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公民科学中地球科学项目的引文研究。

A citation study of earth science projects in citizen science.

机构信息

ADNET Systems Inc., Bethesda, Maryland, United States of America.

NASA Space Science Education Consortium, Goddard Space Flight Center, Greenbelt, Maryland, United States of America.

出版信息

PLoS One. 2020 Jul 16;15(7):e0235265. doi: 10.1371/journal.pone.0235265. eCollection 2020.

Abstract

A citation study of a sample of earth science projects in citizen science from the FedCats Catalog was undertaken to assess whether citizen science projects are as productive and as impactful as conventional research that does not employ volunteer participation as a part of their data gathering and analysis protocols. From the 783 peer-reviewed papers produced by 48 projects identified from project bibliographies, 12,380 citations were identified using the Web of Science archive and their citation search engine to the end of 2018. Various conventional productivity and impact measures were applied including the Impact Factor, H and M-indices, and entry into the Top-1000 papers in cited research. The earth science projects tend to under-perform in terms of Impact Factor (IF = 14-20) and the M-index (M<0.5) but perform at the level of a 'tenured professor' with = 23. When compared to non-citizen science research in general, there is a ten-fold higher probability of the earth science papers reaching the Top-1000 threshold of most-cited papers in natural science research. Some of the reasons for the lower performance by some indicators may have to do with the down-turn in published papers after 2010 for the majority of the earth science projects, which itself could be related to the fact that 52% of these projects only became operational after 2010 compared to the more successful 'Top-3' projects, whose impacts resemble the general population of non-citizen science research.

摘要

对 FedCats 目录中公民科学地球科学项目样本进行的引文研究,旨在评估公民科学项目是否与不采用志愿者参与作为其数据收集和分析协议一部分的传统研究一样富有成效和有影响力。从项目参考文献中确定的 48 个项目中产生的 783 篇经过同行评审的论文中,使用 Web of Science 档案及其引文搜索引擎识别了 12,380 条引文,截至 2018 年底。应用了各种常规生产力和影响力衡量标准,包括影响因子、H 和 M 指数,以及进入被引研究中前 1000 篇论文的行列。地球科学项目在影响因子(IF=14-20)和 M 指数(M<0.5)方面表现不佳,但在=23 方面表现出“终身教授”的水平。与一般的非公民科学研究相比,地球科学论文达到自然科学研究中最受引用论文前 1000 名门槛的可能性高出十倍。一些指标表现不佳的原因可能与大多数地球科学项目在 2010 年后发表的论文数量下降有关,这本身可能与以下事实有关:52%的这些项目仅在 2010 年后开始运作,相比之下,更成功的“前 3 名”项目的影响类似于非公民科学研究的一般人群。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/21cf/7365449/1bb35d1124e7/pone.0235265.g001.jpg

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