鸟类对微生物传播影响的研究进展——基于CiteSpace文献计量分析

楚雄师范学院学报 ›› 2022, Vol. 37 ›› Issue (3): 65-71.

鸟类对微生物传播影响的研究进展——基于CiteSpace文献计量分析

姜林¹, 李飞腾¹, 佘容^1,3, 杨晓燕^1,2,3,*

1.大理大学东喜玛拉雅研究院,云南大理 671003;
2.大理大学三江并流区域生物多样性保护与利用云南省创新团队,云南大理 671003;
3.大理大学中国三江并流区域生物多样性协同创新中心,云南大理 671003

收稿日期:2021-04-15 发布日期:2022-06-30
通讯作者: *杨晓燕（1977–）,女,博士,大理大学东喜玛拉雅研究院教授,研究方向为微生物生态学,E-mail：yangxy@eastern-himalaya.cn,Tel. 15125104767
作者简介:姜林（1995–）,女,大理大学东喜玛拉雅研究院硕士研究生,研究方向为微生物生态学,E-mail：jianglinkw@163.com,Tel. 17508720811
基金资助:
第二次青藏高原综合科学考察研究资助（No. 2019QZKK0402）; 云南省教育厅科学研究基金项目（No. 2021Y390）

Research Progress on Effects of Birds On Microbial Transmission – Bibliometric Analysis Based on CiteSpace

Lin Jiang¹, Feiteng Li¹, Rong She^1,3, Xiaoyan Yang^1,2,3,*

1. Institute of Eastern-Himalaya Biodiversity Research, Dali University, Dali 671003, China;
2. The Provincial Innovation Team of Biodiversity Conservation and Utility of the Three Parallel Rivers Region, Dali University, Dali 671003, China;
3. Collaborative Innovation Center for Biodiversity and Conservation in the Three Parallel Rivers Region of China, Dali University,Dali 671003, China

Received:2021-04-15 Published:2022-06-30

摘要/Abstract

摘要： 为了解鸟类在世界范围内对微生物的携带和传播研究的现状,使用Web of Science及中国知网数据库,采用CiteSpace文献计量分析软件,对1990年以来已发表的鸟类对微生物传播的相关文献进行了分析。结果显示：有关鸟类对微生物传播的研究始于20世纪90年代,近年来研究力度逐渐加大;在研究内容上,中英文的文献均侧重于鸟类对病原微生物传播的研究,尤其是对病毒的研究,属于公共卫生的范畴。随着微生物耐药问题日益严重,需要加强对鸟类携带的耐药菌株的监测;在微生物生态学方面,鸟类迁徙对微生物多样性格局的影响尚未被关注,开展这方面的研究能够帮助人类更加全面的理解微生物多样性空间格局形成和维持的机制。

关键词: 鸟, 迁徙, 病原微生物, 传播, 空间格局

Abstract: (Purpose) In order to understand the current situation of research on the carrying and transmission of microorganisms by birds worldwide. (Method) Bibliometric analysis software such as CiteSpace is used to analyze the research literatures on the transmission of microorganisms by birds from Web of Science and CNKI databases published since 1990. (Result) The research on the transmission of microorganisms by birds began in the 1990s and in recent years the research intensity has gradually increased. In terms of research content, both Chinese and English literatures focus on exploring the transmission of pathogenic microorganisms by birds, and the studies of pathogenic microorganisms basically focus on the viruses, which belongs to the category of public health. (Conclusion) With the increasingly serious problem of microbial resistance, it is necessary to strengthen the monitoring of resistant strains carried by birds. In the aspect of microbial ecology, the influence of bird migration on microbial diversity pattern has not been paid attention, therefore carrying out research in this area can help human beings to have a more comprehensive understanding of the mechanism of formation and maintenance of the spatial pattern of microbial diversity.

Key words: Bird, Migration, Pathogenic microorganisms, Diffuse, Spatial pattern

中图分类号:

Q959.7

姜林, 李飞腾, 佘容, 杨晓燕. 鸟类对微生物传播影响的研究进展——基于CiteSpace文献计量分析[J]. 楚雄师范学院学报, 2022, 37(3): 65-71.

Lin Jiang, Feiteng Li, Rong She, Xiaoyan Yang. Research Progress on Effects of Birds On Microbial Transmission – Bibliometric Analysis Based on CiteSpace[J]. Journal of Chuxiong Normal University, 2022, 37(3): 65-71.

参考文献

[1] 周德庆. 微生物学教程[M].北京:高等教育出版社,2011,04.
Zhou D Q.Microbiology Tutorial [M]. Beijing: Higher Education Press, 2011,04.
[2] 沈萍,陈向东.微生物学复兴的机遇、挑战和趋势[J].微生物学报,2010,50(01):1-6.
Shen P, Chen X D.The opportunities, challenges and trends in the rejuvenation of microbiology[J]. Acta Microbiologica Sinica, 2010,50(01):1-6.
[3] Tera E G, Thomas R H, Dennis P S.95 % of basidiospores fall within 1m of the cap: a field-and modeling-based study[J]. Mycologia, 2011,103(6):1175-83.
[4] Horton T R, Swaney D P, Galante T E.Dispersal of ectomycorrhizal basidiospores: the long and short of it[J]. Mycologia, 2013,105(6):1623-1626.
[5] Correia M, Heleno R, Silva LP, et al. First evidence for the joint dispersal of mycorrhizal fungi and plant diaspores by birds[J]. New Phytologist, 2019,222(2):1054-1060.
[6] 韩一多,向梅春,刘杏忠.植菌昆虫与其共生真菌协同进化分子机制[J].菌物学报,2019,38(11):1734-1746.
Han Y D, Xiang M C, Liu X Z.Convergent evolutionary mechanism between fungus-growing insects and symbiotic fungi: a review[J]. Mycosystema, 2019,38(11):1734-1746.
[7] Alfonzo A, Francesca N, Sannino C, et al. Filamentous fungi transported by birds during migration across the Mediterranean Sea[J]. Current Microbiology, 2013,66(3):236-242.
[8] Reed K D, Meece J K, Henkel J S, et al. Birds, migration and emerging zoonoses: west nile virus, Lyme disease, influenza and enteropathogens[J]. Clinical Medicine Research, 2003,1(1):5-12.
[9] 刘冬平,肖文发,陆军,等.野生鸟类传染性疾病研究进展[J].生态学报,2011,31(22):6959-6966.
Liu D P, Xiao W F, Lu J, et al. Review of research progress of infectious diseases in wild birds[J]. Acta Ecologica Sinica, 2011,31(22):6959-6966.
[10] Greig J, Rajic A, Young I, et al. A scoping review of the role of wildlife in the transmission of bacterial pathogens and antimicrobial resistance to the food chain[J]. Zoonoses Public Health, 2015,62(4):269-284.
[11] 祝令伟,景洁,梁冰,等.野生水鸟感染霍乱弧菌和沙门菌等病原菌的分离和鉴定[J].中国人兽共患病学报,2019,35(03):212-215,222.
Zhu L W, Jing J, Liang B, et al. Isolation and identification of pathogenetic bacteria including Vibrio cholerae and Salmonella from wild birds[J]. Chinese Journal of Zoonoses, 2019,35(03):212-215,222.
[12] Zhao G H, Zhou L Z, Dong Y Q, et al. The gut microbiome of hooded cranes (Grus monacha) wintering at Shengjin Lake, China[J]. Microbiology Open, 2017,6(3):447
[13] 李强. 基于文献计量学分析2016年度岩溶学研究热点[J].地球科学进展,2017,32(5):535-545.
Li Q.Research hotspots of karst in 2016 based on bibliometrics analysis[J]. Advances in Earth Science, 2017,32(5):535-545.
[14] Chen C.CiteSpace II: Detecting and visualizing emerging trends and transient patterns in scientific literature[J]. Journal of the Association for Information Science & Technology, 2006,57(3):359-377.
[15] 刘光阳. CiteSpace国内应用的传播轨迹:基于2006–2015年跨库数据的统计与可视化分析[J].图书情报知识,2017,(2):60-74.
Liu G Y.The spread track of CiteSpace application in China: based on the statistical and visual analysis of cross-database data from 2006 to 2015[J]. Intellgenoe, Information& Sharing, 2017,(2):60-74.
[16] Garfield E.From the science of science to Scientometrics visualizing the history of science with HistCite software[J]. Journal of Informetrics, 2009,3(3):173-179.
[17] 陈悦,陈超美,刘则渊,等.CiteSpace知识图谱的方法论功能[J].科学学研究,2015,33(2):242-253.
Chen Y, Chen C M, Liu Z Y, et al. The methodology function of mapping knowledge domains - by reading 555 “CiteSpace”papers[J]. Studies in Science of Science, 2015,33(2):242-253.
[18] 钟伟金,李佳,杨兴菊. 共词分析法研究(三)共词聚类分析法的原理与特点[J].情报杂志,2008,(7):118-120.
Zhong W J, Li J, Yang X J.The research of co-word analysis (3)--the principle and characteristics of the co-word cluster analysis[J]. Journal of Information, 2008(7):118-120.
[19] Guasch A.Update: Investigations of West Nile virus infections in recipients of organ transplantation and blood transfusion—Michigan[J]. Morbidity and Mortality Weekly Report, 2002,51(37):833-836.
[20] Yang Y, Deng Y, Cao L.Characterising the interspecific variations and convergence of gut micribiota in Anseriformes herbivores at wintering areas[J]. Scientific Reports, 2016,6(1):32655.
[21] Weber T P, Silianakis N I.Ecologic immunology of avian influenza (H5N1) in migratory birds[J]. Emerging Infectious Diseases, 2007,13(8):1139-1143.
[22] Giorgio A, Bonis S D, Balestrieri R, et al. The isolation and identification of bacteria on feathers of migratory bird species[J]. Microorganisms, 2018,6(4):1-16.
[23] Gang L, Zhizhong G, Qingyue L.Variations in gut bacterial communities between lesser white-fronted geese wintering at Caizi and Shengjin lakes in China[J]. Microbiology Open, 2020,9(7):e1037.
[24] Na Z, Supen W, Hongyi L, et al. Influence of novel highly pathogenic avian influenza a (H5N1) virus infection on migrating whooper swans fecal microbiota[J]. Frontiers in Cellular and Infection Microbiology, 2018,8:46.
[25] 张凤江,李庆伟.野生鸟类在禽流感传播中所起的作用[J].辽宁师范大学学报(自然科学版),2006,(04):473-476.
Zhang F J, Li Q W.The role of wild birds in the transmission of avian influenza[J]. Journal of Liaoning Normal University( Natural Science Edition), 2006,(04):473-476.
[26] Nuri T, Cemal O, Aysun Y, et al. Identification of Newcastle disease virus subgenotype VII.2 in wild birds in Turkey[J]. BMC Veterinary Research, 2020,16(1):2-8.
[27] Reed K D, Meece J K, Henkel J S, et al. Birds, migration and emerging zoonoses: West Nile Virus, Lyme disease, influenza a and enteropathogens[J]. Clinical Medicine and Research, 2003,1(1):5-12.
[28] Hany F.E, Ahmed R. E, Hatem S. E, et al. Role of pigeons in the transmission of avian avulavirus (Newcastle Disease-Genotype VIId) to chickens[J]. Animals, 2019,9(6):338.
[29] 王承民,王婧,罗静,等.H7亚型禽流感病毒与禽类和人类的关系[J].生物化学与生物物理进展,2013,40(05):416-424.
Wang C M, Wang J, Luo J, et al. Relationship between the H7 subtype of avian influenza virus and poultry and humans[J]. Progress in Biochemistry and Biophysics, 2013,40(05):416-424.
[30] 马越. 合理利用抗生素资源,遏制细菌耐药性蔓延[J].中国药房,2011,22(26):2401-2403.
Ma Y.Rational use of antibiotics to inhibit the extension of bacterial resistance[J]. China Pharmacy, 2011,22(26):2401-2403.
[31] 曾化松,王艳琳.抗生素滥用的现状及应对策略[J].中国卫生事业管理,2012,29(05):341-343.
Zeng H S, Wang Y L.The present situation and countermeasures of overuse of antibiotics[J]. The Chinese Health Service Management, 2012,29(05):341-343.
[32] Giliandro G S, Vinícius W, Andy J G, et al. Killifish eggs can disperse via gut passage through waterfowl[J]. Ecology, 2019,100(11): e02774.
[33] Lovas-Kiss A, Orsolya V, Viktor L, et al. Experimental evidence of dispersal of invasive cyprinid eggs inside migratory waterfowl[J]. Proceedings of the National Academy of Sciences, 2020,117(27):1-3.
[34] Meyer K M, Memiaghe H, Korte L, et al. Why do microbes exhibit weak biogeographic patterns?[J]. The ISME Journal, 2018,12(6):1404-1413.
[35] Jennifer H M, Brendan B, James H.B, et al. Microbial biogeography: putting microorganisms on the map[J]. Nature Reviews Microbiology, 2006,4(2):102-112.
[36] China A H, Jed A F M, Claire H D. Beyond biogeographic patterns: processes shaping the microbial landscape[J]. Nature Reviews Microbiology,2012,10(7):497-506.