Nanobiotechnology in crop stress management: an overview of novel applications

Agricultural crops are subject to a variety of biotic and abiotic stresses that adversely affect growth and reduce the yield of crop plantss. Traditional crop stress management approaches are not capable of fulfilling the food demand of the human population which is projected to reach 10 billion by...

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Published in	Discover nano Vol. 18; no. 1; p. 74
Main Authors	Nawaz, Ahmad, Rehman, Hafeez ur, Usman, Muhammad, Wakeel, Abdul, Shahid, Muhammad Shafiq, Alam, Sardar, Sanaullah, Muhammad, Atiq, Muhammad, Farooq, Muhammad
Format	Journal Article
Language	English
Published	New York Springer US 15.05.2023 Springer Nature B.V Springer
Subjects	Abiotic factors Abiotic stress Agricultural production agricultural productivity Barriers Biotic factors Chemical synthesis Chemistry and Materials Science Crop management Crop yield Crops Defense mechanisms Farming systems Gene expression Genes human population Human populations Insect pests Materials Science Molecular Medicine Molecular modelling Nanobiotechnology Nanochemistry Nanoparticles Nanoscale Science and Technology Nanotechnology Nanotechnology and Microengineering Optimization Photosynthesis Plant diseases Plant growth Plant resistance Plant stresses Plants (botany) Review stress management Stresses Plant stresses Biotic factors Nanoparticles Plant diseases Abiotic factors Insect pests Nanobiotechnology
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Abstract	Agricultural crops are subject to a variety of biotic and abiotic stresses that adversely affect growth and reduce the yield of crop plantss. Traditional crop stress management approaches are not capable of fulfilling the food demand of the human population which is projected to reach 10 billion by 2050. Nanobiotechnology is the application of nanotechnology in biological fields and has emerged as a sustainable approach to enhancing agricultural productivity by alleviating various plant stresses. This article reviews innovations in nanobiotechnology and its role in promoting plant growth and enhancing plant resistance/tolerance against biotic and abiotic stresses and the underlying mechanisms. Nanoparticles, synthesized through various approaches (physical, chemical and biological), induce plant resistance against these stresses by strengthening the physical barriers, improving plant photosynthesis and activating plant defense mechanisms. The nanoparticles can also upregulate the expression of stress-related genes by increasing anti-stress compounds and activating the expression of defense-related genes. The unique physico-chemical characteristics of nanoparticles enhance biochemical activity and effectiveness to cause diverse impacts on plants. Molecular mechanisms of nanobiotechnology-induced tolerance to abiotic and biotic stresses have also been highlighted. Further research is needed on efficient synthesis methods, optimization of nanoparticle dosages, application techniques and integration with other technologies, and a better understanding of their fate in agricultural systems.
AbstractList	Agricultural crops are subject to a variety of biotic and abiotic stresses that adversely affect growth and reduce the yield of crop plantss. Traditional crop stress management approaches are not capable of fulfilling the food demand of the human population which is projected to reach 10 billion by 2050. Nanobiotechnology is the application of nanotechnology in biological fields and has emerged as a sustainable approach to enhancing agricultural productivity by alleviating various plant stresses. This article reviews innovations in nanobiotechnology and its role in promoting plant growth and enhancing plant resistance/tolerance against biotic and abiotic stresses and the underlying mechanisms. Nanoparticles, synthesized through various approaches (physical, chemical and biological), induce plant resistance against these stresses by strengthening the physical barriers, improving plant photosynthesis and activating plant defense mechanisms. The nanoparticles can also upregulate the expression of stress-related genes by increasing anti-stress compounds and activating the expression of defense-related genes. The unique physico-chemical characteristics of nanoparticles enhance biochemical activity and effectiveness to cause diverse impacts on plants. Molecular mechanisms of nanobiotechnology-induced tolerance to abiotic and biotic stresses have also been highlighted. Further research is needed on efficient synthesis methods, optimization of nanoparticle dosages, application techniques and integration with other technologies, and a better understanding of their fate in agricultural systems. Agricultural crops are subject to a variety of biotic and abiotic stresses that adversely affect growth and reduce the yield of crop plantss. Traditional crop stress management approaches are not capable of fulfilling the food demand of the human population which is projected to reach 10 billion by 2050. Nanobiotechnology is the application of nanotechnology in biological fields and has emerged as a sustainable approach to enhancing agricultural productivity by alleviating various plant stresses. This article reviews innovations in nanobiotechnology and its role in promoting plant growth and enhancing plant resistance/tolerance against biotic and abiotic stresses and the underlying mechanisms. Nanoparticles, synthesized through various approaches (physical, chemical and biological), induce plant resistance against these stresses by strengthening the physical barriers, improving plant photosynthesis and activating plant defense mechanisms. The nanoparticles can also upregulate the expression of stress-related genes by increasing anti-stress compounds and activating the expression of defense-related genes. The unique physico-chemical characteristics of nanoparticles enhance biochemical activity and effectiveness to cause diverse impacts on plants. Molecular mechanisms of nanobiotechnology-induced tolerance to abiotic and biotic stresses have also been highlighted. Further research is needed on efficient synthesis methods, optimization of nanoparticle dosages, application techniques and integration with other technologies, and a better understanding of their fate in agricultural systems.Agricultural crops are subject to a variety of biotic and abiotic stresses that adversely affect growth and reduce the yield of crop plantss. Traditional crop stress management approaches are not capable of fulfilling the food demand of the human population which is projected to reach 10 billion by 2050. Nanobiotechnology is the application of nanotechnology in biological fields and has emerged as a sustainable approach to enhancing agricultural productivity by alleviating various plant stresses. This article reviews innovations in nanobiotechnology and its role in promoting plant growth and enhancing plant resistance/tolerance against biotic and abiotic stresses and the underlying mechanisms. Nanoparticles, synthesized through various approaches (physical, chemical and biological), induce plant resistance against these stresses by strengthening the physical barriers, improving plant photosynthesis and activating plant defense mechanisms. The nanoparticles can also upregulate the expression of stress-related genes by increasing anti-stress compounds and activating the expression of defense-related genes. The unique physico-chemical characteristics of nanoparticles enhance biochemical activity and effectiveness to cause diverse impacts on plants. Molecular mechanisms of nanobiotechnology-induced tolerance to abiotic and biotic stresses have also been highlighted. Further research is needed on efficient synthesis methods, optimization of nanoparticle dosages, application techniques and integration with other technologies, and a better understanding of their fate in agricultural systems. Abstract Agricultural crops are subject to a variety of biotic and abiotic stresses that adversely affect growth and reduce the yield of crop plantss. Traditional crop stress management approaches are not capable of fulfilling the food demand of the human population which is projected to reach 10 billion by 2050. Nanobiotechnology is the application of nanotechnology in biological fields and has emerged as a sustainable approach to enhancing agricultural productivity by alleviating various plant stresses. This article reviews innovations in nanobiotechnology and its role in promoting plant growth and enhancing plant resistance/tolerance against biotic and abiotic stresses and the underlying mechanisms. Nanoparticles, synthesized through various approaches (physical, chemical and biological), induce plant resistance against these stresses by strengthening the physical barriers, improving plant photosynthesis and activating plant defense mechanisms. The nanoparticles can also upregulate the expression of stress-related genes by increasing anti-stress compounds and activating the expression of defense-related genes. The unique physico-chemical characteristics of nanoparticles enhance biochemical activity and effectiveness to cause diverse impacts on plants. Molecular mechanisms of nanobiotechnology-induced tolerance to abiotic and biotic stresses have also been highlighted. Further research is needed on efficient synthesis methods, optimization of nanoparticle dosages, application techniques and integration with other technologies, and a better understanding of their fate in agricultural systems.
ArticleNumber	74
Author	Sanaullah, Muhammad Atiq, Muhammad Nawaz, Ahmad Farooq, Muhammad Usman, Muhammad Shahid, Muhammad Shafiq Rehman, Hafeez ur Alam, Sardar Wakeel, Abdul
Author_xml	– sequence: 1 givenname: Ahmad surname: Nawaz fullname: Nawaz, Ahmad email: ahmad.nawaz1793@uaf.edu.pk organization: Department of Entomology, University of Agriculture – sequence: 2 givenname: Hafeez ur surname: Rehman fullname: Rehman, Hafeez ur organization: Department of Agronomy, University of Agriculture – sequence: 3 givenname: Muhammad surname: Usman fullname: Usman, Muhammad organization: PEIE Research Chair for the Development of Industrial Estates and Free Zones, Center for Environmental Studies and Research, Sultan Qaboos University – sequence: 4 givenname: Abdul surname: Wakeel fullname: Wakeel, Abdul organization: Institute of Soil and Environmental Sciences, University of Agriculture – sequence: 5 givenname: Muhammad Shafiq surname: Shahid fullname: Shahid, Muhammad Shafiq organization: Department of Plant Sciences, College of Agricultural and Marine Sciences, Sultan Qaboos University – sequence: 6 givenname: Sardar surname: Alam fullname: Alam, Sardar organization: Department of Agronomy, University of Agriculture – sequence: 7 givenname: Muhammad surname: Sanaullah fullname: Sanaullah, Muhammad organization: Institute of Soil and Environmental Sciences, University of Agriculture – sequence: 8 givenname: Muhammad surname: Atiq fullname: Atiq, Muhammad organization: Department of Plant Pathology, University of Agriculture – sequence: 9 givenname: Muhammad surname: Farooq fullname: Farooq, Muhammad email: farooqcp@squ.edu.om organization: Department of Plant Sciences, College of Agricultural and Marine Sciences, Sultan Qaboos University
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/37382723$$D View this record in MEDLINE/PubMed
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Keywords	Plant stresses Biotic factors Nanoparticles Plant diseases Abiotic factors Insect pests Nanobiotechnology
Language	English
License	2023. Crown. Open AccessThis article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if changes were made. The images or other third party material in this article are included in the article's Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article's Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http://creativecommons.org/licenses/by/4.0/.
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PublicationDate	2023-05-15
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PublicationTitle	Discover nano
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Publisher	Springer US Springer Nature B.V Springer
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Snippet	Agricultural crops are subject to a variety of biotic and abiotic stresses that adversely affect growth and reduce the yield of crop plantss. Traditional crop... Abstract Agricultural crops are subject to a variety of biotic and abiotic stresses that adversely affect growth and reduce the yield of crop plantss....
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SubjectTerms	Abiotic factors Abiotic stress Agricultural production agricultural productivity Barriers Biotic factors Chemical synthesis Chemistry and Materials Science Crop management Crop yield Crops Defense mechanisms Farming systems Gene expression Genes human population Human populations Insect pests Materials Science Molecular Medicine Molecular modelling Nanobiotechnology Nanochemistry Nanoparticles Nanoscale Science and Technology Nanotechnology Nanotechnology and Microengineering Optimization Photosynthesis Plant diseases Plant growth Plant resistance Plant stresses Plants (botany) Review stress management Stresses
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Title	Nanobiotechnology in crop stress management: an overview of novel applications
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