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1. A scientist like me: demographic analysis of biology textbooks reveals both progress and long-term lags

   https://doi.org/10.1098/rspb.2020.0877  

   Wood, Sara; Henning, Jeremiah A.; Chen, Luoying; McKibben, Taylor; Smith, Michael L.; Weber, Marjorie; Zemenick, Ash; Ballen, Cissy J. (June 2020, Proceedings of the Royal Society B: Biological Sciences)

   Textbooks shape teaching and learning in introductory biology and highlight scientists as potential role models who are responsible for significant discoveries. We explore a potential demographic mismatch between the scientists featured in textbooks and the students who use textbooks to learn core concepts in biology. We conducted a demographic analysis by extracting hundreds of human names from common biology textbooks and assessing the binary gender and race of featured scientists. We found that the most common scientists featured in textbooks are white men. However, women and scientists of colour are increasingly represented in contemporary scientific discoveries. In fact, the proportion of women highlighted in textbooks has increased in lockstep with the proportion of women in the field, indicating that textbooks are matching a changing demographic landscape. Despite these gains, the scientists portrayed in textbooks are not representative of their target audience—the student population. Overall, very few scientists of colour were highlighted, and projections suggest it could take multiple centuries at current rates before we reach inclusive representation. We call upon textbook publishers to expand upon the scientists they highlight to reflect the diverse population of learners in biology. 

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2. Evaluating Representation in Science through a Peer-Reviewed Research Study (Accepted)

   Ballen, C. J.; Beatty, A. E.; Granados, E. (January 2023, CourseSource)

   The demographic representation of scientists featured in biology curricular materials do not match that of the undergraduate biology student population or of the U.S. population. In this lesson, we promote awareness of inequity in science through an exercise that encourages students to think about who is depicted as scientists in science curricular materials – specifically, biology textbooks. After a brief lecture on the scientific method, students read an excerpt from the introduction of a peer-reviewed publication that provides background information on the importance of representation in science. Next, students collect data from their own biology textbook about the representation of scientists who possess different identities and make a table depicting their results. Then, students fill in predictive graphs about demographic representation over time with respect to scientist identities including gender and race/ethnicity. Students compare their predictions with the results from the peer-reviewed article and discuss the implications of the results. Finally, students apply their new knowledge by designing an experiment that would examine representation of an alternative scientist identity, such as age. Students conclude by answering questions that gauge their knowledge of the scientific method. This activity uses a peer-reviewed publication as well as authentic data generated by the student to increase ideological awareness and teach societal influences on the process of science. 

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3. The importance of science communication and public engagement to professional associations

   https://doi.org/10.1002/ase.70017  

   Dunnwald, Martine; DeLeon, Valerie B; Burrows, Anne M (March 2025, Anatomical Sciences Education)

   Abstract Scientific associations exist to serve their members and advance their science. They also provide a platform for scientists to communicate their science and engage with the public, such as hosting free resources on their web pages and organizing outreach activities with local communities. Historically, scientific associations were often internally focused. Despite the common stereotype of exclusive clubs of gentleman naturalists, there are numerous examples since the 17th century of scientific associations encouraging public engagement. This became increasingly common, and throughout the last several decades, scientific associations like the American Association for Anatomy (AAA) have been working to make changes in how science, scientists, and the public work together to produce the best scientific outcomes. This viewpoint defines different levels of relationships between the scientist and the public and how they affect outcomes related to the public's trust in science and scientists. It then provides a historical perspective on how associations have contributed to the communication of science. Lastly, it discusses the role of associations in science communication and public engagement and whether it is important for associations and why. It concludes with examples of the strategic programs of AAA that demonstrate how scientific associations can support public engagement, resulting in benefits to the public, scientists, and the anatomical sciences. 

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4. Embracing inclusivity: the case against the term 'citizen science'

   https://doi.org/10.3897/rio.10.e137412  

   Christian, Christine; Gwilliam_III, Gilbert; von_Konrat, Matt; Ahn, June; Bailey, Colleen; Dodinval, Daniel; Ellwood, Elizabeth R; Golembiewski, Kate; Higgins, Lila; Jones, Camille; et al (December 2024, Research Ideas and Outcomes)

   Participatory science and amateur participation in scientific data collection and work has been common for hundreds of years, but has become a more formalised field of practice in recent decades. The inclusion and reliance on informally trained members of the public in scientific endeavours has especially helped connect natural history collections to the general public. In recent decades, the term used to describe these participants — citizen scientists — was intended to unite formal and informal scientists as global citizens working towards a common goal. However, the term 'citizen' today has negative connotations for many members of the public and can have a polarising effect on certain individuals. Given that the nature of participatory science is to be inclusive and inviting, it is time to change this terminology. The term 'community' science has been suggested as an alternative by some practitioners and programmes. This self-awareness within the scientific community is important, but lacks impact without input from the community members potentially participating in these programmes. We addressed this knowledge gap by posing the question of term preference to groups of volunteers who have attended participatory science activities from the Field Museum of Natural History (Chicago, Illinois, USA) and the Natural History Museum of Los Angeles County (Los Angeles, California, USA) from 2019 to 2023. A majority of respondents showed a clear preference for the term 'community' over 'citizen' science. This was especially true for younger individuals and those who belong to ethnic groups other than White. This information can impact which terms are used for specific programme populations and supports community involvement in selecting terminology and in project design. We advise stopping use of the term 'citizen' in all participatory science programmes and adopting terminology that is most appropriate depending on region, research, audience and activity. Moreover, participant populations should be solicited to hear their voices. 

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5. Beyond the microscope: integrating inclusion, diversity, equity, and accessibility principles in immunology education through the IDE-A rubric

   https://doi.org/10.3389/feduc.2025.1624916  

   Davis, Claudette P; Del_Villar, Erika Lorenzana; Pandey, Sumali; Papadopoulou, Ekaterini; Ngow, Zemirah; Wenner, Cynthia A (August 2025, Frontiers in Education)

   Hughes, Lee (Ed.)

   Textbooks are essential resources for developing immunological literacy. This article emphasizes expanding educational focus beyond traditional technical content to more broadly encompass inclusion and equity in the classroom. Equitable and inclusive teaching requires thoughtful selection of course materials by applying principles of inclusion, diversity, equity, and accessibility (IDE-A), yet clear guidance using these principles for course design, especially in textbook selection, is limited. To address this gap, the authors developed and tested the IDE-A rubric and assessed a sample of immunology textbooks, widely used at both undergraduate and graduate levels, to evaluate the rubric’s utility. Each textbook was rated on the overall commitment to the principles of the IDE-A framework, assessing the extent to which the textbook authors and publishers make a concerted effort to address these principles in the introduction, preface, and/or overall framing of the content. Inclusion and diversity were evaluated by examining evidence of stereotype threat, including the use of names in case studies and questions, the selection of textbook imagery, and how diverse representations, perspectives, and voices were acknowledged and incorporated into descriptions of concepts and historical context. Equity and accessibility were assessed by evaluating availability of textbooks and ancillary materials at no cost or reduced price, availability of multiple textbook formats, and publisher’s provision of accessible versions. Furthermore, the rubric could help instructors maintain diversity within STEM fields. This study is one of the first structured evaluations thatapplyIDE-A principles in textbook selection, demonstrating how looking “beyond the microscope” creates more inclusive learning environments. 

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