key: cord-0656359-e9sqs0za
authors: Valderrama-Zurian, Juan-Carlos; Navarro-Molina, Carolina; Aguilar-Moya, Remedios; Melero-Fuentes, David; Aleixandre-Benavent, Rafael
title: Trends in scientific research in Online Information Review. Part 2. Mapping the scientific knowledge through bibliometric and social network analyses
date: 2017-09-22
journal: nan
DOI: nan
sha: ee1ab06311539fe12412df6941b729f66bd6214e
doc_id: 656359
cord_uid: e9sqs0za

Objective. The purpose of this work is to analyse the knowledge structure and trends in scientific research in the Online Information Reviews journal by bibliometric analysis of key words and social network analysis of co-words. Methods. Key words included in a set of 758 papers included in the Web of Science database from 2000 to 2014 were analysed. We conducted a subject analysis considering the key words assigned to papers. A social network analysis was also conducted to identify the number of co-occurrences between key words (co-words). The Pajek software was used to create and graphically visualize the networks. Results. Internet is the most frequent key word (n=219) and the most central in the network of co-words, strongly associated with Information retrieval, search engines, the World Wide Web, libraries and users Conclusions. Information science, as represented by Online Information Review in the present study, is an evolving discipline that draws on literature from a relatively wide range of subjects. Although Online Information Review appears to have well-defined and established research topics, the journal also changes rapidly to embrace new lines of research.

In a previous paper, we conducted a bibliometric analysis of the journal Online Information Review, considering the scientific production, collaboration and citation patterns of authors, institutions and countries publishing in that journal. In the current work, we analyse the knowledge structure of scientific research of the journal, integrating the analyses of some characteristics of the bibliographic records as registered in the Web of Science database that are related to their thematic and conceptual content: authors' keywords, Keyword Plus and the networks of co-words.

We used social network analysis to identify and graphically represent the existing networks of key words and co-words in the published papers.

There are several methods that may reveal the structure of a field and map the trends of scientific knowledge. Keywords Plus and Author Keywords are commonly selected as units of analysis, despite the limited research evidence demonstrating the effectiveness of Keywords Plus (Yang et al., 2012; Zhang et al., 2016) . Author Keywords comprises Garfield and Sher, 1993) . According to Garfield (1990) , Keywords Plus terms are able to capture an article's content with great depth and variety.

Developing co-words maps for the study of semantic relations in scientific literature was proposed and studied by Callon et al. (1983 and 1986) and Leydesdorff (1989 and 1997) . Co-word analysis is a technique that is effective in mapping the strength of the association between information items in textual data. This technique directly addresses sets of keywords shared by publications, directly mapping the topics of the scientific literature from interactions of keywords (Hui and Fong, 2004; Wang et al., 2012) . Coword analysis is based on the assumption that key words compose an adequate description of the content of a paper. Thus, key words can be used to represent the content of a research field structure.

Our purpose, then, is to map scientific knowledge and identify research trends in Online Information Review by bibliometric and social network analyses. Identifying the knowledge structure of scientific research in this area can help neophytes become more familiar with this field, the specific thematic aspects addressed in the investigations, and their relations and interactions. An understanding of the knowledge structure may also provide appropriate understanding to progress in a new and competitively advantageous research direction.

This study follows the methodology of Aleixandre-Benavent et al. (2016) . In our previous paper, we analysed scientific production, effects, and collaboration patterns in Online Information Review and identified research groups in a set of 758 papers included in the Web of Science database from 2000 to 2014. Of the 758 papers, 696 had key words and 428 had Keywords Plus. Only 60 papers did not have either type. We selected both types of key words.

To standardize key words, the core idea of simplicity was followed. Singulars and plurals (such as "catalogue" and "catalogues"), hyphenated words (such as "consumertrust" and "consumer trust"), and spelling variants (such as "behavior" and "behaviour") were standardized. Some key words referring to the same idea were grouped. For example, "web site", "website", "site" and "web portal" were grouped under "web sites"; "citation counts" and "citation impact" were grouped under "citation analysis".

Words with a similar meaning such as 'Hirsch index" and "h Index" or "journal impact factor" and "impact factor" were standardized as one term: in this case, 'h index" and "impact factor", respectively, were retained. After standardization, 1,612 different key words remained.

As previously described, we conducted a subject analysis considering the key words assigned to papers. A social network analysis was also conducted to identify the number of co-occurrences between key words (co-words). Co-occurrences refer to all combinations of key word pairs in each paper that are repeated in the set of papers revised. Co-word analysis has been effective in mapping the strength of the associations between key words in textual data. Social network analysis applied to co-word analysis allows us to draw network graphs that illustrate the strongest associations between descriptors (Lanza and Svendsen, 2007) . For the analysis of co-words, we adopted the assumptions presented by Law and Whittaker (1992) : a) authors of scientific papers choose their technical terms carefully; b) different terms are used in the same paper because the author recognizes some association between the terms; c) if different authors recognize the same relation, that relation may be assumed to have some significance within the area of science concerned.

The software Pajek (Batagelj and Mrvar, 2001) Table 1 includes the distribution of papers according to the assigned key words in three five-year periods. Internet is the most frequently assigned key word (n=219), followed Wide Web is the key word with the most centrality because this phrase is connected to 16 other key words, followed by Internet, which is connected to other 14 key words, and information retrieval, with 9 key words. The closest associations were between information retrieval and search engines (n=19 times), World Wide Web and search engines (n=12 times), and World Wide Web and information retrieval (n=11 times).

During the third period (2010-2014) ( Figure 5 ), the network of co-words included 19 key words, and Internet and search engines were the key words with the most centrality and connections (n=11 times). Figure 6 shows the network of co-words during the entire period. To allow this graph to be correctly visualized, a threshold of more than 3 cooccurrences was established. The resultant network includes 56 key words. The network allows for perceiving the relations between the most central key words and the specific terms associated with those words. For example, Internet, the most central key word, is strongly associated with information retrieval (n=39 times), search engines (n=17), World Wide Web (n=14) and libraries (n=14) but also with other co-words such as users (n=10), information (n=9), databases (n=9), information services (n=9), social networks (n=9), information systems (n=9) and electronic commerce (n=9). Another central phrase, information retrieval, is strongly associated with Internet (n=39 times), search engines (n=35), databases (n=19) and World Wide Web (n=16) but also with another 20 phrases such as digital libraries (n=12), user studies (n=10), information searches (n=9) and research (n=7). World Wide Web is strongly associated with information retrieval (n=16), search engines (n=16), and Internet (n=14) but also with another 12 words such as cluster analysis (n=6), knowledge management (n=6) and semantics (n=6).

8 Figure 7 presents the key words most frequently associated with 12 institutions publishing more than 9 articles in Online information Reviews. A threshold of more than 2 occurrences was established. The most frequent key words included in papers published by the University of Hawaii Manoa (Hawaii, U.S.), the most productive institution with 77 published papers, were databases (n=27), search engines (n=20), information retrieval (n=18) and research (n=13). For the second most productive institution, Victoria University of Wellington (New Zealand, n=34), the most frequent key words were World Wide Web (n=11), Internet (n=6) and search engines (n=5). For Nanyang Technological University (Nanyang, Singapore), the third most productive institution (n=25), the most frequently associated key words were Internet (n=7) and information retrieval (n=7). Figure 8 shows the key words most frequently associated with countries publishing more than 9 papers. A threshold of more than 4 occurrences was established. As seen in a previous work, of the 54 countries that contributed to the publication of papers, the United Sates ranked first with respect to scientific productivity (n=199). The most frequently used key words associated with this country were Internet (n=48), information retrieval (n=45), databases (n=33) and search engines (n=32). In second place for publishing the most papers, Taiwan (n=97) preferred Internet (n=26), World Wide Web (n=20), user acceptance (n=19) and technology acceptance model (n=18). In third place, Spain's (n=80) most used key words were Internet (n=31), World Wide Web (n=26), information (n=21), websites (n=14), electronic commerce (n=10) and disclosure (n=10).

Online Information Review using the most-assigned key words for the papers and the SNA analysis of co-words. Key words are one of the best bibliometric indicators of the content of the papers, the primary concerns addressed in the articles and identifying growth in the subject field. To develop a more comprehensive knowledge of the topics addressed in the journal, we have analysed both Author Keywords and Keywords Plus.

In this paper, we use the term keywords to refer to both types of words. The diffusion of knowledge and information regarding topics published in this journal may contribute to promoting a higher level of knowledge and cooperation within the information science community and creating a favourable environment for debate.

Several studies have been published that used bibliometric techniques and social network analyses of key words to map and assess knowledge in a particular field or topic of scientific research, including specific journals or a set of journals: consumer behaviour research (Muñoz-Leiva et al., 2012) , stem cells (Ying and Wu, 2011), field associations terms (Rokaya et al., 2008) , semantic mapping of words (Leydesdorff and Welbers, 2011) , human intelligence network (Wang et al., 2012) , ethics and dementia research (Baldwin et al., 2003) , severe acute respiratory syndrome (Chiu et al., 2004) , environmental science (Ho, 2007) , adverse drug reactions (Clarke et al., 2007) , tsunamis (Chiu and Ho, 2007) , climate change (Li et al., 2011) , and wine consumption and health (Aleixandre et al., 2013) , among others. To compare and best observe tendencies by social network analyses of co-words, we have divided the 15 analysed years into three five-year periods.

As expected, both "classical" key words related to information systems and words related to the Internet environment predominate in the first five-year period analysed (2000 to 2004) . During those years, two key words prevailed: Internet and information retrieval, both of which relate primarily to libraries, information services, search engines, user studies and databases. In the second period (2005) (2006) (2007) (2008) (2009) , the network of co-words was expanded, some words occupying a central position from the first period, such as Internet and information retrieval, World Wide Web and search engines. World Wide Web is clearly associated with search engines, information retrieval and Internet. As seen, one of the leading novelties regarding research in the preceding decades is the significance of the World Wide Web, which draws numerous spheres of research together: computer applications, electronic media, electronic commerce, and information search and retrieval (González-Alcaide et al., 2008; Orduna-Malea et al., 2015) . This consolidation is quite understandable because of the major influence of the development of the Internet as a technological tool, effecting a profound change in activities connected with library and information sciences (D'Elia et al., 2002; Tsay, 2004) . One of the key words that is notable for not being a technical term in information science is trust, a term that is representative of the concern that the reliance on integrity, reliability and honesty have in the world of the Internet and the World Wide Web.

The presence of some key words, such as user acceptance, user studies, quality or consumer behaviour, in the top positions of frequency ranking reflects the change from preceding decades. Focus has shifted from organizations' internal aspects, their problems, and their role as intermediaries to valuing the role played by users as final consumers of information and the services offered (González-Alcaide et al., 2008; Jarvelin and Vakkari, 1990; Jarvelin and Vakkari, 1993; Kumpulainen, 1991; Xu and Yao, 2015) . Increasingly, impressive growth has occurred in topics related to new technologies, databases and products, such as electronic commerce, social networks, Google Scholar, Scopus, open systems, virtual communities, and blogs. In summary, our results are consistent with previous studies, indicating that information science is an evolving discipline that draws on literature from a relatively wide range of subjects (Tsay, 2004; Tsay 2011) . As in other works, our analyses of the literature published in Online Information Review revealed the interdisciplinary nature of information science envisioned by Borko (1968) and Saracevic (1999) .

Our study has some limitations that should be addressed. First, bibliometric and social network analyses were conducted on articles included in Web of Science. We determined that using Web of Science was preferable to using Scopus or Google Scholar based on several previous works (Vandermeulen et al., 2011; Meho and Yang, 2007) . Second, conference proceedings were not included because the ideas presented in conferences are often republished in journals. However, it is possible that many of these papers were never published in refereed journals; therefore, such research was not analysed in our study. Third, because some records do not have assigned keywords, some topics may be underrepresented in our study. In addition, the quality of results from keyword analysis depends on a variety of factors, such as the quality of the keywords assigned by researchers and the accuracy with which these key words represent the content of the work. Some keywords may be too general, or authors may sometimes incorrectly emphasise topics that are not the most relevant in a research paper. General keywords may be useful in showing a rough overview of a scientific field but are less successful at representing detailed topics of a research area (Chen and Xiao, 2016) .

Future research in this area could identify the evolution of traditional topics and the emergence of new areas of research. It also would be useful to compare topics published in Online Information Review with topics included in other library and information science journals to develop a broader view of the issues addressed in this field.

This work has provided helpful insights into the research published in Online Information Review. Many areas, including the most-used key words, the network of cowords and primary topics associated with institutions and countries, have been discussed. On the basis of the research findings, some conclusions and recommendations for the key network players are suggested. The scientometric and social network analysis of key words has great potential to expand valuable understanding of the advancement of the research in a specific journal as well as in cases of emerging fields such as new technologies and processes. This study clarifies the feasibility of co-word analysis as a viable method for extracting patterns and identifying trends in the research published in a given journal. Although estimating the amount and topics of research published in Online Information Review has not previously been reported, we believe that such a study is of primary importance to current and future discussions of the researcher's decisions regarding information science and library science. First, researchers possess useful information regarding the topics published in the journal. The journal's topics aligning with their own interest could guide researchers to select Online Information Review as a candidate journal for publication. Second, policy makers must have baseline information to estimate the status of specific journals to develop adequate policy measures. Finally, journal editors must know the state of current research to effectively position the journal in relation to their competitors (Vandermeulen et al., 2011) .

In summary, our results reveal that information science, as represented by Online Information Review in the present study, is an evolving discipline that draws on literature from a relatively wide range of subjects. Although the journal appears to represent well-defined and established research topics, Online Information Review also changes rapidly to embrace new lines of research. Our findings should be of great interest to library and information scientists because such practitioners seek to understand the nature of research information science. In addition, it would be helpful for the journal editor to obtain the bibliometric portrait of the studied journal and recognize its interaction with other subject disciplines.

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