Biodegradation Clean energy Climate change Cover crops Crop rotation Cropping systems Crops Environmental impact Farming Farming systems Food Genetically altered foods Green development Green energy Green technology Land pollution Livestock nano-priming Nanomaterials nanopesticides nanopollution nanoremediation Nanosensors Nanotechnology nanotoxicology No-tillage Organic farming Plant growth Plant protection Precision farming Raw materials Soil contamination Soil environment Soil improvement Soil pollution Soil quality Soil stresses Soil water Soils Sustainable agriculture Sustainable development Tillage Water pollution Water shortages |
| title | Nanofarming: Promising Solutions for the Future of the Global Agricultural Industry |
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