A bibliometric analysis of biopesticides in corn pest management: Current trends and future prospects

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Krismawati, Amik, 2024, "A bibliometric analysis of biopesticides in corn pest management: Current trends and future prospects", https://hdl.handle.net/20.500.12690/RIN/ZD8S9Z, RIN Dataverse, V1

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Description	This bibliographic review paper presents a comprehensive analysis of the scholarly literature on biopesticides utilized in corn pest management, employing a bibliometric approach to identify current trends and prospects in the field. The growing demand for sustainable agricultural practices has fueled interest in biopesticides as effective alternatives to conventional chemical pesticides. By systematically examining relevant publications, this review synthesizes the collective knowledge on biopesticide applications in corn production, encompassing various types of biopesticides, their modes of action, efficacy against key corn pests, and environmental consid erations. The study synthesizes recent advances in microbial, botanical, and biochemical biopesticides such as Bacillus thuringiensis, neem extracts, and linalool, highlighting their specificity, minimal environmental impact, and potential to reduce pest resistance. It delves into the modes of action, including insecticidal activity, feeding disruption, and pest reproduction inhibition. The review also outlines an integrated pest management (IPM) strategy that combines biopesticides with agronomic practices, including crop rotation, biological control agents, and resistant crop varieties. This combined approach aims to enhance pest suppression, improve yield sustainability, and reduce chemical pesticide reliance. The findings provide valuable insights into sustainable corn pest management practices, promoting environmental conservation and agricultural productivity. Ultimately, this review aims to provide researchers, policymakers, and practitioners with a valuable resource for understanding the current landscape of biopesticides in corn pest management and guiding future research directions toward sustainable crop protection strategies. (2024-11-06)
Subject	Agricultural Sciences
Keyword	biopesticides
Related Publication	Over the years, synthetic pesticides like herbicides, algicides, miticides, bactericides, fumigants, termiticides, repellents, insecticides, molluscicides, nematicides, and pheromones have been used to improve crop yield. When pesticides are used, the over-application and excess discharge into water bodies during rainfall often lead to death of fish and other aquatic life. Even when the fishes still live, their consumption by humans may lead to the biomagnification of chemicals in the body system and can cause deadly diseases, such as cancer, kidney diseases, diabetes, liver dysfunction, eczema, neurological destruction, cardiovascular diseases, and so on. Equally, synthetic pesticides harm the soil texture, soil microbes, animals, and plants. The dangers associated with the use of synthetic pesticides have necessitated the need for alternative use of organic pesticides (biopesticides), which are cheaper, environment friendly, and sustainable. Biopesticides can be sourced from microbes (e.g., metabolites), plants (e.g., from their exudates, essential oil, and extracts from bark, root, and leaves), and nanoparticles of biological origin (e.g., silver and gold nanoparticles). Unlike synthetic pesticides, microbial pesticides are specific in action, can be easily sourced without the need for expensive chemicals, and are environmentally sustainable without residual effects. Phytopesticides have myriad of phytochemical compounds that make them exhibit various mechanisms of action, likewise, they are not associated with the release of greenhouse gases and are of lesser risks to human health compared to the available synthetic pesticides. Nanobiopesticides have higher pesticidal activity, targeted or controlled release with top-notch biocompatibility and biodegradability. In this review, we examined the different types of pesticides, the merits, and demerits of synthetic pesticides and biopesticides, but more importantly, we x-rayed appropriate and sustainable approaches to improve the acceptability and commercial usage of microbial pesticides, phytopesticides, and nanobiopesticides for plant nutrition, crop protection/yield, animal/human health promotion, and their possible incorporation into the integrated pest management system. doi: 10.1016

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	Kelris 9_Jurnal Internasional_November_Amik Krismawati.pdf Adobe PDF - 3.8 MB Published Dec 20, 2024 4 Downloads MD5: f7018aabffe3efa7e693695e61437561	Access File File Access Public Download Options Adobe PDF Download Metadata Data File Citation EndNote XML RIS BibTeX

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Dataset Persistent ID	hdl:20.500.12690/RIN/ZD8S9Z
Publication Date	2024-12-20
Title	A bibliometric analysis of biopesticides in corn pest management: Current trends and future prospects
Author	Krismawati, Amik ()Research Center for Horticulture and Plantation Crops, Research Organization for Agriculture and Food, National Research and Innovation Agency (BRIN) Cibinong Science Center, Jl. Raya Jakarta Bogor Km 46, Cibinong, Bogor, West Java, 16911, Indonesia) - ScopusID: 57216355790
Contact	Use email button above to contact. Krismawati, Amik ()Research Center for Horticulture and Plantation Crops, Research Organization for Agriculture and Food, National Research and Innovation Agency (BRIN) Cibinong Science Center, Jl. Raya Jakarta Bogor Km 46, Cibinong, Bogor, West Java, 16911, Indonesia)
Description	This bibliographic review paper presents a comprehensive analysis of the scholarly literature on biopesticides utilized in corn pest management, employing a bibliometric approach to identify current trends and prospects in the field. The growing demand for sustainable agricultural practices has fueled interest in biopesticides as effective alternatives to conventional chemical pesticides. By systematically examining relevant publications, this review synthesizes the collective knowledge on biopesticide applications in corn production, encompassing various types of biopesticides, their modes of action, efficacy against key corn pests, and environmental consid erations. The study synthesizes recent advances in microbial, botanical, and biochemical biopesticides such as Bacillus thuringiensis, neem extracts, and linalool, highlighting their specificity, minimal environmental impact, and potential to reduce pest resistance. It delves into the modes of action, including insecticidal activity, feeding disruption, and pest reproduction inhibition. The review also outlines an integrated pest management (IPM) strategy that combines biopesticides with agronomic practices, including crop rotation, biological control agents, and resistant crop varieties. This combined approach aims to enhance pest suppression, improve yield sustainability, and reduce chemical pesticide reliance. The findings provide valuable insights into sustainable corn pest management practices, promoting environmental conservation and agricultural productivity. Ultimately, this review aims to provide researchers, policymakers, and practitioners with a valuable resource for understanding the current landscape of biopesticides in corn pest management and guiding future research directions toward sustainable crop protection strategies. (2024-11-06)
Subject	Agricultural Sciences
Keyword	biopesticides (Biopesticides as a promising alternative to synthetic pesticides) https://www.frontiersin.org/journals/microbiology/articles/10.3389/fmicb.2023.1040901/full
Related Publication	Over the years, synthetic pesticides like herbicides, algicides, miticides, bactericides, fumigants, termiticides, repellents, insecticides, molluscicides, nematicides, and pheromones have been used to improve crop yield. When pesticides are used, the over-application and excess discharge into water bodies during rainfall often lead to death of fish and other aquatic life. Even when the fishes still live, their consumption by humans may lead to the biomagnification of chemicals in the body system and can cause deadly diseases, such as cancer, kidney diseases, diabetes, liver dysfunction, eczema, neurological destruction, cardiovascular diseases, and so on. Equally, synthetic pesticides harm the soil texture, soil microbes, animals, and plants. The dangers associated with the use of synthetic pesticides have necessitated the need for alternative use of organic pesticides (biopesticides), which are cheaper, environment friendly, and sustainable. Biopesticides can be sourced from microbes (e.g., metabolites), plants (e.g., from their exudates, essential oil, and extracts from bark, root, and leaves), and nanoparticles of biological origin (e.g., silver and gold nanoparticles). Unlike synthetic pesticides, microbial pesticides are specific in action, can be easily sourced without the need for expensive chemicals, and are environmentally sustainable without residual effects. Phytopesticides have myriad of phytochemical compounds that make them exhibit various mechanisms of action, likewise, they are not associated with the release of greenhouse gases and are of lesser risks to human health compared to the available synthetic pesticides. Nanobiopesticides have higher pesticidal activity, targeted or controlled release with top-notch biocompatibility and biodegradability. In this review, we examined the different types of pesticides, the merits, and demerits of synthetic pesticides and biopesticides, but more importantly, we x-rayed appropriate and sustainable approaches to improve the acceptability and commercial usage of microbial pesticides, phytopesticides, and nanobiopesticides for plant nutrition, crop protection/yield, animal/human health promotion, and their possible incorporation into the integrated pest management system. doi: 10.1016 https://doi.org/10.1016/j.heliyon.2024.e40196
Depositor	Krismawati, Amik
Deposit Date	2024-12-20

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