农药科学与管理2026,Vol.47Issue(3):13-24,12.
基于CiteSpace的植物源农药研究热点与进展可视化分析
Visualization Analysis of Research Hotspots and Progress in Botanical Pesticides Based on CiteSpace
摘要
Abstract
To analyze the research hotspots and progress in botanical pesticides,relevant literatures published between 1995 to 2025 were retrieved from the China National Knowledge Infrastructure(CNKI)and Web of Science(WOS)databases.CiteSpace software was utilized to summarize and statistically analyze publication years,authors,institutions,countries,research hotspots,and evolutionary trends of the literatures.Statistics results revealed a total of 596 Chinese-language articles and 1 538 foreign-language articles were included,and research on botanical pesticides has generally exhibited an upward trend.The top three countries in terms of publication volume were China,India,and Brazil,while the primary research institutions were universities and research academies.High-frequency keywords included azadirachtin,essential oils,and chemical constituents,and others.Keyword clustering and burst analysis indicated that azadirachtin,Azadirachta indica(neem),matrine,medicinal plants,bioactive components,and bioactivity evaluation are current major hotspots.Future research will focus more on practical applications,with antimicrobial activity,pest resistance,field control efficacy,foliar application,and green formulations potentially emerging as critical research areas.In recent years,both domestic and global research interest in botanical pesticides has continued to increase,with research themes evolving and the scope of investigation gradually expanding.Major research focuses include bioactive component characterization,bioactivity evaluation,pest control methods and efficacy,component analysis,and integrated pest management.关键词
植物源农药/CiteSpace/知识图谱/活性成分/研究热点Key words
botanical pesticides/CiteSpace/knowledge mapping/bioactive components/research hotspots分类
农业科技引用本文复制引用
肖帅,邱璐,阳文静,谢梵,陈红军,金晨钟,刘秀..基于CiteSpace的植物源农药研究热点与进展可视化分析[J].农药科学与管理,2026,47(3):13-24,12.基金项目
"农药无害化应用"湖南省普通高等学校科技创新团队(2023年),湖南省自然科学基金区域联合基金项目(2024JJ7252和2023JJ50082),湖南省教育厅科学研究重点项目(22A0614) (2023年)
