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Part II - Implementation, Approaches, Methods

Published online by Cambridge University Press:  11 August 2022

Harald A. Mieg
Affiliation:
Humboldt-Universität zu Berlin
Elizabeth Ambos
Affiliation:
Council on Undergraduate Research, Washington DC
Angela Brew
Affiliation:
Macquarie University, Sydney
Dominique Galli
Affiliation:
Indiana University–Purdue University, Indianapolis
Judith Lehmann
Affiliation:
Universidad de Buenos Aires, Argentina
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Print publication year: 2022

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References

References

Clark, W. (2006). Academic charisma and the origins of the research university. University of Chicago Press.Google Scholar
Groppe, C. (2012). “Bildung durch Wissenschaft”: Aspekte und Funktionen eines traditionellen Deutungsmusters der deutschen Universität im historischen Wandel. Bildung und Erziehung, 65(2), 169181.CrossRefGoogle Scholar
Huber, L. (2013). Die weitere Entwicklung des Forschenden Lernens. Interessante Versuche – dringliche Aufgaben. In Huber, L., Kröger, M., & Schelhowe, H. (Eds.), Forschendes Lernen als Profilmerkmal einer Universität. Beispiele aus der Universität Bremen (S. 2136). UniversitätsVerlagWebler.Google Scholar
Humboldt, W. v. (1810/2010). Über die innere und äussere Organisation der höheren wissenschaftlichen Anstalten in Berlin. In Wilhelm von Humboldt, : Schriften zur Politik und zum Bildungswesen. Werke in fünf Banden, Band IV (S. 255266). A. Flitner & K. Giel / Wissenschaftliche Buchgesellschaft.Google Scholar
Kaufmann, M. E., & Schelhowe, H. (2019). Inquiry-based learning as a teaching profile at institutions of higher learning: The example of the University of Bremen. In Mieg, H. A. (Ed.), Inquiry-based learning – Undergraduate research: The German multidisciplinary experience (pp. 355382). Springer (open access). https://doi.org/10.1007/978-3-030-14223-0Google Scholar
Levy, P., & Petrulis, R. (2012). How do first-year university students experience inquiry and research, and what are the implications for the practice of inquiry-based learning? Studies in Higher Education, 37(1), 85101.CrossRefGoogle Scholar
Reinmann, G. (2016). Forschungsorientierung in der akademischen Lehre. Impact Free: Journal für freie Bildungswissenschaftler, 1, 15.Google Scholar
Ricken, N. (2014). Die wissentliche Universität – Eine Einführung in Lage und Idee(n) der Universität. In Ricken, N., Koller, H.-Ch., & Keiner, E. (Eds.), Die Idee der Universität – Revisited (S. 1130). Springer VS.Google Scholar
Schleiermacher, F. (1808/2000). Gelegentliche Gedanken über Universitäten im deutschen Sinn. In Schleiermacher, F. (Ed.), Texte zur Pädagogik (Vol. 1, S. 101165). Suhrkamp.Google Scholar
Schwinges, R. C. (1993). Der Student in der Universität. In Rüegg, W. (Ed.), Geschichte der Universität in Europa. Band 1: Mittelalter (S. 181223). Beck.Google Scholar
Tremp, P., & Hildbrand, T. (2012). Forschungsorientiertes Studium – Universitäre Lehre: Das «Zürcher Framework» zur Verknüpfung von Lehre und Forschung. In Brinker, T. & Tremp, P. (Eds.), Einführung in die Studiengangentwicklung (S. 101116). Bertelsmann.Google Scholar
Universität Bremen. (2021). Gut lehren und lernen. Retrieved March 29, 2021, from www.uni-bremen.de/lehre-studiumGoogle Scholar
Weber, W. E. J. (2002). Geschichte der europäischen Universität. Kohlhammer.Google Scholar

References

Bastiaens, E., van Tilburg, J., & van Merriënboer, J. J. G. (Eds.). (2017). Research-based learning: Case studies from Maastricht University. Springer.Google Scholar
Hung, W., Dolmans, D., & van Merriënboer, J. (2019). A review to identify key perspectives in PBL meta-analyses and reviews: Trends, gaps and future research directions. Advances in Health Sciences Education, 24, 943957.Google Scholar
Klijn, A. (2016). Het Maastrichts experiment. Over de uitdagingen van een jonge universiteit 1976–2016 (in Dutch). Nijmegen: Vantilt uitgeverij.Google Scholar
Spronken-Smith, R., & Walker, R. (2010). Can inquiry-based learning strengthen the links between teaching and disciplinary research? Studies in Higher Education, 35(6), 723740.Google Scholar
Van Berkel, C., Scherpbier, A., Hillen, H., & van der Vleuten, C. (2010). Lessons from problem-based learning. Oxford University Press.Google Scholar
Van Merriënboer, J. J. G. (1997). Training complex cognitive skills: A four-component instructional design model for technical training. Educational Technology Publications.Google Scholar
Van Merriënboer, J. J. G., & Kirschner, P. A. (2018). Ten steps to complex learning. Routledge.Google Scholar
Wenger, E. (1999). Communities of practice: Learning, meaning, and identity. Cambridge University Press.Google Scholar
Willison, J., & O’Regan, K. (2007). Commonly known, commonly not known, totally unknown: A framework for students becoming researchers. Higher Education Research & Development, 26(4), 393409.Google Scholar

References

Carnell, B., & Fung, D. (Eds.). (2017). Developing the higher education curriculum: Research-based education in practice. UCL Press.CrossRefGoogle Scholar
Clark, L., Ribéreau-Gayon, A., Sotiriou, M., Standen, A., Thorogood, J., & Tong, V. C. H. (2019). Developing a collaborative book project on higher education pedagogy: The institutional, organizational, and community identity dimensions of student–staff partnerships. International Journal for Students as Partners, 3(2), 99108.CrossRefGoogle Scholar
Clarke, J. L., & Boud, D. (2016). Refocusing portfolio assessment: Curating for feedback and portrayal. Innovations in Education and Teaching International, 55(4), 479486. https://doi.org/10.1080/14703297.2016.1250664Google Scholar
Cook-Sather, A., Bovill, C., & Felten, P. (2014). Engaging students as partners in learning and teaching: A guide for faculty. Jossey-Bass.Google Scholar
Fung, D. (2016). Engaging students with research through a connected curriculum: An innovative institutional approach. Council on Undergraduate Research Quarterly, 37(2), 3035.Google Scholar
Fung, D. (2017). A connected curriculum for higher education. UCL Press.Google Scholar
Graham, R. (2018). The global state of the art in engineering education. Massachusetts Institute of Technology.Google Scholar
Healey, M., Flint, A., & Harrington, K. (2014). Engagement through partnership: Students as partners in learning and teaching in higher education. Higher Education Academy.Google Scholar
Knight, P. (2002). Being a teacher in higher education. Open University Press.Google Scholar
Marina-Gonzalez, N. (2019, May 13). Medical students use UCL Reflect to create scientific blogs for assessment. University College London. www.ucl.ac.uk/teaching-learning/case-studies/2019/may/medical-science-students-use-ucl-reflect-create-scientific-blogs-assessmentGoogle Scholar
Tong, V. C. H., Standen, A., & Sotiriou, M. (2018). Shaping higher education with students: Ways to connect research and teaching. UCL Press.Google Scholar
UCL. (2021a). Academic career framework and promotions processes. Retrieved March 4, 2021 from www.ucl.ac.uk/human-resources/policies-advice/academic-career-framework-and-promotions-processesGoogle Scholar
UCL. (2021b). Meet the team: UCL Arena Centre for Research-based Education. Retrieved March 3, 2021 from www.ucl.ac.uk/teaching-learning/about-us/meet-team-ucl-arena-centre-research-based-educationGoogle Scholar
UCL. (2021c). UCL2034. Retrieved March 3, 2021 from www.ucl.ac.uk/2034/Google Scholar

References

Fair, C., King, C., & Vandermaas-Peeler, M. (2004). A cognitive apprenticeship model of undergraduate research in human services. Human Service Education, 24(1), 6168.Google Scholar
Gerstenberg, J., & Reinmuth, E. (2018). Humboldt reloaded – Undergraduate research integrated into bachelor curriculum at Hohenheim University, Germany. Creating collaborative connections in and through undergraduate research. CUR Biennial Conference 2018. Council on Undergraduate Research.Google Scholar
Linn, M. C., Palmer, E., Baranger, A., Gerard, E., & Stone, E. (2015). Undergraduate research experiences: Impacts and opportunities. Science, 347(6222). https://doi.org/10.1126/science.1261757Google Scholar
Sand, J. (2019). Unpacking the black box URE – A holistic analysis on the effects of undergraduate research experience using the example of Humboldt reloaded. Proceedings of FocusURE: Underpinnings, requirements, effects of undergraduate research experiences. University of Hohenheim. https://humboldt-reloaded.uni-hohenheim.de/fileadmin/einrichtungen/humboldt-reloaded/focus_URE/focusURE_-_Tagungsband_-_final.Web.pdfGoogle Scholar
Selje-Aßmann, N. (2019). A multidimensional model for mentoring learners in research-based learning. Proceedings of FocusURE: Underpinnings, requirements, effects of undergraduate research experiences. University of Hohenheim. https://humboldt-reloaded.uni-hohenheim.de/fileadmin/einrichtungen/humboldt-reloaded/focus_URE/focusURE_-_Tagungsband_-_final.Web.pdfGoogle Scholar
Selje-Aßmann, N., Poll, C., Tisler, M., Gerstenberg, J., Blum, M., & Fleischer, J. (2019). Inquiry-based learning in the life sciences. In Mieg, H. A. (Ed.), Inquiry-based learning – Undergraduate research: The German multidisciplinary experience. Springer (open access). www.springer.com/de/book/9783030142223Google Scholar

References

Biggs, J. (2003, April 13–17). Aligning teaching and assessing to course objectives. Teaching and Learning in Higher Education: New Trends and Innovations, University of Aveiro, Portugal. http://dbcl.ntt.edu.vn/wp-content/uploads/2017/08/Aligning_Reaching_and_Assessing_to_Course_Objectives_John_Biggs-1.pdfGoogle Scholar
Boyd, M. K., & Wesemann, J. L. (Eds.). (2009). Broadening participation in undergraduate research: Fostering excellence and enhancing the impact. Council on Undergraduate Research.Google Scholar
Galli, D. M. (2018a). IUPUI undergraduate research high-impact taxonomy. https://scholarworks.iupui.edu/handle/1805/21557Google Scholar
Galli, D. M. (2018b). Assessing student learning in co-curricular undergraduate programs. CUR 2018 learning assessment [PowerPoint slides]. ScholarWorks, IUPUI. https://scholarworks.iupui.edu/handle/1805/17281Google Scholar
Galli, D. M., & Bahamonde, R. (2018). Assessing IUPUI’s Diversity Scholars Research Program: Lessons learned. In DeCosmo, J. (Ed.), Leveraging undergraduate research to foster diversity and achieve equity [Special issue]. Scholarship and Practice of Undergraduate Research, 1(4), 12–17.Google Scholar
Hathaway, R. S., Nagda, B. R., & Gregerman, S. (2002). The relationship of undergraduate research participation to graduate and professional education pursuit: An empirical study. Journal of College Student Development, 43(5), 614631.Google Scholar
Hensel, N. (Ed.). (2012). Characteristics of excellence in undergraduate research. Council on Undergraduate Research.Google Scholar
Hernandez, P. R., Woodcock, A., Estrada, M., & Schultz, P. W. (2018). Undergraduate research experiences broaden diversity in the scientific workforce. Bioscience, 68(3), 204211.CrossRefGoogle Scholar
ICHE. (2020). Indiana College completion report. Indiana Commission for Higher Education. www.in.gov/che/files/2020_College_Completion_Report_08_05_2020b.pdfGoogle Scholar
IUPUI. (2018). Research brief: National Survey of Student Engagement 2018 results by class level. IUPUI Institutional Research and Decision Support. https://irds.iupui.edu/_documents/students/studentsurveys/nsse/2018/IUPUI%20NSSE%202018%20Research%20Brief.pdfGoogle Scholar
Linn, M. C., Palmer, E., Baranger, A., Gerard, E., & Stone, E. (2015). Undergraduate research experiences: Impacts and opportunities. Science, 347(6222), 1261757.Google Scholar
Lopatto, D. (2009). Science in solution: The impact of undergraduate research on student learning. The Research Corporation for Science Advancement. https://gustavus.edu/kendallcenter/undergraduate-research/documents/Science_in_Solution_Lopatto.pdfGoogle Scholar
McGavern-Norland, N. (1999). A beautiful concept. The MIT Faculty Newsletter, XI(3), 2629. http://web.mit.edu/fnl/vol/113/mcgavern.htmlGoogle Scholar

References

Bradley, E. D., Bata, M., Fitz Gibbon, H. M., Ketcham, C. J., Nicholson, B. A., & Pollack, M. (2017). Structure of mentoring in undergraduate research: Multi-mentor models. Scholarship and Practice of Undergraduate Research, 1(2), 3542. https://doi.org/10.18833/spur/1/2/12Google Scholar
Fung, D. (2017). Connected curriculum for higher education. UCL Press. www.jstor.org/stable/j.ctt1qnw8nfGoogle Scholar
Gentile, J., Brenner, K., Stephens, A., & Committee on Strengthening Research Experiences for Undergraduate STEM Students. (2017). Undergraduate research experiences for STEM students: Successes, challenges, and opportunities. National Academy Press.CrossRefGoogle Scholar
Hall, E., Walkington, H., Shanahan, J., Ackley, E., & Stewart, K. (2018). Mentor perspectives on the place of undergraduate research mentoring in academic identity and career development: An analysis of award-winning mentors. International Journal for Academic Development, 23(1), 1527.CrossRefGoogle Scholar
Holmwood, C., & Scales, P. (2018). Liminality in higher education – Gaps and moments of uncertainty as legitimate learning spaces. In Taylor, J., & Holmwood, C. (Eds.), Learning as a creative and developmental process in higher education: A therapeutic arts approach and its wider application. Routledge.Google Scholar
Johnson, W. B. (2016). On being a mentor: A guide for higher education faculty. Taylor & Francis.Google Scholar
Johnson, W. B. (2018). Foreword. In Vandermaas-Peeler, M., Miller, P., & Moore, J. (Eds.), Excellence in mentoring undergraduate research (pp. ixxi). Council on Undergraduate Research.Google Scholar
Joshi, M., Aikens, M. L., & Dolan, E. L. (2019). Direct ties to a faculty mentor related to positive outcomes for undergraduate researchers. BioScience, 69(5), 389397. https://doi.org/10.1093/biosci/biz039Google Scholar
Ketcham, C., Hall, E., Fitz Gibbon, H., & Walkington, H. (2018). Co-mentoring in undergraduate research: A faculty development perspective. In Vandermaas-Peeler, M., Miller, P., & Moore, J. (Eds.), Excellence in mentoring undergraduate research (pp. 155180). Council on Undergraduate Research.Google Scholar
Ketcham, C. J., Hall, E. E., & Miller, P. C. (2017). Co-mentoring undergraduate research: Student, faculty and institutional perspectives. PURM: Perspectives on Undergraduate Research Mentoring, 6(1), 113. www.elon.edu/u/academics/undergraduate-research/purm/wp-content/uploads/sites/923/2019/06/final_Ketcham-Hall-Miller_main.pdfGoogle Scholar
Kuh, G. (2008). High-impact educational practices: What they are, who has access to them, and why they matter. Washington, DC: Association of American Colleges and Universities.Google Scholar
Larson, S., Partridge, L., Walkington, H., Wuetherick, B., & Moore, J. (2018). An international conversation about mentored undergraduate research and inquiry and academic development. International Journal for Academic Development, 23(1), 614.Google Scholar
Levenson, C. W. (2010). Enhancing undergraduate research in the arts and humanities. AAC&U: Peer Review, 12(2), 13–16.Google Scholar
Mullen, C. A. (2016). Alternative mentoring types. Kappa Delta Pi Record, 52(3), 132136.CrossRefGoogle Scholar
Nicholson, B. A., Pollock, M., Ketcham, C. J., Fitz Gibbon, H. M., Bradley, E. D., & Bata, M. (2017). Beyond the mentor–mentee model: A case for multi-mentoring in undergraduate research. PURM, 6(1). https://openworks.wooster.edu/facpub/373Google Scholar
Schantz, M. S. (2008). Undergraduate research in the humanities: Challenges and prospects. Council on Undergraduate Research Quarterly, 29(2), 2630.Google Scholar
Shanahan, J., Ackley-Holbrook, E., Hall, E., Stewart, K., & Walkington, H. (2015). Salient practices of undergraduate research mentors: A review of the literature. Mentoring and Tutoring, 23(5), 359376.CrossRefGoogle Scholar
Spronken-Smith, R. A., Brodeur, J. J., Kajaks, T., Luck, M., Myatt, P., Verburgh, A., Walkington, H., & Wuetherick, B. (2013). Completing the research cycle: A framework for promoting dissemination of undergraduate research and inquiry. Teaching & Learning Inquiry, 1(2), 105118.Google Scholar
Thiry, H., & Laursen, S. L. (2011). The role of student–advisor interactions in apprenticing undergraduate researchers into a scientific community of practice. Journal of Science Education and Technology, 20(6), 771784.Google Scholar
Walkington, H., Hall, E., Shanahan, J., Ackley, E., & Stewart, K. (2018). Striving for excellence in mentoring undergraduate research: The challenges and approaches to ten salient practices. In Vandermaas-Peeler, M., Miller, P., & Moore, J. (Eds.), Excellence in mentoring undergraduate research (pp. 105130). Council on Undergraduate Research.Google Scholar
Walkington, H., Stewart, K. A., Hall, E. E., Ackley, E., & Shanahan, J. O. (2019). Salient practices of award-winning undergraduate research mentors – Balancing freedom and control to achieve excellence. Studies in Higher Education, 45(7), 15191532. https://doi.org/10.1080/03075079.2019.1637838Google Scholar
Wuetherick, B., Willison, J., & Shanahan, J. O. (2018). Mentored undergraduate research at scale: Undergraduate research in the curriculum as pedagogy. In Vandermaas-Peeler, M., Miller, P., & Moore, J. (Eds.), Excellence in mentoring undergraduate research (pp. 181202). Council on Undergraduate Research.Google Scholar

References

Alfieri, L., Brooks, P. J., Aldrich, N. J., & Tenenbaum, H. R. (2011). Does discovery-based instruction enhance learning? Journal of Educational Psychology, 103, 118. https://doi.org/:10.1037/a0021017Google Scholar
Bybee, R. W., Taylor, J. A., Gardner, A., van Scotter, P., Powell, J. C., Westbrook, A., & Landes, N. (2006). The BSCS 5E instructional model: Origins and effectiveness. BSCS.Google Scholar
De Jong, T. (2006). Technological advances in inquiry learning. Science, 312(5773), 532533.CrossRefGoogle ScholarPubMed
De Jong, T., & van Joolingen, W. R. (1998). Scientific discovery learning with computer simulations of conceptual domains. Review of Educational Research, 68, 179202. https://doi.org/10.3102/00346543068002179Google Scholar
Fischer, F., Kollar, I., Ufer, S., Sodian, B., Hussmann, H., Pekrun, R., Neuhaus, B., Dorner, B., et al. (2014). Scientific reasoning and argumentation: Advancing an interdisciplinary research agenda in education. Frontline Learning Research, 2(3), 2845.Google Scholar
Kolb, D. A. (1984). Experiential learning: Experience as the source of learning and development (Vol. 1). Prentice-Hall.Google Scholar
Leijen, Ä., Valtna, K., Leijen, D. A. J., & Pedaste, M. (2012). How to determine the quality of students’ reflections? Studies in Higher Education, 37(2), 203217. https://doi.org/10.1080/03075079.2010.504814Google Scholar
Mäeots, M., & Pedaste, M. (2014). The role of general inquiry knowledge in enhancing students’ transformative inquiry processes in a web-based learning environment. Journal of Baltic Science Education, 13(1), 1932.Google Scholar
Mäkitalo-Siegl, K., Kohnle, C., & Fischer, F. (2011). Computer-supported collaborative inquiry learning and classroom scripts: Effects on help-seeking processes and learning outcomes. Learning and Instruction, 21(2), 257266. https://doi.org/10.1016/j.learninstruc.2010.07.001Google Scholar
Mieg, H. A. (2019). Introduction. In Mieg, H. A. (Ed.), Inquiry-based learning –Undergraduate research: The German multidisciplinary experience (pp. 116). Springer (open access). https://doi.org/10.1007/978-3-030-14223-0CrossRefGoogle Scholar
Panadero, E. (2017). A review of self-regulated learning: Six models and four directions for research. Frontiers in Psychology, 8(422). https://doi.org/10.3389/fpsyg.2017.00422Google Scholar
Pedaste, M., Mäeots, M., Leijen, Ä., & Sarapuu, S. (2012). Improving students’ inquiry skills through reflection and self-regulation scaffolds. Technology, Instruction, Cognition and Learning, 9(1–2), 8195.Google Scholar
Pedaste, M., Mäeots, M., Siiman, L. A., de Jong, T., van Riesen, S. A. N., Kamp, E. T., Manoli, C. C., Zacharia, Z. C. et al. (2015). Phases of inquiry-based learning: Definitions and the inquiry cycle. Educational Research Review, 14, 4761.Google Scholar
Teig, N., Scherer, R., & Nilsen, T. (2018). More isn’t always better: The curvilinear relationship between inquiry-based teaching and student achievement in science. Learning and Instruction, 56, 2029.CrossRefGoogle Scholar
UNESCO. (1996). Learning: The treasure within. Report to UNESCO of the International Commission on Education for the Twenty-first Century. UNESCO.Google Scholar

References

Auchincloss, L. C., Laursen, S. L., Branchaw, J. L., Eagan, K., Graham, M., Hanauer, D. I., Lawrie, G., McLinn, C. M., et al. (2014). Assessment of course-based undergraduate research experiences: A meeting report. CBE–Life Sciences Education, 13(1), 2940. https://doi.org/10.1187/cbe.14-01-0004Google Scholar
Bauer, K. W., & Bennett, J. S. (2003), Alumni perceptions used to assess undergraduate research experience. Journal of Higher Education, 74(2), 210230.Google Scholar
Billing, D. (2007). Teaching for transfer of core/key skills in higher education: Cognitive skills. Higher Education, 53, 483516.CrossRefGoogle Scholar
Blockus, L. (2012). The challenge of the count. Council on Undergraduate Research Quarterly, 32(3), 48.Google Scholar
Brew, A. (2006). Research and teaching: Beyond the divide. Palgrave Macmillan.Google Scholar
Crawford, I., Orel, S. E., & Shanahan, J. O. (Eds.). (2014). How to get started in arts and humanities research with undergraduates. Council on Undergraduate Research.Google Scholar
Crowe, M., & Brakke, D. (2008). Assessing the impact of undergraduate research experiences on students: An overview of current literature. Council on Undergraduate Research Quarterly, 28(1), 4350.Google Scholar
Crowe, M., & Brakke, D. (2020). Assessing undergraduate research experiences: An annotative bibliography. Scholarship and Practice of Undergraduate Research, 3(2), 2130. https://doi.org/10.18833/spur/3/2/3Google Scholar
Crowe, M., Stanford, D., & Shattell, M. (2010). Student and faculty perceptions of the National Conference on Undergraduate Research (NCUR). Council on Undergraduate Research Quarterly, 31(1), 1417.Google Scholar
Dolan, E. L. (2016). Course-based undergraduate research experiences: Current knowledge and future directions. Committee on Strengthening Research Experiences for Undergraduate STEM Students / National Science Foundation. Retrieved from https://sites.nationalacademies.org/cs/groups/dbassesite/documents/webpage/dbasse_177288.pdfGoogle Scholar
Eagan, M. K. Jr., Hurtado, S., Chang, M., Garcia, G. A., Herrera, F. A., & Garibay, J. C. (2013). Making a difference in science education: The impact of undergraduate research programs. American Educational Research Journal, 50(4), 463713.Google Scholar
Estrada, M., Hernandez, P. R., & Schultz, P. W. (2018). A longitudinal study of how quality mentorship and research experience integrate underrepresented minorities into STEM careers. CBE–Life Sciences Education, 17(1), 113. https://doi.org/10.1187/cbe.17-04-0066Google Scholar
Finley, A., & McNair, T. (2013). Assessing underserved students’ engagement in high-impact practices. Association of American Colleges and Universities.Google Scholar
Gilliams, T., Morris, L., Woodward, K., Rice, K., & Osgood, D. (2008). Models and assessment of collaborative research in the arts and humanities. Council on Undergraduate Research Quarterly, 29(3), 3437.Google Scholar
Hathaway, R. S., Nagda, B., & Gregerman, S. (2002). The relationship of undergraduate research participation to graduate and professional education pursuit: An empirical study. Journal of College Student Development, 43(5), 614631.Google Scholar
Healey, M., & Jenkins, A. (2009). Developing undergraduate research and inquiry. Higher Education Academy. www.researchgate.net/publication/256208546_Developing_Undergraduate_Research_and_InquiryGoogle Scholar
Hensley, M. K., & Johnson, H. R. (2019). The library as collaborator in student publishing: An index and review of undergraduate research journals. Scholarship and Practice of Undergraduate Research, 2(4), 5867.Google Scholar
Hill, J., & Walkington, H. (2016). Developing graduate attributes through participation in undergraduate research conferences. Journal of Geography in Higher Education, 40(2), 222237. https://doi.org/10.1080/03098265.2016.1140128Google Scholar
Hogan, M., Dwyer, C., Harney, O., Noone, C., & Conway, R. (2015). Metacognitive skill development and applied systems science: A framework of metacognitive skills, self-regulatory functions and real-world applications. In Peña-Ayala, A. (Ed.), Metacognition: Fundaments, applications, and trends (pp. 75106). Springer International Publishing.Google Scholar
Hunter, A. B., Laursen, S. L., & Seymour, E. (2006). Becoming a scientist: The role of undergraduate research in students’ cognitive, personal, and professional development. Science Education, 91(1), 3674.Google Scholar
Hurtado, S., Eagen, K., Figueroa, T., & Hughes, B. (2014). Reversing underrepresentation: The impact of undergraduate research programs on enrollment in STEM graduate programs. Retrieved from www.heri.ucla.edu/nih/downloads/AERA-2014-Undergraduate-Research-And-STEM-Grad-Enrollment.pdfGoogle Scholar
Johnson, D. C., & Gould, C. (2009). Special challenges of assessing undergraduate research in the arts and humanities. Council on Undergraduate Research Quarterly, 29(3), 3338.Google Scholar
Jordan, T. C., Burnett, S. H., Carson, S., Caruso, S. M., Clase, K., DeJong, R. J., Dennehy, J. J., Denver, D. R., et al. (2014). A broadly implementable research course in phage discovery and genomics for first-year undergraduate students. mBio, 5(1), e01051–13. https://doi.org/10.1128/mbio.01051-13Google Scholar
Karukstis, K. K., & Elgren, T. E. (Eds.). (2007). Designing and sustaining a research-supportive curriculum: A compendium of successful practices. Council on Undergraduate Research.Google Scholar
Kuh, G. D. (2008). High-impact educational practices: What they are, who has access to them, and why they matter. Association of American Colleges and Universities.Google Scholar
Laursen, S. L. (2015). Assessing undergraduate research in the sciences: The next generation. Council on Undergraduate Research Quarterly, 35(3), 914.Google Scholar
Laursen, S. L., Hunter, A.-B., Seymour, E. Thiry, H., & Melton, G. (2010). Undergraduate research in the sciences: Engaging students in real science. Jossey-Bass.Google Scholar
Lopatto, D. (2010). Science in solution: The impact of undergraduate research on student learning. Research Corporation for Science Advancement.Google Scholar
Mieg, H. A. (Ed.). (2019). Inquiry-based learning – Undergraduate research: The German multidisciplinary experience. Springer (open access). https://doi.org/10.1007/978-3-030-14223-0Google Scholar
Nadelson, L., Walters, L., & Waterman, J. (2010). Course-integrated undergraduate research experiences structured at different levels of inquiry. Journal of STEM Education: Innovations and Research, 11(1–2), 2744.Google Scholar
Nagda, B. A., Gregerman, S. R., Jonides, J., von Hippel, W., & Lerner, J. S. (1998). Undergraduate student–faculty research partnerships affect student retention. Review of Higher Education, 22(1), 5572. https://doi.org/10.1353/rhe.1998.0016Google Scholar
Panadero, E., Jönsson, A., & Botella, J. (2017). Effects of self-assessment on self-regulated learning and self-efficacy: Four meta-analyses. Educational Research Review, 22, 7498.Google Scholar
Rivera, J., Khelifa, M., Hamdah, B. A., Al-Hamadi, A. M., & Zdgiebloski, E. S. (2018). A global conversation: Reflections from the first World Congress on Undergraduate Research. Scholarship and Practice of Undergraduate Research, 2(1), 5559. https://doi.org/10.18833/spur/2/1/4Google Scholar
Rodenbusch, S., Hernandez, P. R., Simmons, S. L., & Dolan, E. L. (2016). Early engagement in course-based research increases graduation rates and completion of science, engineering and mathematics degrees. CBE–Life Sciences Education, 15(2), article 20. https://doi.org/10.1187/cbe.16-03-0117Google Scholar
Scharff, L., Draeger, J., Verpoorten, D., Devlin, M., Dvorakova, L., Lodge, J., & Smith, S. (2017). Exploring metacognition as support for learning transfer. Teaching & Learning Inquiry, 5(1), 114.Google Scholar
Schinske, J., Balke, V. L., Bangera, G., Bonney, K. M., Brownell, S. E., Carter, R. S., Curran-Everett, D., Dolan, E. L., et al. (2017). Broadening participation in biology education research (BER): Engaging community college students and faculty. CBE–Life Sciences Education, 16(2), 111. www.lifescied.org/doi/10.1187/cbe.16-10-0289Google Scholar
Schmitz, H. J., & Havholm, K. (2015). Undergraduate research and alumni: Perspectives on learning gains and post-graduation benefits. Council on Undergraduate Research Quarterly, 35(3), 1522.Google Scholar
Schraw, G., Crippen, K. J., & Hartley, K. (2006). Promoting self-regulation in science education: Metacognition as part of a broader perspective on learning. Research in Science Education, 36, 111139.Google Scholar
Shaffer, C. D., Alvarez, C., Bailey, C., Barnard, D., Bhalla, S., Chandrasekaran, C., Chandrasekaran, V., Chung, H.-M., et al. (2010). The Genomics Education Partnership: Successful integration of research into laboratory classes at a diverse group of undergraduate institutions. CBE–Life Sciences Education, 9(1), 5569. https://doi.org/10.1187/09-11-0087Google Scholar
Shanahan, J. (2012). Building undergraduate research into the curriculum. In Hensel, N. & Paul, E. (Eds.), Faculty support and undergraduate research: Innovation in faculty role definition, workload, and reward (pp. 6876). Council on Undergraduate Research.Google Scholar
Shortlidge, E. E., & Brownell, S. E. (2016). How to assess your CURE: A practical guide for instructors of course-based undergraduate research experiences. Journal of Microbiology and Biology Education, 17(3), 399408. www.asmscience.org/content/journal/jmbe/10.1128/jmbe.v17i3.1103Google Scholar
Singer, J., & Weiler, D. (2009). A longitudinal student outcomes evaluation of the Buffalo State College summer undergraduate research program. Council on Undergraduate Research Quarterly, 29(3), 2025.Google Scholar
Singer, J., & Zimmerman, B. (2012). Evaluating a summer undergraduate research program: Measuring student outcomes and program impact. Council on Undergraduate Research Quarterly, 32(3), 4047.Google Scholar
Spronken-Smith, R., Brodeur, J., Kajaks, T., Luck, M., Myatt, P., Verburgh, A., Walkington, H., & Wuetherick, B. (2013). Completing the research cycle: A framework for promoting dissemination of undergraduate research and inquiry. Teaching & Learning Inquiry, 1(2), 105118.Google Scholar
Stanford, J. S., Rocheleau, S. E., Smith, K. P. W., & Mohan, J. (2017). Early undergraduate research experiences lead to similar learning gains for STEM and non-STEM undergraduates. Studies in Higher Education, 42(1), 115129. https://doi.org/10.1080/03075079.2015.1035248Google Scholar
Vandermaas-Peeler, M., Miller, P., & Moore, J. (Eds.). (2018). Excellence in mentoring undergraduate research. Council on Undergraduate Research.Google Scholar
Willison, J. W. (2009). Multiple contexts, multiple outcomes, one conceptual framework for research skill development in the undergraduate curriculum. Council on Undergraduate Research Quarterly, 29(3), 1014.Google Scholar
Willison, J., Zhu, X., Xie, B., Yu, X., Chen, J., Zhang, D., Shahshoug, I., & Sabir, F. (2020). Graduates’ affective transfer of research skills and evidence-based practice from university to employment in clinics. BMC Medical Education, 20, article 89. https://bmcmededuc.biomedcentral.com/articles/10.1186/s12909–020-1988-xGoogle Scholar
Wolters, C., & Hussain, M. (2015). Investigating grit and its relations with college students’ self-regulated learning and academic achievement. Metacognition and Learning, 10(3), 293311.Google Scholar
Wuetherick, B., Willison, J. W., & Shanahan, J. (2018). Mentored undergraduate research at scale: Undergraduate research in the curriculum and as pedagogy. In Vandermaas-Peeler, M., Miller, P., & Moore, J. (Eds.), Excellence in mentoring undergraduate research (pp. 181202). Council on Undergraduate Research.Google Scholar
Zimbardi, K., & Myatt, P. (2014). Embedding undergraduate research experiences within the curriculum: A cross-disciplinary study of the key characteristics guiding implementation. Studies in Higher Education, 39(2), 233250. www.tandfonline.com/doi/abs/10.1080/03075079.2011.651448Google Scholar

References

Brew, A. (2013). Understanding the scope of undergraduate research: A framework for curricular and pedagogical decision-making. Higher Education, 66(5), 603618.CrossRefGoogle Scholar
Douglas, C., Yearsley, J., Scott, G. W., & Hubbard, K. E. (2018). The student thesis conference as a model for authentic and inclusive student research dissemination. Higher Education Pedagogies, 3(1), 331353.Google Scholar
Durham University (n.d.). Durham English Review: An undergraduate journal. Welcome. https://community.dur.ac.uk/durham.englishreview/Google Scholar
Gavey, R., Harper, A., Hill, M. F., Phillips, A., & Brown, G. T. L. (2020). The impact of undergraduate research journals on the scholarly world: Present but small. Education Sciences, 10(11), 338.Google Scholar
Gopalan, C., Halpin, P. A., & Johnson, K. M. S. (2018). Benefits and logistics of nonpresenting undergraduate students attending a professional scientific meeting. Advances in Physiology Education, 42(1), 6874.Google Scholar
Helm, H. W., & Bailey, K. (2013). Perceived benefits of presenting undergraduate research at a professional conference. North American Journal of Psychology, 15(3), 527536.Google Scholar
Hensley, M. K., & Johnson, H. R. (2019). The library as collaborator in student publishing: An index and review of undergraduate research journals. Scholarship and Practice of Undergraduate Research, 2(4), 5867. https://doi.org/10.18833/spur/2/4/11Google Scholar
Hill, J., & Walkington, H. (2016). Developing graduate attributes through participation in undergraduate research conferences. Journal of Geography in Higher Education, 40(2), 222237.Google Scholar
Kneale, P., Edwards-Jones, A., Walkington, H., & Hill, J. (2016). Evaluating undergraduate research conferences as vehicles for novice researcher development. International Journal for Researcher Development, 7(2), 159177.Google Scholar
Mabrouk, P. A. (2009). Survey study investigating the significance of conference participation to undergraduate research students. Journal of Chemical Education, 86(11), 13351340.Google Scholar
Rivera, J., Khelifa, M., Hamdah, B. A., Al-Hamadi, A. M., & Zdgiebloski, E. S. (2018). A global conversation: Reflections from the first World Congress on Undergraduate Research. Scholarship and Practice of Undergraduate Research, 2(1), 5559. https://doi.org/10.18833/spur/2/1/4Google Scholar
Spellman, B. (2012). Building regional undergraduate research conferences for a national consortium of public liberal arts colleges. Council on Undergraduate Research Quarterly, 32(4), 3336.Google Scholar
Spronken-Smith, R. A., Brodeur, J. J., Kajaks, T., Luck, M., Myatt, P., Verburgh, A., Walkington, H., & Wuetherick, B. (2013). Completing the research cycle: A framework for promoting dissemination of undergraduate research and inquiry. Teaching & Learning Inquiry, 1(2), 105118.Google Scholar
Walkington, H. (2015). Students as researchers: Supporting undergraduate research in the disciplines in higher education. Higher Education Academy.Google Scholar
Walkington, H., Hill, J., & Kneale, P. E. (2017). Reciprocal elucidation: A student-led pedagogy in multidisciplinary undergraduate research conferences. Higher Education Research and Development, 36(2), 416429.Google Scholar

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