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1. Bringing Global Ecological Research to Undergraduate Students Through Citizen Science

   https://doi.org/10.1002/bes2.2169  

   Vance‐Chalcraft, Heather D; Gates, Terry A; Hurlbert, Allen H (July 2024, The Bulletin of the Ecological Society of America)

   Research integrated into higher education curricula has been shown by numerous studies to be beneficial to undergraduate students. Citizen science provides an alternative to research performed in a lab and is gaining traction as a good choice for integration into classes. The Undergraduate Student Experiences in Citizen Science (USE Cit Sci) research collaboration network is working to help more instructors in higher education adopt citizen science as part of their curriculum by providing training and educational materials. To date, the Network has identified areas of critical need for citizen science to be more readily used in higher education courses and created a clearinghouse of lessons for faculty to use freely. Forthcoming products of the USE Cit Sci network include direct partnerships between educators and citizen science projects in addition to a peer mentoring program. Given the preponderance of ecology citizen science projects available, bringing this educational opportunity to students opens new avenues of pedagogical experiences. 

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2. Work in Progress: Citizen Scientists’ Description of an Engineer

   Stewart, Kenneth; Castaneda, Daniel I; Bolhari, Azadeh. (June 2020, ASEE annual conference exposition proceedings)

   Observations from a citizen science engineering research project revealed implications for the formation of engineering students. Citizen scientist participants engaged in a months-long project to design, build, and use rainwater harvesting tanks. Their perceptions toward engineers and engineering were gathered from interviews and focus groups conducted at the start, interim, and conclusion of the project. Through a domain analysis of the transcripts, the authors found that the citizen scientists’ perceptions toward engineering as a process were greatly influenced by their participation in the project. However, their perceptions of engineers as persons did not change. Interestingly, the citizen scientists volunteered their own “funds of knowledge” about engineering skillsets and “habits of mind” but did not connect their personal traits and skills to engineering or engineers. Since the rainwater harvesting project of the citizen scientists was similar to the open-ended, project-based learning experiences of many engineering students, we posit that student perceptions of the engineering process are strongly influenced by project-based learning, but the impact on their engineering identity is limited. We explore the theoretical possibility of using asset-based community development (ABCD) mapping techniques to connect personal student strengths to communities in the context of open-ended, project-based engineering design. 

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3. Online citizen science in higher education courses

   https://doi.org/10.1002/ecs2.70352  

   Cotey, Stacy R; Dunbar‐Wallis, Amy K; Golumbic, Yaela N; Mehrotra, Pankaj; Beamer, David A; Vance‐Chalcraft, Heather D (July 2025, Ecosphere)

   Climate change and biodiversity loss require us to engage the next generation of scientists in addressing global ecological issues. Introducing undergraduate students to citizen science allows them to learn scientific processes and content while contributing to real‐world applications. We conducted a systematic review of literature to (1) identify what types of undergraduate courses and institutions use citizen science, (2) list the projects and platforms that have been implemented in online courses in undergraduate education, (3) examine how students participated in the projects through online courses, and (4) summarize learning objectives and reported benefits of student participation. In all, 44 studies about the use of citizen science in undergraduate online courses were found in 25 papers in the published literature. The most common projects consisted of classification of species or natural history (e.g., iNaturalist), which could be done mainly online but with data collection completed at a location available to the student. Citizen science projects were incorporated into multiple course formats (e.g., lecture, lab) and class sizes, and students were most frequently asked to collect and submit data. The most frequently reported learning outcomes included increased student interest/engagement, improved appreciation for the relevance of science to the “real world,” and practice using the scientific process, but rigorous assessment data were lacking in papers. The use of citizen science in online courses and institutions appears to be increasing, and we encourage faculty using these approaches with students to publish on their efforts, providing details about their implementation, assessment, and course context. 

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4. Re-envisioning Biology Curricula to Include Ideological Awareness

   https://doi.org/10.1007/s11165-023-10101-0  

   Costello, Robin A.; Beatty, Abby E.; Dunk, Ryan D.; Ewell, Sharday N.; Pruett, Jenna E.; Ballen, Cissy J. (February 2023, Research in Science Education)

   Georgiou, H. (Ed.)

   Addressing the challenges facing society and the world will require an understanding of the biases and limitations of science. To combat these challenges, here, we advocate for the incorporation of ideologically aware (IA) material into postsecondary biology curricula. IA materials communicate to students how biases, assumptions, and stereotypes inform approaches to and outcomes of science. By engaging with IA materials, student awareness of the impact of science on social problems is expected to increase. In this paper, we situate this IA approach with two other pedagogical approaches that incorporate societally relevant content: culturally relevant pedagogy and socioscientific issues. We then call for research to test ways of supporting instructor implementation of IA material, to evaluate the impact of IA topics on student academic and sociopsychological outcomes, and to explore how to implement IA material in different cultural and social settings. Throughout, we focus on IA topics in the context of postsecondary biology classrooms but encourage the incorporation of IA materials across scientific disciplines and educational settings. Our hope is that greater inclusion of IA materials will create more transparent, scientifically accurate, and inclusive classrooms. 

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5. A New Curriculum Development Model for Improving Undergraduate Students’ Data Literacy and Self-Efficacy in Online Astronomy Classrooms

   https://doi.org/10.32374/AEJ.2022.2.1.043ra  

   Simon, Molly; Prather, Edward; Rosenthal, Isaac; Cassidy, Michael; Hammerman, James; Trouille, Laura (October 2022, Astronomy Education Journal)

   There is a critical need for research-based active learning instructional materials for the teaching and learning of STEM in online courses. Every year, hundreds of thousands of undergraduate non-science majors enroll in general education astronomy courses to fulfill their institution’s liberal arts requirements. When designing instructional materials for this population of learners, a central focus must be to help learners become more scientifically and data literate. As such, we developed a new, three-part, curricular model that was used to inform the creation of active-learning instructional materials designed for use in online courses. The instructional materials were designed to help introductory astronomy students engage meaningfully with science while simultaneously improving their data literacy self-efficacy (especially as it pertained to making evidence-based conclusions when presented with a variety of data representations). We conducted a pilot study of these instructional materials at nine different colleges and universities to better understand whether students’ engagement with these materials lead to improved beliefs and self-efficacy. The results of our student survey analysis showed statistically significant changes on survey items that assessed students’ beliefs about science engagement, citizen science, and their data literacy skills. Additionally, we assessed whether faculty who implemented these materials were able to easily incorporate them into existing online astronomy courses. The instructor feedback emphasized that our curriculum development model did successfully inform the creation of easy-to-implement instructional materials, generating the potential for widespread dissemination and use at the undergraduate level. 

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