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| Title: | 環境荷爾蒙文獻之作者特性暨知識圖譜研究
Authorship and knowledge mapping of the literature on endocrine disruptors |
| Authors: | 賴芊卉
Lai, Chien-Hui |
| Contributors: | 蔡明月
Tsay, Ming-Yueh
賴芊卉
Lai, Chien-Hui |
| Keywords: | 內分泌干擾物質
環境荷爾蒙
資訊計量分析
作者特性
作者排名
作者合著網絡
共詞分析
作者共被引
知識圖譜
Endocrine disruptors
Informetric analysis
Authorship
Co-authorship network
Co-word analysis
Author co-citation
Knowledge mapping |
| Date: | 2025 |
| Issue Date: | 2025-09-01 14:28:11 (UTC+8) |
| Abstract: | 本研究運用資訊計量學的重要定律與計量方法,從學科主題特質、作者特性與知識圖譜三個層面,探討內分泌干擾物質(環境荷爾蒙)文獻的發展特徵與知識結構。資料來源為Web of Science Core Collection資料庫,跨領域蒐集1963年至2023年間45,741筆出版文獻,透過資訊計量分析、共詞分析與作者共被引分析等統計和聚類方法,並結合Biblioshiny與VOSviewer視覺化工具,綜觀該領域的整體研究樣貌。首先,剖析該領域的文獻成長趨勢、學科範疇、核心期刊、重要主題、作者與機構生產力等發展特徵。其次,比較高生產力作者與高影響力作者的合著型態與排名分布,以揭示重要學術合作網絡與作者角色特性。最後,藉由關鍵詞共詞集群及高影響力作者共被引集群,呈現研究主題與知識架構。
研究結果顯示,該領域研究可追溯至1963年,並於1990年代後期迅速發展,文獻累積曲線呈指數成長趨勢。研究成果涵括207種學科,逾半數屬於多學科研究,以環境科學與毒理學為核心學科,並與環境工程、公共、環境與職業衛生、分析化學等18種學科密切相關,反映其高度跨學科特性。再者,11種核心期刊及21種次核心期刊刊載逾半數論文,以Environmental Science & Technology與Environmental Health Perspectives最具影響力。181個出現達百次的高頻關鍵詞均於2010年以前出現,顯示核心概念與主要研究方向奠基於早期階段。其中,內分泌干擾物質、雙酚A、持久性有機汙染物、多氯聯苯、內分泌干擾以及多環芳香烴碳氫化合物等關鍵詞的關注度最高。
作者合作趨勢顯著,逾95%文獻為多作者合著,四至五人合作最為常見。2018年至2023年間發表篇數最多的作者包括K. Kannan、A. Calafat、G. Jiang、A. Covaci以及R. Hauser。全球共173個國家參與研究,美國與中國合計貢獻超過三分之一成果,中國科學院、加州大學系統及美國環境保護署為最具生產力機構。臺灣主要與美國、中國、日本、南韓及越南合作,具地緣性特徵。多通訊作者並列現象始於2015年,2016年起並列人數擴及三人至六人不等,比例逐年上升,2023年已超過合著文獻總數的五分之一。高生產力作者與高影響力作者皆展現跨機構、跨領域與跨國合作網絡,合作主體包括政府部門(如加拿大環境及氣候變遷部)、高等教育機構(如西班牙阿爾梅里亞大學)以及學術研究單位(如挪威自然研究所),反映高度國際化與多樣合作型態。兩類作者最常出現的排名位置皆為中間作者,而所有高生產力作者皆曾擔任最後作者。第一作者兼任通訊作者的比例明顯高於最後作者與中間作者,顯示作者排名未必能完整反映實質貢獻。
知識圖譜分析結果顯示,作者關鍵詞共詞分析形成四個知識集群,核心主題分別為內分泌干擾物質、雙酚A、持久性有機汙染物與鄰苯二甲酸酯類。其中,「鄰苯二甲酸酯類」集群扮演主題橋接角色,外部連結比例最高。相對地,「內分泌干擾物質」集群的外部連結比例最低,顯示內部同質性與集中性最高。共被引分析則形成九個高影響力作者集群,包括:表觀遺傳與跨世代效應研究、性激素受體活性與生物效應監測、水生生物內分泌干擾與生殖毒性研究、內分泌干擾物質暴露與健康風險評估、水生生態毒理與環境風險評估、水域塑膠與疏水性汙染物的遷徙與處理、持久性有機汙染物研究與大氣監測技術、汙染物檢測與風險評估技術、水中化學汙染物氧化與去除技術。
此外,共被引關係亦揭示該領域具有全球與區域並重的地理特性、多樣生物族群研究、化學物質來源複雜,以及多元研究方法與工具等特徵。研究隨時間發展顯示,1990年代為萌芽茁壯階段主題分布鬆散。2000年代開始聚焦於三大知識集群:內分泌干擾物質(高度關聯氣相層析質譜儀、雌激素活性與廢汙水等技術與環境議題)、內分泌干擾(延伸至生殖與遺傳層面)、持久性有機汙染物(著重於其在環境介質的分布與影響)。2010年代延續此結構,核心節點並未轉移,學術共識持續深化。2020年代初期,雙酚A自內分泌干擾物質集群獨立,結合雙酚S、新興汙染物、毒理機制、環境風險及去除修復技術等議題。
綜上所述,本研究分析自1960年代以來逾45,000篇內分泌干擾物質(環境荷爾蒙)文獻,補足既有研究在資料時間跨度、數量規模、作者角色變化與責任分工探討上的不足,並揭示該領域的國際合作網絡、核心主題與知識結構,不僅擴展了內分泌干擾物質(環境荷爾蒙)研究的資訊計量與知識圖譜應用,亦為後續學術研究、資源配置及政策制定提供具實證基礎的重要參考。
This study applies key laws and analytical methods of informetrics to examine the research landscape and thematic structure of the literature on endocrine disruptors from three perspectives: disciplinary distribution and research themes, authorship, and knowledge mapping. Drawing on a cross-disciplinary dataset of 45,741 documents spanning 1963 to 2023 and retrieved from the Web of Science Core Collection (hereinafter WoS Core), quantitative and clustering methods—including informetric analysis, co-word analysis, and author co-citation analysis—are applied, with visualization conducted using Biblioshiny and VOSviewer. First, the analysis examines growth trends, disciplinary distribution, core journals, major research topics, and the productivity of authors and institutions in the field. Second, co-authorship patterns and author position distributions of the top 100 most productive and most influential authors are compared to reveal key collaboration networks and the role characteristics of individual authors. Finally, clusters generated from keyword co-word analysis and author co-citation analysis are synthesized to present the research topics and knowledge structure of the field.
The results show that research on endocrine disruptors dates back to 1963 and has experienced rapid development in the late 1990s, with the cumulative document curve exhibiting an exponential growth trend. According to the WoS Core classification, more than half of the literature on endocrine disruptors falls into multidisciplinary categories. These publications are distributed across 207 subject categories, with environmental sciences and toxicology as the core disciplines, closely related to 18 other fields, including environmental engineering, public, environmental & occupational health, and analytical chemistry—reflecting its highly interdisciplinary nature. Furthermore, 11 core journals and 21 secondary core journals together published more than half of the papers, with Environmental Science & Technology and Environmental Health Perspectives being the most influential. Among 181 high-frequency keywords (each occurring over 100 times), all had first appeared in the literature no later than 2010, suggesting that the core concepts and main research directions of endocrine disruptor studies were largely shaped during the formative years of the field. The most prominent keywords include endocrine disruptors (EDs), bisphenol A (BPA), persistent organic pollutants (POPs), polychlorinated biphenyls (PCBs), endocrine disrupting chemicals (EDCs), endocrine disruption, and polycyclic aromatic hydrocarbons (PAHs).
Author collaboration is notable, with over 95% of documents co-authored, and the most frequent authorship pattern consisting of four to five authors. From 2018 to 2023, the most prolific authors included K. Kannan, A. Calafat, G. Jiang, A. Covaci, and R. Hauser. A total of 173 countries participated in the research, with the United States and China together contributing over one-third of the output. The Chinese Academy of Sciences, the University of California system, and the United States Environmental Protection Agency were the most productive institutions. Taiwan’s international collaborations were primarily with the United States, China, Japan, South Korea, and Vietnam, showing a strong regional dimension. The phenomenon of multiple corresponding authors emerged in 2015, expanding to three to six co-corresponding authors from 2016 onward, with the proportion increasing annually and exceeding one-fifth of all co-authored papers by 2023. Both highly productive and highly influential authors demonstrated extensive cross-institutional, cross-disciplinary, and international collaborations, involving government agencies (e.g., Environment and Climate Change Canada), higher education institutions (e.g., University of Almería, Spain), and research institutes (e.g., Norwegian Institute for Nature Research), reflecting the field’s high degree of internationalization and diversity in collaboration patterns. In both groups, middle authorship positions were most common, and all highly productive authors had appeared at least once as last author. The proportion of first authors also serving as corresponding authors was significantly higher than for last or middle authors, suggesting that author order does not fully reflect the actual and diverse contributions of individual authors to the published work.
Knowledge mapping analysis revealed four keyword co-word clusters, with core themes of endocrine disruptors, bisphenol A, persistent organic pollutants, and phthalates. Among these, the Phthalates cluster acted as a thematic bridge, having the highest proportion of external links, while the Endocrine Disruptors cluster had the lowest, indicating the highest degree of internal homogeneity and concentration. Author co-citation analysis identified nine clusters of highly influential authors, with research foci including: epigenetics and transgenerational effects; sex hormone receptor activity and biomonitoring; endocrine disruption and reproductive toxicity in aquatic organisms; exposure and health risk assessment of endocrine disruptors; aquatic ecotoxicology and environmental risk assessment; migration and treatment of aquatic plastics and hydrophobic pollutants; persistent organic pollutants and atmospheric monitoring; pollutant detection and risk assessment techniques; and oxidation and removal of chemical pollutants in water. Author co-citation relationships also revealed an integration of both global and regional geographic research coverage, diversity of studied biological groups, complexity of sources of endocrine disruptors, and a wide range of research methods and analytical tools.
Keyword co-word clusters’ evolution over time indicates that the 1990s represented the nascent stage of endocrine disruptors research, with weak inter-topic correlations and a loosely structured cluster landscape. In the 2000s, research began to focus on three main knowledge clusters: Endocrine Disruptors (closely linked to gas chromatography-mass spectrometry, estrogenic activity, and wastewater), Endocrine Disruption (extended to reproductive and genetic aspects), and Persistent Organic Pollutants (focusing on their distribution and effects in environmental compartments). This three-cluster structure persisted into the 2010s, with the largest nodes remaining unchanged, reflecting sustained and in-depth investigation into these established research priorities. In the early 2020s, Bisphenol A emerged from the Endocrine Disruptors cluster as an independent cluster, combined with issues related to bisphenol S, emerging contaminants, toxicological mechanisms, environmental risks, and removal and remediation technologies.
In sum, by analyzing over 45,000 documents on endocrine disruptors since the 1960s, this study addresses existing gaps in temporal coverage, dataset scale, and examination of authorship roles and responsibilities. It reveals the field’s international collaboration networks, main themes and topics, and knowledge structure, thereby expanding the application of informetric and knowledge mapping approaches to endocrine disruptors research and providing empirically grounded insights to support future academic research, decision-making, resource allocation, and policy formulation. |
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| Description: | 博士
國立政治大學
圖書資訊與檔案學研究所
105155501 |
| Source URI: | http://thesis.lib.nccu.edu.tw/record/#G0105155501 |
| Data Type: | thesis |
| Appears in Collections: | [圖書資訊與檔案學研究所] 學位論文
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