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End date: 2026Type: search.filters.itemtype.ReviewAuthor: search.filters.author.Kossalbayev, Bekzhan D.Author: search.filters.author.Huang, ZhiyongSubject: search.filters.subject.Biopesticides

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    Combating Phytopathogens by Integration of Metagenomics and Phototrophic Biotechnologies: Toward Sustainable Agricultural Practices
    (TAYLOR & FRANCIS INC, 2025) Sadvakasova, Assemgul K.; Kossalbayev, Bekzhan D.; Zaletova, Dilnaz; Bauenova, Meruyert O.; Huang, Zhiyong; Zharmukhamedov, Sergey K.; Shabala, Sergey; Allakhverdiev, Suleyman I.; Al-Farabi Kazakh National University; Satbayev University; Satbayev University; Akhmet Yassawi International Kazakh-Turkish University; Chinese Academy of Sciences; Tianjin Institute of Industrial Biotechnology, CAS; Russian Academy of Sciences; University of Western Australia; Timiryazev Institute of Plant Physiology; Bahcesehir University
    Rising global food demand amid climate change presents unprecedented challenges for modern agriculture. The spread of phytopathogens and the degradation of agroecosystems necessitate the development of innovative plant protection solutions. Traditional chemical pesticides are losing their effectiveness due to the emergence of resistant pathogens and their adverse environmental impacts, thereby intensifying interest in biological control methods. This study examines the integration of metagenomic analysis and phototrophic biotechnology as a promising approach to biocontrol. Metagenomics enables the precise identification of phytopathogens and beneficial microorganisms, laying the groundwork for the development of targeted biopesticides. Phototrophic microorganisms, including microalgae and cyanobacteria, exhibit antimicrobial properties and contribute to the restoration of soil ecosystems. The convergence of these technologies offers opportunities to form adaptive microbial consortia that ensure the long-term sustainability of agroecosystems. The paper discusses key challenges, including data processing complexities, the scalability of technologies, and regulatory barriers, and underscores the need for standardized methodologies and interdisciplinary collaboration. The integration of metagenomics and phototrophic biotechnology represents a promising direction for creating environmentally safe and sustainable agricultural production systems.
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    Combating Phytopathogens by Integration of Metagenomics and Phototrophic Biotechnologies: Toward Sustainable Agricultural Practices
    (Taylor and Francis Ltd., 2025) Sadvakasova, Asemgul K.; Kossalbayev, Bekzhan D.; Zaletova, Dilnaz E.; Bauenova, Meruyert O.; Huang, Zhiyong; Zharmukhamedov, Sergei K.; Shabala, Sergey Nikolayevich; Allakhverdiev, Suleyman I.; Sadvakasova, Asemgul K., Faculty of Biology and Biotechnology, Al Farabi Kazakh National University, Almaty, Kazakhstan; Kossalbayev, Bekzhan D., Department of Chemical and Biochemical Engineering, Satbayev University, Almaty, Kazakhstan, Ecology Research Institute, Khoja Akhmet Yassawi International Kazakh-Turkish University, Turkistan, Kazakhstan; Zaletova, Dilnaz E., Faculty of Biology and Biotechnology, Al Farabi Kazakh National University, Almaty, Kazakhstan; Bauenova, Meruyert O., Faculty of Biology and Biotechnology, Al Farabi Kazakh National University, Almaty, Kazakhstan; Huang, Zhiyong, Tianjin Institute of Industrial Biotechnology, Tianjin, China; Zharmukhamedov, Sergei K., Institute of Fundamental Problems of Biology of the Russian Academy of Sciences, Pushchino, Russian Federation; Shabala, Sergey Nikolayevich, School of Biological Sciences, The University of Western Australia, Perth, Australia; Allakhverdiev, Suleyman I., Institute of Fundamental Problems of Biology of the Russian Academy of Sciences, Pushchino, Russian Federation, Timiryazev Institute of Plant Physiology, Russian Academy of Sciences, Moscow, Russian Federation, Faculty of Engineering and Natural Sciences, Bahçeşehir Üniversitesi, Istanbul, Turkey
    Rising global food demand amid climate change presents unprecedented challenges for modern agriculture. The spread of phytopathogens and the degradation of agroecosystems necessitate the development of innovative plant protection solutions. Traditional chemical pesticides are losing their effectiveness due to the emergence of resistant pathogens and their adverse environmental impacts, thereby intensifying interest in biological control methods. This study examines the integration of metagenomic analysis and phototrophic biotechnology as a promising approach to biocontrol. Metagenomics enables the precise identification of phytopathogens and beneficial microorganisms, laying the groundwork for the development of targeted biopesticides. Phototrophic microorganisms, including microalgae and cyanobacteria, exhibit antimicrobial properties and contribute to the restoration of soil ecosystems. The convergence of these technologies offers opportunities to form adaptive microbial consortia that ensure the long-term sustainability of agroecosystems. The paper discusses key challenges, including data processing complexities, the scalability of technologies, and regulatory barriers, and underscores the need for standardized methodologies and interdisciplinary collaboration. The integration of metagenomics and phototrophic biotechnology represents a promising direction for creating environmentally safe and sustainable agricultural production systems. © 2025 Elsevier B.V., All rights reserved.