| 序号 Number | 名词术语 Terminology | 解释 Explanation |
| 1 | 突发性 Burstiness | 衡量引文在一定时间内被引频率的变化率。突发性强的节点上会用红色的中心进行标记,表明在特定时间段内被引用的频率急剧增加[15]。 Burstiness is measured for the publications as the rate of change of citation frequency. Nodes with high burstiness are marked with a red center, indicating a remarkable increase in citation frequency over a given period[15]. |
| 2 | 中介中心性 Betweenness centrality, BC | 测度网络中节点重要性。BC ≥ 0.1的节点为转折点,用紫色圆圈进行标记[15-16]。一个转折点连接了不同时期发现的集群,能帮助确定知识领域随时间的演变。BC值高的节点通常是节点之间的连接通道,表明其在网络中的重要性[17]。 The importance of nodes in a network is measured by betweenness centrality. Nodes of BC ≥ 0.1 are turning points, marked with purple circles[15-16]. A turning point connects clusters discovered in different periods, which can help determine the evolution of the knowledge domain over time. Nodes with a high BC value are usually the connection channels between nodes, indicating their importance in the network[17]. |
| 3 | 模块化值(0~1) Modularity, Q | 衡量聚类结果的质量,揭示聚类的整体结构性质。在聚类图中,一般Q > 0.3则表明聚类的结构显著,其值越大,聚类效果越好。 Modularity value is used to measure the quality of clustering results and reveal the overall structural properties of clustering. In the cluster diagram, generally, Q > 0.3 indicates that the clustering structure is significant, and the higher the value, the better the clustering effect. |
| 4 | 平均轮廓值(0~1) The mean silhouette, S | 衡量聚类结果的质量,揭示聚类的整体结构性质。在聚类图中,S值越大,则聚类群内的节点同质化程度越高,可信度越高[18]。 The mean silhouette value is measured for the quality of clustering results, revealing the entire structural properties of clustering. In the clustering graph, the larger the S value is, the higher the degree of homogeneity and reliability of nodes within the clustering group will be[18]. |
引用本文:
石凝,王金牛,宋怡珂,何家莉,魏彦强,Niyati Naudiya, . 全球绿绒蒿属植物研究势态文献计量学综述. 欢乐牛牛, 2020, 37(0): 1-11
doi:
Citation: SHI N, WANG J N, SONG Y K, HE J L, WEI Y Q, NIYATI N, WU Y. A bibliometric review of global research status of . Pratacultural Science, 2020, 37(0): 1-11 doi:
Citation: SHI N, WANG J N, SONG Y K, HE J L, WEI Y Q, NIYATI N, WU Y. A bibliometric review of global research status of . Pratacultural Science, 2020, 37(0): 1-11 doi:
全球绿绒蒿属植物研究势态文献计量学综述
摘要:
绿绒蒿(Meconopsis)是著名的观赏植物和传统药用植物,具有极大的经济利用价值。本文基于CiteSpace V软件,以中国知网(China National Knowledge Infrastructure, CNKI)和Web of Science收录的1980−2019年期间与绿绒蒿研究相关的文献作为数据源,对国内外绿绒蒿的文献势态进行了综述,揭示了绿绒蒿的文献年际分布、主要研究人员及研究机构、研究热点及趋势。结果表明,绿绒蒿相关研究的发文量总体呈上升趋势,文章的被引频次在各年份间波动较大。中国科学院及下属机构发文量最多并具有较强的影响力,一定程度上得益于绿绒蒿的世界地理分布。不同研究阶段对绿绒蒿的关注重点不同,早期重点关注绿绒蒿属的传统分类鉴定,当前及未来一段时间的关注热点主要是基于分子生物学等现代手段对绿绒蒿属植物的化学成分分析及药理活性的研究。最后,基于山地生态系统结构组成、多样性的功能及服务框架之下,结合文献计量学的综述结果,系统性地汇总了绿绒蒿属植物的优势学科体现、未来应用价值以及在不同领域的交互融合。今后应加强合作与交流,拓展延伸绿绒蒿研究的深度与广度,为绿绒蒿野生植物资源的可持续利用与原生地物种的保护及不同生态系统服务之间的权衡提供科学支撑。
English
A bibliometric review of global research status of Meconopsis
Abstract:
Several species of the genus Meconopsis are renowned ornamental and traditional medicinal plants with significant utilization value. This paper presents a comprehensive review of literature on the genus Meconopsis published between 1980 and 2019. A total of 250 studies obtained from CNKI (China National Knowledge Infrastructure) and Web of Science databases were analyzed using CiteSpace V to determine the annual output of publications, main researchers, research institutions, research hotspots, and Meconopsis trends. The results showed an increase in publications related to Meconopsis; however, the citation frequency has varied over the years.. The Chinese Academy of Sciences and its affiliated institutions have the largest contribution towards Meconopsis research, which is reflected in the number of publications. This is partly due to the geographical distribution of Meconopsis. Over the years research interest in Meconopsis has shifted from traditional taxonomical work, which was important in the formative years, to chemical and pharmacological studies using sophisticated techniques in molecular biology. Finally, based on the framework of mountain ecosystem structure and composition, functions and services diversity combined with the results of literature metrology, this paper systematically summarized the dominant disciplines, future application value, and the interaction and merging of different fields in the study of Meconopsis. In the future, cooperation and exchanges should be strengthened to better understand the benefits of Meconopsis, and expand multidisciplinary approaches to provide scientific support for sustainable utilization of wild plant resources. There is also a need to reinforce the protection of native species and trade-offs among different ecosystem services.
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Key words:
- Meconopsis /
- CiteSpace /
- knowledge graph /
- chemical constituents
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[1]
吴征镒, 翟汝康. 西藏植物志第二卷. 北京: 科学出版社, 1985: 227.
WU Z Y, ZHAI R K. Flora of Tibet. vol. 2. Beijing: Science Press, 1985: 227. -
[2]
董晓东, 赵宏, 马玉心. 云南绿绒蒿植物种质资源及评价[J]. 大理师专学报(自然科学版)大理师专学报(自然科学版), 1995, (1): 42-46.
DONG X D, ZHAO H, MA Y X. Germplasm resources and evaluation of Meconopsis in Yunnan province[J]. Journal of Dali Normal University (Natural Science Edition)Journal of Dali Normal University (Natural Science Edition)亚博滚球, 1995, (1): 42-46. -
[3]
赵泽军, 郭玫, 孙政华, 王秉鹏. 藏药绿绒蒿的分类、化学成分及药理作用研究进展[J]. 中国药房中国药房, 2016, 27(31): 4391-4394. doi:
ZHAO Z J, GUO M, SUN Z H, WANG B P. Advances in the classification, chemical constituents and pharmacological effects of Tibetan medicine Meconopsis[J]. China PharmacyChina Pharmacy, 2016, 27(31): 4391-4394. doi: -
[4]
郭志琴, 郭强, 朱枝祥, 张水英, 李春, 柴兴云, 屠鹏飞. 藏药多刺绿绒蒿的化学成分研究[J]. 中国中药杂志中国中药杂志, 2014, 39(7): 1152-1156.
GUO Z Q, GUO Q, ZHU Z X, ZHANG S Y, LI C, CHAI X Y, TU P F. Study on the chemical constituents of Tibetan medicine Meconopsis horridula[J]. China Journal of Chinese Materia MedicaChina Journal of Chinese Materia Medica亚博滚球, 2014, 39(7): 1152-1156. -
[5]
王明安, 陈耀祖. 五脉绿绒蒿中一个新生物碱的结构[J]. 天然产物研究与开发天然产物研究与开发, 1985, 7(1): 32-34.
WANG M A, CHEN Y Z. A new alkaloid from Meconopsis quintuplinervia Regel[J]. Natural Product Research and DevelopmentNatural Product Research and Development, 1985, 7(1): 32-34. -
[6]
常颜, 王晓玲, 唐晓莹, 袁绿益, 陈炼红. 多刺绿绒蒿中的一个新生物碱类化合物[J]. 天然产物研究与开发天然产物研究与开发, 2017, 29(5): 731-734.
CHANG Y, WANG X L, TANG X Y, YUAN L Y, CHEN L H. A new alkaloid from Meconopsis horridula[J]. Natural Product Research and DevelopmentNatural Product Research and Development亚博滚球, 2017, 29(5): 731-734. -
[7]
尚小雅, 张承忠, 李冲, 杨永春, 石建功. 藏药五脉绿绒蒿中黄酮类成分的分离与鉴定[J]. 中药材中药材, 2002, 25(4): 27-29.
SHANG X Y, ZHANG C Z, LI C, YANG Y C, SHI J G. Isolation and identification of flavonoids from a Tibetan medicine Meconopsis quintuplinervia[J]. Journal of Chinese Medicinal MaterialsJournal of Chinese Medicinal Materials亚博滚球, 2002, 25(4): 27-29. -
[8]
尚小雅, 张承忠, 李冲, 杨永春, 石建功. 藏药五脉绿绒蒿中非生物碱成分[J]. 中国中药杂志中国中药杂志, 2006, 31(6): 468-471. doi:
SHANG X Y, ZHANG C Z, LI C, YANG Y C, SHI J G. Non-alkaloid constituents from a Tibetan medicine Meconopsis quintuplinervia[J]. China Journal of Chinese Materia MedicaChina Journal of Chinese Materia Medica, 2006, 31(6): 468-471. doi: -
[9]
SHANG X Y, WANG Y H, LI C, ZHANG C Z, YANG Y C, SHI J G. Acetylated flavonol diglucosides from Meconopsis quintuplinervia[J]. PhytochemistryPhytochemistry, 2006, 67(5): 511-515. doi:
-
[10]
官艳丽, 达娃卓玛, 格桑索朗, 边巴次仁, 白冰如. 全缘叶绿绒蒿花精油的GC-MS分析[J]. 中国药学杂志中国药学杂志, 2007, 42(7): 539-540. doi:
GUAN Y L, Dawazhuoma, Gesangsuolang, Bianbaciren, BAI B R. Study on essential oil from flowers of Meconopsis integrifolia[J]. Chinese Pharmaceutical JournalChinese Pharmaceutical Journal, 2007, 42(7): 539-540. doi: -
[11]
吴海峰, 潘莉, 邹多生, 杨胜军, 张晓峰. 3种绿绒蒿挥发油化学成分的GC-MS分析[J]. 中国药学杂志中国药学杂志, 2006, 41(17): 1298-1300. doi:
WU H F, PAN L, ZOU D S, YANG S J, ZHANG X F. Analysis on volatile oils from three species of Meconopsis by GC-MS[J]. Chinese Pharmaceutical JournalChinese Pharmaceutical Journal, 2006, 41(17): 1298-1300. doi: -
[12]
柯君, 刁治民, 陈振宁, 曾阳, 张静. 高原草地绿绒蒿资源及应用现状[J]. 青海草业青海草业, 2007, 16(4): 50-54. doi:
KE J, DIAO Z M, CHEN Z N, ZENG Y, ZHANG J. Resources and application status of Meconopsis in plateau grassland[J]. Qinghai PratacultureQinghai Prataculture, 2007, 16(4): 50-54. doi: -
[13]
CHEN C M, CHEN Y, HOROWITZ M, HOU H Y, LIU Z Y, PELLEGRINO D. Towards an explanatory and computational theory of scientific discovery[J]. Journal of InformetricsJournal of Informetrics, 2009, 3(3): 191-209. doi:
-
[14]
CHEN C M. Science mapping: A systematic review of the literature[J]. Journal of Data and Information ScienceJournal of Data and Information Science, 2017, 2(2): 1-40. doi:
-
[15]
CHEN C M. The centrality of pivotal points in the evolution of scientific networks[J]. San Diego:Proceedings of the 10th International ConferenceSan Diego:Proceedings of the 10th International Conference亚博滚球, 2005, (): 98-105.
-
[16]
FREEMAN L. A set of measures of centrality based on betweenness[J]. SociometrySociometry, 1977, 40(1): 35-41. doi:
-
[17]
OUYANG W, WANG Y, LIN C, HE M C, HAO F H, LIU H B, ZHU W H. Heavy metal loss from agricultural watershed to aquatic system: A scientometrics review[J]. Science of the Total EnvironmentScience of the Total Environment亚博滚球, 2018, 637(): 208-220.
-
[18]
张增可, 王齐, 吴雅华, 刘兴诏, 黄柳菁. 基于CiteSpace植物功能性状的研究进展及发展动态[J]. 生态学报生态学报, 2020, 40(3): 1101-1112.
ZHANG Z K, WANG Q, WU Y H, LIU X Z, HUANG L J. Research progress and development of plant functional traits based on CiteSpace[J]. Acta Ecology SinicaActa Ecology Sinica亚博滚球, 2020, 40(3): 1101-1112. -
[19]
LI Y, HE M Z, ZOU Z Y, BIAN X H, DAI S X. Artificial liver research output and citations from 2004 to 2017: A bibliometric analysis[J]. PeerJPeerJ, 2019, 6(): e6178-. doi:
-
[20]
WANG C L, WU J D, HE X, YE M Q, LIU W H, TANG R M. Emerging trends and new developments in disaster research after the 2008 Wenchuan earthquake[J]. International Journal of Environmental Research and Public HealthInternational Journal of Environmental Research and Public Health, 2019, 16(29): 1-19.
-
[21]
ZHENG X, LIU Y J, HU W H, HUANG H, NI Y P, ZHAO H N, ZHEN Z. Bibliometrics study on the Journal of American College Health: 1994—2014[J]. Chinese Nursing ResearchChinese Nursing Research亚博滚球, 2017, 4(3): 133-140.
-
[22]
MUHURI P K, SHUKLA A K, JANMAIJAYA M, BASU A. Applied soft computing: A bibliometric analysis of the publications and citations during (2004-2016)[J]. Applied Soft ComputingApplied Soft Computing, 2018, 69(): 381-392. doi:
-
[23]
SONG J, ZHANG H, DONG W. A review of emerging trends in global PPP research: Analysis and visualization[J]. ScientometricsScientometrics, 2016, 107(3): 1111-1147. doi:
-
[24]
陈燕, 德吉, 黄志芳, 刘云华, 易进海. 藏药全缘绿绒蒿的薄层色谱鉴别与含量测定[J]. 中药材中药材, 2009, 32(8): 45-47.
CHEN Y, DE J, HUANG Z F, LIU Y H, YI J H. TLC identification and content determination of Meconopsis integrifolia[J]. Journal of Chinese Medicinal MaterialsJournal of Chinese Medicinal Materials, 2009, 32(8): 45-47. -
[25]
刘明珠, 李清, 卢永昌. 红花绿绒蒿中总生物碱的含量测定[J]. 青海农林科技青海农林科技, 2019, (3): 10-14, 37. doi:
LIU M Z, LI Q, LU Y C. Determination of total alkaloids in Meconopsis punicea[J]. Science and Technology of Qinghai Agriculture and ForestryScience and Technology of Qinghai Agriculture and Forestry, 2019, (3): 10-14, 37. doi: -
[26]
刘明珠, 李清, 暨迪军, 卢永昌. 红花绿绒蒿中总黄酮的含量测定及提取工艺优化[J]. 种业导刊种业导刊, 2019, (9): 8-11. doi:
LIU M Z, LI Q, JI D J, LU Y C. Determination of total flavonoids in Meconopsis punicea Maxim and optimization of extraction technology[J]. Journal of Seed Industry GuideJournal of Seed Industry Guide, 2019, (9): 8-11. doi: -
[27]
CAROLAN J C, HOOK I L, CHASE M W, KADEREIT J W, HODKINSON T R. Phylogenetics of Papaver and related genera based on DNA sequences from ITS nuclear ribosomal DNA and plastid trnL intron and trnL-F intergenic spacers[J]. Annals of BotanyAnnals of Botany, 2006, 98(1): 141-155. doi:
-
[28]
倪梁红, 赵志礼, 孟千万, 嘎务, 米玛. ITS和psbA-trnH序列鉴别绿绒蒿属藏药植物[J]. 中草药中草药, 2014, 45(4): 541-545.
NI L H, ZHAO Z L, MENG Q W, GA W, MI M. Identification of Tibetan medicinal plants of Meconopsis Vig. using ITS and psbA-trnH sequence[J]. Chinese Traditional and Herb DrugsChinese Traditional and Herb Drugs, 2014, 45(4): 541-545. -
[29]
袁长春, 黎培新, 王燕芳, 施苏华. 用核糖体ITS区序列验证自然杂交种Meconopsis × Cookei G. Taylor[J]. 遗传学报遗传学报, 2004, 31(9): 901-907.
YUAN C C, LI P X, WANG Y F, SHI S H. The confirmation of putative natural hybrid species Meconopsis × Cookei G. Taylor (Papaveraceae) based on nuclear ribosomal DNA ITS region sequence[J]. Journal of Genetics and GenomicsJournal of Genetics and Genomics亚博滚球, 2004, 31(9): 901-907. -
[30]
WANG G Y, BASKIN C C, BASKIN J M, YANG X J, LIU G F, YE X H, ZHANG X S. Effects of climate warming and prolonged snow cover on phenology of the early life history stages of four alpine herbs on the southeastern Tibetan Plateau[J]. American Hournal of BotanyAmerican Hournal of Botany, 2018, 6(): 967-976.
-
[31]
MAJID A, AHMAD H, SAQIB Z, ALI H, ALAM J. Conservation status assessment of Meconopsis Aculeata Royle: A threated endemic of Pakistan and Kashmir[J]. Pakistan Journal of BotanyPakistan Journal of Botany, 2015, 47(): 1-5.
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[1]
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亚博滚球
图 1 1980–2019年绿绒蒿的年发文量及被引趋势图
Figure 1. Annual trends of publications on Meconopsis亚博滚球 and total citations from 1980 to 2019
图 2 1980–2019年绿绒蒿的年累加发文量及年累加被引频次趋势图
Figure 2. Cumulative annual publications and citations on Meconopsis亚博滚球 from 1980 to 2019
图 6 亚博滚球 关键词时间轴视图
Figure 6. 亚博滚球 A timeline visualization of the keyword co-occurrence network
图 7 山地生态系统功能及服务框架下绿绒蒿的价值体现
Figure 7. The value of Meconopsis under the framework of mountainous ecosystem function and service
表 1 CiteSpace图谱中的术语解释
Table 1. Explanation of terminologies in CiteSpace knowledge graphs
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表 2 亚博滚球 1980–2019年绿绒蒿研究高产作者排名
Table 2. Ranking of published authors from 1980 to 2019
来源
Source排名
Rank作者
Author发文量/篇
Publication最早年份
Year中国知网 CNKI 1 郭玫 GUO Mei 11 2011 2 王志旺 WANG
Zhiwang9 2010 3 屈燕 QU Yan 8 2018 3 冷秋思
LENG Qiusi8 2018 4 邵晶 SHAO Jing 7 2011 5 区智 QU Zhi 6 2018 6 熊健
XIONG Jian5 2018 6 王瑞琼 WANG
Ruiqiong5 2013 6 任远
REN Yuan5 2013 Web of
Science1 IWASHINA
Tsukasa5 1995 2 ZHANG Shibao 3 2010
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表 3 1980–2019年绿绒蒿研究高产机构排名
Table 3. 亚博滚球 Ranking of published institutions from 1980–2019
来源
Source排名
Rank机构
Institution发文量/篇
Publication最早年份
Year中国知网
CNKI1 中国科学院西北高原生物研究所
Northwest Plateau Institute of Biology, Chinese Academy of Sciences9 2006 2 甘肃省高校中(藏)药化学与质量研究省级重点实验室
Provincial Key Laboratory of Chinese (Tibetan) Pharmaceutical Chemistry
and Quality Research in Universities of Gansu Province6 2011 2 甘肃中医学院
Gansu College of Traditional Chinese Medicine6 2010 3 中国科学院成都生物研究所
Chengdu Institute of Biology, Chinese Academy of Sciences5 2009 4 甘肃中医学院药学系
Department of Pharmacy, Gansu College of Traditional Chinese Medicine4 2013 4 青海省青藏高原植物资源化学研究重点实验室
Key Laboratory of Plant Resources Chemistry, Qinghai-Tibet Plateau of Qinghai Province4 2014 4 甘肃省中药药理与毒理学重点实验室 Key Laboratory of
Pharmacology and Toxicology of Traditional Chinese Medicine of Gansu Province4 2013 4 四川农业大学风景园林学院
College of Landscape Architecture, Sichuan Agricultural University4 2016 Web of Science 1 Chinese Academy Sciences 中国科学院 20 2009 2 University Chinese Academy Sciences 中国科学院大学 4 2014
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表 4 关键词共现网络主要信息表
Table 4. 亚博滚球 The main information table of keywords co-occurrence network
来源
Source排名
Rank关键词
keywords频次
Frequency中介中心性
BC(Betweenness centrality)最早年份
Year中国知网 CNKI 1 五脉绿绒蒿 Meconopsis quintuplinervia 26 0.27 1995 2 绿绒蒿 Meconopsis 20 0.15 2003 3 藏药 Tibetan medicine 16 0.35 2003 4 多刺绿绒蒿 Meconopsis horridula 14 0.33 2012 5 全缘叶绿绒蒿 Meconopsis integrifolia 13 0.13 2014 6 绿绒蒿属 Meconopsis 11 0.24 1980 7 总黄酮 Total flavonoids 10 0.11 2013 8 化学成分 Chemical component 8 0.21 2009 8 总状绿绒蒿 Meconopsis racemosa 8 0.02 2003 9 红花绿绒蒿 Meconopsis punicea 6 0.05 2014 Web of Science 1 Papaveraceae 罂粟科 17 0.03 1996 2 Meconopsis 绿绒蒿 6 0.01 2006
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亚博滚球_亚博滚球投注APP 欧洲杯足球竞猜|官网 欧洲杯足球竞猜|官网 欧洲杯足球竞猜|官网 天博体育官网|app下载 欧洲杯足球竞猜|官网 天博体育官网|app下载 天博体育官网|app下载 天博体育官网|app下载表 5 1980–2019年突发关键词排名
Table 5. 亚博滚球 keywords with citation bursts
来源
Source排名
Rank关键词
keywords年份
Year突发强度
Strength开始时间
Begin结束时间
End持续时间
Duration中国知网 CNKI 1 藏药 Tibetan medicine 1980 4.01 2003 2010 8 2 全缘叶绿绒蒿 Meconopsis integrifolia 1980 3.94 2015 2019 5 3 绿绒蒿 Meconopsis 1980 3.93 2017 2019 3 4 化学成分 chemical component 1980 3.27 2009 2010 2 5 多刺绿绒蒿 Meconopsis horridula 1980 2.78 2014 2017 4 6 黄酮 Flavone 1980 2.58 2011 2012 2 7 绿绒蒿属 Meconopsis 1980 2.56 1980 1995 16 8 五脉绿绒蒿 Meconopsis quintuplinervia 1980 2.07 2010 2013 4 9 红花绿绒蒿 Meconopsis punicea 1980 1.78 2014 2015 2 Web of Science 1 Leave 叶 1980 2.38 2010 2012 3 2 Medical plant 药用植物 1980 2.09 2013 2015 3 3 Papaveraceae 罂粟科 1980 1.04 2013 2015 3
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