Archives For symbol systems

Author Information: Francisco Collazo-Reyes, Centro de Investigación y de Estudios Avanzados del IPN,
Hugo García Compeán, Centro de Investigación y de Estudios Avanzados del IPN
Miguel Ángel Pérez-Angón, Centro de Investigación y de Estudios Avanzados del IPN
Jane Margaret-Russell, Universidad Nacional Autónoma de México

Collazo Reyes, Francisco; Hugo García Compeán, Miguel Ángel Pérez-Angón, Jane Margaret-Russell,. “The Nature of the Eponym.” Social Epistemology Review and Reply Collective 7, no. 6 (2018): 12-15.

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Image by Mark Hogan via Flickr / Creative Commons


We agree in general with the comments made by G. Vélez-Cuartas (2018), on our paper published recently in Social Epistemology (Collazo-Reyes, et al, 2018). He accepts the use of our methodology in the analysis of the eponym of Jerzy Plebanski and at the same time, suggests applying this methodology to search for the formation of invisible colleges or scientific networks associated with the emergence of epistemic communities.

This was not a direct goal of our work but we included some related aspects in the revised version of our manuscript that may seem somewhat distant from the ambit of the eponym: namely, intertextuality, obliteration by incorporation, scientometrics networks, invisible colleges, epistemic communities, Jerzy Plebanski and “plebanski”. All these topics are keywords to access our paper in the indexes of scientific literature. These aspects distinguish our methodology from other approaches used in almost a thousand papers that addressed the issue of eponyms, according to a recent search for this topic in Web of Science database.

Within this framework, we appreciate the author’s suggestion to extend our analysis to other subject areas since “eponym as a scientometric tool sounds good as a promising methodology”. In particular, “to induce an analysis on other areas of sociology of science and social epistemology” in order “to reach a symbolic status in a semantic community that is organized in a network of meaning” and could show “a geographical penetration of scientific institutions and global dynamics of scientific systems” (Vélez-Cuartas, 2018).

Traditionally, published work on eponymy has studied the contribution or influence of certain authors in their respective scientific disciplines through biographies, tributes, eulogies or life histories and narratives. Some of these have been published as a series of studies like “Marathon of eponyms” (Scully et al., 2012) or “The man behind the eponym” (Steffen, 2004). The post-structuralism movement mentioned in our paper (Collazo-Reyes, et al, 2018) has criticized this approach.

In scientific texts, the use of the term “plebanski”, as an eponym of the proper name of Jerzy Plebanski, corroborates the recognition given by various authors to the work developed by the Polish scientist. Acknowledgement is apparent in cognitive texts on different aspects of plebanski’s contributions and in this context; the “plebanski” term is cited as a cognitive entity macro-referenced in the framework of scientific communication (Pang, 2010).

We would like to mention two points related to future applications of our findings on the use of eponym in the Latin American scientific literature:

1) The process involved in the construction of an eponym inherently generates a macro-referential scheme that is not considered in the cognitive structure of the databases of the bibliographical indices. The operational strength of the intertextuality associated with the referential process helps to generate socio-cognitive relations and space-time flows of scientific information.

This scheme requires characterization through a relatively exhaustive search in the different variants of the bibliographical indices: references, abstracts, citations, key words, views, twitters, blogs, Facebook, etc. (WoS, Scopus, arXiv, INSPIRE, ADS/NASA, Google citation, altmetric platforms). Most of these have arisen within the domain of the traditional bibliographical databases. Therefore, there is a clear possibility to generate an eponym index to characterize the intertextual structures not associated with the known bibliographical indices.

2) We coincide with the author on the need to take a new approach to carrying out an exhaustive search of eponyms as related to the Latin American scientific community. We are interested in characterizing the geography of collaboration at different levels: local, national, regional, and international (Livingstone, 2003; Naylor, 2005). This approach has been followed in the study of the geographical origin of eponyms in relation to the dominant system of scientific communication (Shapin, 1998; Livingstone, 1995, 2003; Geographies of Science, 2010).

We made a first attempt in this direction in our study of the “plebanski” eponym in the area of mathematical physics. In this paper, we made use of the methodology involved in “geographies of science” (Livingstone, 2010; Geographies of Science, 2010; Knowledge and Space, 2016) with theoretical tools that enhance the projections made in the framework of the sociology of science, bibliometrics and science communication.

In particular, the “spatial turn” movement (Finnegan, 2008; Gunn, 2001; Frenken, 2009; Fa-ti, 2012) offers a new dimension in the development of information systems, maps and networks using an innovative methodology such as “spatial scientometrics” (Frenken et al., 2009; Flores-Vargas, et al, 2018).

The new proposal considers, in each application of an eponym, the original source of authors, institutions, journals and subject matters. Each source includes the position in the geographical distribution of scientific knowledge associated with a given discipline. This information is then referred to as “geo-reference” and the eponyms as “macro-georeferenced” entities.

In this scheme, the generation of eponyms involves the combination of the different sources for authors, institutions, journals and subject areas. The resulting network may develop new aspects of the distribution mechanism of the asymmetrical power associated with the geographies of knowledge (Geographies of Knowledge and Power, 2010).

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Collazo-Reyes, F., H. García-Compeán, M. A. Pérez-Angón, and J. M. Russell. 2018.  “Scientific Eponyms in Latin America: The Case of Jerzy Plebanski in the Area of Mathematical Physics.” Social Epistemology 32 (1): 63-74.

Fa-ti, F. 2012. “The global turn in the history of science.” East Asian Science, Technology and Society: An International Journal 6 (2): 249-258.

Finnegan, D. A. 2008. “The spatial turn: Geographical approaches in the history of science.” Journal of the History of Biology, 41 (2): 369-388.

Flores-Vargas, X., S. H. Vitar-Sandoval, J. I. Gutiérrez-Maya, P. Collazo-Rodríguez, and F. Collazo-Reyes. 2018. “Determinants of the emergence of modern scientific knowledge in mineralogy (Mexico, 1975-1849): a geohistoriometric approach.” Scientometrics,

Frenken, K. 2009. Geography of scientific knowledge: A proximity approach. Eindhoven Centre for Innovation Studies (ECIS), working paper 10.01. wp1001.pdf. Accessed 4 June 2016.

Frenken, K., S. Hardeman, and J. Hoekman. 2009. “Spatial scientometrics: Toward a cumulative research program.” Journal of Informetrics 3 (3): 222–232.

Geographies of Science. 2010. Peter Meusburger, David N. Livingstone, Heike Jöns, Editors. London, New York; Springer Dordrecht Heidelberg, ISBN 978-90-481-8610-5 DOI 10.1007/978-90-481-8611-2.

Geographies of Knowledge and Power. 2010. Peter Meusburger, David N. Livingstone, Heike Jöns, Editors. London, New York; Springer Dordrecht Heidelberg. 347 p.  DOI 10.1007/978-90-481-8611-2.

Gunn, S. 2001. “The spatial turn: Changing history of space and place”. In: S. Gunn & R. J. Morris (Eds.), Identities in space: On tested terrains in the Western city science 1850. Aldershot: Asghate.

Knowledge and space. 2016. Peter Meusburger, David N. Livingstone, Heike Jöns, Editors. London, New York; Springer Dordrecht Heidelberg, ISBN 978-90-481-8610-5 DOI 10.1007/978-90-481-8611-2.

Livingstone, D. N. 2003. “Putting Science in Its Place: Geographies of Scientific Knowledge.” Chicago.

Livingstone, D. N. 1995. “The spaces of knowledge: Contributions towards a historical.” Geography of Science 13 (1): 5–34.

Livingstone, D. N. (2010). “Landscapes of Knowledge” In: Geographies of Science, edited by Peter Meusburger, David N. Livingstone, Heike Jöns, Editors. London, New York; Springer Dordrecht Heidelberg,

Naylor, S. 2005. “Introduction: Historical geographies of science—Places, contexts, cartographies.” British Journal for the History of Science, 38: 1–12.

Pang, Kam-yiu S. 2010. “Eponymy and life-narratives: The effect of foregrounding on proper names.” Journal of Pragmatics 42 (5): 1321-1349.

Scully, C., J. Langdon, and J. Evans. 2012. “Marathon of eponyms: 26 Zinsser-Engman-Cole syndrome (Dyskeratosis congenita).” Oral Diseases 18 (5): 522-523.

Shapin, S. 1998. “Placing the view from nowhere: Historical and sociological problems in the location of science.” Transactions of the Institute of British Geographers, New Series 23: 5–12.

Steffen, C. 2004. “The man behind the eponym – Lauren v. Ackerman and verrucous carcinoma of Ackerman.” American Journal of Dermatopathology 26 (4): 334-341. /10.1007/s11192-018-2646-5.

Veles-Cuartas, G. 2018. “Invisible Colleges 2.0: Eponymy as a Scientometric Tool.” Social Epistemology Review and Reply Collective 7 (3) 5-8.

Author Information: Gabriele Gramelsberger, Institute of Advanced Studies on Media Cultures of Computer Simulation (MECS), Leuphana University of Lüneburg,

Gramelsberger, Gabriele. “Symbol Systems as Cognitive and Performative Hybrids: A Reply to Axel Gelfert.” Social Epistemology Review and Reply Collective 4, no. 8 (2015): 89-94.

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Image credit: John Kannenberg, via flickr

Symbol systems such as mathematical formalisms, diagrammatic methods, and visual symbol systems are used widely in science as representational resources and often give rise to what are generally referred to as ‘scientific models’. This has led to an extensive philosophical debate on the nature of such models (for an overview see Frigg and Hartmann 2012). While many philosophers have discussed models in terms of realisms and truth, pragmatic viewpoints are often underrated, in particular when it comes to the individual researchers’ ability to apply and advance such symbol systems. Axel Gelfert’s paper argues for a pragmatic perspective and recognizes the work of Mary Hesse and Nelson Goodman as advancing interesting theories concerning the individual and collaborative use of models (Hesse 1963; Goodman 1976). Continue Reading…

Author Information: Axel Gelfert, National University of Singapore,

Gelfert, Axel. “Symbol Systems as Collective Representational Resources: Mary Hesse, Nelson Goodman, and the Problem of Scientific Representation.” Social Epistemology Review and Reply Collective 4, no. 6 (2015): 52-61.

The PDF of the article gives specific page numbers. Shortlink:


Image credit: John Kannenberg, via flickr

This short paper grew out of an observation—made in the course of a larger research project—of a surprising convergence between, on the one hand, certain themes in the work of Mary Hesse and Nelson Goodman in the 1950/60s and, on the other hand, recent work on the representational resources of science, in particular regarding model-based representation. When it comes to scientific models, a number of recent authors have emphasized their status as ‘concrete artefacts, which are built by various representational means’ (Knuuttila 2011, 267), the importance of ‘mature mathematical formalisms’ which encompass ‘locally applicable rules for the manipulation of [their] notation’ (Gelfert 2011, 272), and model users’ reliance on other ways ‘to alleviate the cognitive load and increase the reliability of [their] inferences’ (Kuorikoski and Ylikoski 2014, 7).  Continue Reading…