Abstract
Understanding Evolution in Darwin’s “Origin”: The Emerging Context of Evolutionary Thinking aims to encourage the reading of On the Origin of Species and to include it in the teaching of evolution. With a comprehensive overview of the development of Darwin’s theory, the volume provides relevant aspects of Darwin’s life and work in connection with the broader context of his time. The historical and philosophical analysis, mirrored in the sociocultural scope, enables the diachronic reading of the text. It is built on various sources of historians and philosophers of science and sheds fresh light on them. Its uniqueness is the broad structure that covers four parts: the pre-Darwinian concepts of species changes; some key elements of Darwin’s pursuit of the causes of evolution, from his voyage on Beagle to the publication of his groundbreaking work; chapter-by-chapter analysis of the “Origin”; and subsequent developments in evolutionary thought.
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Notes
- 1.
The idea comes from the parallelism thesis of Jean Piaget and Rolando García presented in Psicogénesis e Historia de la ciencia (1983/2008). Despite the criticism that the development of science does not follow a linear and progressive course, such parallels between the development of notions and cognitive operations from elementary to higher levels of cognition can be traced between early and advanced stages of a given theory.
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In the introduction of her online variorum edition, Barbara Bordalejo identified six types of changes: depersonalization, reinforcement, objectivization, clarification, updating, and semantic changes. This variorum identified every change made by Darwin between the six British editions from 1859 to 1872 and can be consulted on open platforms accessible at <http://darwin-online.org.uk/Variorum/Introduction.html>.
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The first edition is finally available in reliable Portuguese translations coincidentally published in 2018. The volume edited by Edipro includes a careful review of the translation of biological terms by Nelio Bizzo, who also provides a preface and extensive notes that offer conceptual, epistemic, and historical contexts. On the other hand, the Ubu edition, while encountering some issues with biology terms, may be seen as closer to Darwin’s style of writing. It includes additional texts, such as the publication with Wallace in 1858, the historical sketch, and the new seventh chapter, among others. These translations contribute to making the first edition more accessible to readers in the Brazilian context.
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For some examples of the difficulties of a functional understanding of natural selection, see Anderson et al. (2002); Tidon and Lewontin (2004); Gregory (2008); Sinatra et al. (2008); Gregory (2009); Rosengren et al. (2012); Kampourakis and Nehm (2014); Cooper (2017); Bizzo (2019); Harms and Reiss (2019); and Oliveira and Cook (2019).
- 6.
At the Laboratory of the History of Biology and Teaching (LaHBE) at the Institute of Biosciences of the University of São Paulo, postgraduate research has been conducted on teaching evolution with an inquiry-based approach and using diverse strategies including primary sources, replication of historical experiments, narratives, and web games such as Silva (2013); Souza (2014, 2021); Jensen (2016); and Cortez (2018).
- 7.
In Brazil, unlike countries like the United States, the study of rhetorical language devices is primarily limited to Portuguese classes, typically at the secondary school level. This confinement creates the perception that these resources are only relevant within that specific context. However, if rhetorical devices were incorporated into the teaching and learning objectives across all disciplines, along with other metalinguistic aspects, students would be equipped to identify and analyze their usage in various texts, including scientific language. Such inclusion would be particularly valuable when engaging with science communication in both traditional and digital media.
- 8.
Literature on NOS is extensive, and while acknowledging that the selection is subjective, here are some influential works: Jenkins (1990, 2013); Lederman (1992, 2019); Pérez et al. (2001); McComas (2002, 2020); Matthews (2012); Allchin (2013); Erduran and Dagher (2014); Lederman (2019). A special issue of the Brazilian journal Filosofia e História da Biologia (volume 8, number 3, 2013) focuses on episodes developed for high school education, available in Portuguese at <https://www.abfhib.org/revista/>. For Latin American works on the history, philosophy, and sociology of science in education, Prestes and Silva (2018) have compiled a collection.
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References
Allchin, D. (2013). Teaching the nature of science: Perspectives & resources. SHiPS.
Anderson, D. L., Fisher, K. M., & Norman, G. J. (2002). Development and evaluation of the conceptual inventory of natural selection. Journal of Research in Science Teaching, 39(10), 952–978.
Bizzo, N. M. V. (1992). Darwin on man in the “origin of species”: Further factors considered. Journal of the History of Biology, 25(1), 137–147.
Bizzo, N. (2014). Prefácio. In C. Darwin (Ed.). A Origem das Espécies (Trad. of 1872 sixth edition by Carlos Duarte e Anna Duarte) (pp. 7–13). Martin Claret.
Bizzo, N. (2018). Prefácio, revisão técnica e notas. In C. Darwin (Ed.). Sobre a Origem das Espécies por meio da seleção natural ou A preservação de raças favorecidas na luta pela vida (Trad. of 1859 first edition by Daniel Moreira Miranda). Edipro.
Bizzo, N. (2019). What is the role of sound evidence in evolution education? A research program following students’ narratives in Brazil and elsewhere. In A. Oliveira & K. Cook (Eds.). Evolution education and the rise of the creationist movement in Brazil (pp. 231–248). Lexington Books.
Bizzo, N. (2020). The history of science and science education: Tools for the practice and research in schools. In C. N. El-Hani, E. F. Mortimer, M. Pietrocola, & M. R. Otero (Eds.). Science education research in Latin America (pp. 426–456). Brill.
Bradley, B. S. (2009). Darwin’s sublime: The contest between reason and imagination in On the origin of species. Journal of the History of Biology, 44, 205–232.
Browne, J. (2022). Reflections on Darwin historiography. Journal of the History of Biology, 55(3), 1–13.
Cohen, J. I. (2016). Exploring the nature of science through courage and purpose: A case study of Charles Darwin’s way of knowing. Springerplus, 5, 1532.
Cooper, R. A. (2017). Natural selection as an emergent process: Instructional implications. Journal of Biological Education, 51(3), 247–260.
Cortez, E. P. M. (2018). Descobrindo a seleção natural: uma proposta de ensino baseada na história da ciência. Dissertação (Mestrado em Ensino de Ciências) – Universidade de São Paulo.
Deniz, H., & Borgerding, L. A. (Eds.). (2018). Evolutionary theory as a controversial topic in science curriculum around the globe. In Evolution education around the globe (pp. 3–11). Springer.
Dennison, R. (1993). Using Darwin’s experimental work to teach the nature of science. The American Biology Teacher, 55(1), 5052.
Duschl, R. A. (1994). Research on the history and philosophy of science. In D. L. Gabel (Ed.). Handbook of research on science teaching and learning: A project of the National Science Teachers Association (pp. 445–465). MacMillan.
Duschl, R. A., & Grandy, R. (2013). Two views about explicitly teaching nature of science. Science & Education, 22, 2109–2139.
Endersby, J. (Ed.). (2009). Appendix 1, An evolving origin. In Charles Darwin: On the origin of species. Cambridge University Press.
Erduran, S., & Dagher, Z. R. (2014). Reconceptualizing the nature of science for science education: Scientific knowledge, practices and other family categories. Springer.
Flick, L. B., & Lederman, N. G. (Eds.). (2006). Scientific inquiry and nature of science: Implications for teaching, learning, and teacher education. Springer.
Gregory, T. R. (2008). Understanding evolutionary trees. Evo Edu Outreach, 1, 121–137.
Gregory, T. R. (2009). Understanding natural selection: Essential concepts and common misconceptions. Evo Edu Outreach, 2, 156–175.
Hall, T. S. (Ed.). (1970). A source book in animal biology. Cambridge University Press.
Harms, U., & Reiss, M. J. (2019). Evolution education re-considered: Understanding what works. Springer.
Hodge, J. (1992). Darwin’s argument in the origin. Philosophy of Science, 59(3), 461–464.
Hodge, J. (2013). Darwin’s book: On the origin of species. Science & Education, 22(9), 2267–2294.
Hodson, D. (2009). Making NOS teaching explicit and reflexive. In Teaching and learning about science: Language, theories, methods, history, traditions and values (pp. 77–112). Rotterdam.
Jenkins, E. W. (1990). The history of science in British schools: Retrospect and prospect. International Journal of Science Education, 12(3), 274–281.
Jenkins, E. W. (2013). The “nature of science” in the school curriculum: The great survivor. Journal of Curriculum Studies, 45(2), 132–151.
Jensen, G. M. (2016). Charles Darwin e os peixes elétricos: História e natureza da ciência no ensino de ciências na Educação de Jovens e Adultos. Tese (Doutorado em Ciências Biológicas, Biologia/Genética) – Universidade de São Paulo.
Kampourakis, K., & Zogza, V. (2009). Preliminary evolutionary explanations: A basic framework for conceptual change and explanatory coherence in evolution. Science & Education, 18, 1313–1340.
Kampourakis, K. (2010). Jim Endersby: Charles Darwin: On the origin of species. Science & Education, 19, 827–831.
Kampourakis, K., & Nehm, R. H. (2014). History and philosophy of science and the teaching of evolution: Students’ conceptions and explanations. In M. Matthews (Ed.). International handbook of research in history, philosophy and science teaching (Vol. 1, pp. 377–399). Springer.
Khishfe, R., & Abd-El-Khalick, F. (2002). Influence of explicit and reflective versus implicit inquiry-oriented instruction on sixth graders’ views of nature of science. Journal of Research in Science Teaching, 39(7), 551–578.
Lederman, N. G. (1992). Students’ and teachers’ conceptions of the nature of science: A review of the research. Journal of Research in Science Teaching, 29(4), 331–359.
Lederman, N. G., & Lederman, J. S. (2014). Research on teaching and learning of nature of science. In N. G. Lederman & S. K. Abell (Eds.). Handbook of research on science education (Vol. II, pp. 600–620). Routledge.
Lederman, N. G. (2019). Contextualizing the relationship between nature of scientific knowledge and scientific inquiry: Implications for curriculum and classroom practice. Science & Education, 28, 249–267.
Lederman, J., Lederman, N., Bartles, S., & Jimenez, J. (2019). An international collaborative investigation of beginning seventh grade students’ understanding of scientific inquiry: Establishing a baseline. Journal of Research in Science Teaching, 56, 486–515.
Lorsbach, A. W., Meyer, A. A., & Arias, A. M. (2019). The correspondence of Charles Darwin as a tool for reflecting on nature of science. Science & Education, 28, 1085–1103.
Martins, L. A-C. P. (1997). A teoria cromossômica da herança: Proposta, fundamentação, crítica e aceitação. Tese (Doutor em Ciências, área de concentração de Genética e Evolução) – Universidade de Campinas.
McComas, W. F. (Ed.). (2002). Nature of science in science instruction: Rationales and strategies. Kluwer.
McComas, W. F. (Ed.). (2020). Nature of science in science instruction: Rationales and strategies. Springer.
Matthews, M. (2003). The nature of science and science teaching. In B. J. In Fraser & K. G. Tobin (Eds.). International handbook of science education. Part two (pp. 981–1000). Kluwer.
Matthews, M. (2012). Changing the focus: From Nature of Science (NOS) to Features of Science (FOS). In M. S. Khine (Ed.). Advances in nature of science research (pp. 3–26). Springer.
Matthews, M. (2022). Thomas Kuhn and science education: Learning from the past and the importance of history and philosophy of science. Science & Education. https://doi.org/10.1007/s11191-022-00408-1
Matthews, M. R. (2023). Cultural studies in science education: A philosophical appraisal. Cultures of Science. https://doi.org/10.1177/20966083231173721
Moulton, F. R., & Schifferes, J. J. (1957). Autbiografia da Ciência (Trad. português de Mário Henrique Leiria). Sociedade de Intercâmbio Cultural Luso-Brasileiro. 2 vols.
Oliveira, A., & Cook, K. (2019). Evolution education and the rise of the creationist movement in Brazil. Lexington Books.
Pérez, D. G., Montoro, I. F., Alís, J. C., Cachapuz, A., & Praia, J. (2001). Para uma Imagem não deformada do trabalho científico. Ciência & Educação, 7(2), 125–153.
Piaget, J., & García, R. (1983/2008). Psicogénesis e Historia de la ciencia. Siglo XXI.
Prestes, M. E. B., & Silva, C. C. (Eds.). (2018). Teaching science with context: Historical, philosophical, and sociological approaches. Springer.
Pumfrey, S. (1991). History of science in the national science curriculum: A critical review of resources and their aims. British Journal for the History of Science, 24, 61–78.
Radick, G. (2009). Is the theory of natural selection independent of it’s history? In J. Hodge & G. Radick (Eds.), The Cambridge companion to Darwin. Cambridge University Press.
Regner, A. C. K. P. (2006). A Polêmica Darwin versus Mivart: Uma lição em refutar objeções. Filosofia e História da Biologia, 1, 55–89.
Reznick, D. N. (2009). The origin then and now: An interpretive guide to the origin of species. Princeton University Press.
Richards, R., & Ruse, M. (Eds.). (2016). Debating Darwin. Chicago University Press.
Rosengren, K. S., Brem, S. K., Evans, E. M., & Sinatra, G. M. (Eds.). (2012). Evolution challenges: Integrating research and practice in teaching and learning about evolution. Oxford University Press.
Rudge, D. W., Cassidy, D. P., Fulford, J. M., & Howe, E. M. (2014). Changes observed in views of nature of science during a historically based unit. Science & Education, 23, 1879–1909.
Rudge, D. W., & Howe, E. M. (2009). An explicit and reflective approach to the use of history to promote understanding of the nature of science. Science & Education, 18, 561–580.
Ruse, M. (Ed.). (2009). Philosophy after Darwin: Classic and contemporary readings. Princeton University Press.
Ruse, M. (2013a). Teaching the classics: The origin of species as a case study. Science & Education, 22, 2255–2265.
Ruse, M. (Ed.). (2013b). The Cambridge encyclopedia of Darwin and evolutionary thought. Cambridge University Press.
Scheiner, S. (2010). Toward a conceptual framework for biology. The Quarterly Review of Biology, 85(3), 293–318.
Silva, T. T. (2013). Darwin na sala de aula: Replicação de experimentos históricos para auxiliar a compreensão da teoria evolutiva. Dissertação (Mestrado em Ensino de Ciências) – Universidade de São Paulo.
Sinatra, G. M., Brem, S. K., & Evans, E. M. (2008). Changing minds? Implications of conceptual change for teaching and learning about biological evolution. Evo Edu Outreach, 1, 189–195.
Sloan, P. (2019). Darwin: From origin of species to descent of man, The Stanford encyclopedia of philosophy (Summer 2019 Edition) (E. N. Zalta, Ed.). https://plato.stanford.edu/archives/sum2019/entries/origin-descent/
Smith, M. U., & Scharmann, L. (2008). A multi-year program developing an explicit reflective pedagogy for teaching pre-service teachers the nature of science by ostention. Science & Education, 17, 219–248.
Souza, R. A. L. d. (2014). A viagem de Wallace ao Brasil: uma aplicação da história da ciência no ensino de biologia. Dissertação (Mestrado em Ensino de Ciências) – Universidade de São Paulo.
Souza, R. A. L. d. (2021). A viagem de Wallace ao Brasil: uma aplicação da história da ciência no ensino de biologia. Dialética.
Tidon, R., & Lewontin, R. C. (2004). Teaching evolutionary biology. Genetics and Molecular Biology, 27(1), 124–131.
Waters, C. K. (2009). The arguments in the origin of species. In R. Richards & M. Ruse (Eds.). The Cambridge companion to the “origin of species” (pp. 120–143). Cambridge University Press.
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Elice Brzezinski Prestes, M. (2023). Introduction: Why Read the “Origin of Species”?. In: Elice Brzezinski Prestes, M. (eds) Understanding Evolution in Darwin's "Origin". History, Philosophy and Theory of the Life Sciences, vol 34. Springer, Cham. https://doi.org/10.1007/978-3-031-40165-7_1
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