scholarly journals Early Engagement in Course-Based Research Increases Graduation Rates and Completion of Science, Engineering, and Mathematics Degrees

2016 ◽  
Vol 15 (2) ◽  
pp. ar20 ◽  
Author(s):  
Stacia E. Rodenbusch ◽  
Paul R. Hernandez ◽  
Sarah L. Simmons ◽  
Erin L. Dolan
Keyword(s):  
Undergraduate Research ◽  
Biology Education ◽  
First Year ◽  
Long Term Effects ◽  
Research Experiences ◽  
Grade Point ◽  
Stem Major ◽  
Research Initiative ◽  
And Mathematics

National efforts to transform undergraduate biology education call for research experiences to be an integral component of learning for all students. Course-based undergraduate research experiences, or CUREs, have been championed for engaging students in research at a scale that is not possible through apprenticeships in faculty research laboratories. Yet there are few if any studies that examine the long-term effects of participating in CUREs on desired student outcomes, such as graduating from college and completing a science, technology, engineering, and mathematics (STEM) major. One CURE program, the Freshman Research Initiative (FRI), has engaged thousands of first-year undergraduates over the past decade. Using propensity score–matching to control for student-level differences, we tested the effect of participating in FRI on students’ probability of graduating with a STEM degree, probability of graduating within 6 yr, and grade point average (GPA) at graduation. Students who completed all three semesters of FRI were significantly more likely than their non-FRI peers to earn a STEM degree and graduate within 6 yr. FRI had no significant effect on students’ GPAs at graduation. The effects were similar for diverse students. These results provide the most robust and best-controlled evidence to date to support calls for early involvement of undergraduates in research.

scholarly journals Engaging First-year University Students in Research: Promise, Potentials, and Pitfalls

2016 ◽  
Vol 7 (1) ◽  
Author(s):  
Sarah L Sangster ◽  
Kara L. Loy ◽  
Sheryl D. Mills ◽  
Karen L. Lawson
Keyword(s):  
Undergraduate Students ◽  
Undergraduate Research ◽  
Research Question ◽  
Interdisciplinary Studies ◽  
First Year ◽  
Preliminary Evaluation ◽  
Professional Skills ◽  
Research Experiences ◽  
Research Initiative ◽  
Premier Cycle

In 2014, the Undergraduate Research Initiative at the University of Saskatchewan implemented a pilot project to organize, support, and promote curriculum-based research experience as an integral aspect of participating first-year courses. The framework for the course-based initiative was the research arc; usually in groups, students in these classes would develop a research question, investigate it using discipline-appropriate methodologies, and disseminate the results. Nine classes (Agriculture, Animal Bioscience, Environmental Science, Women’s and Gender Studies, Psychology, Kinesiology, and Interdisciplinary Studies) participated in this program pilot. There were four key agents in the program: faculty instructors, research coaches, students in participating first-year classes, and university administrative staff. This preliminary evaluation of the pilot suggests that first-year undergraduate research experiences have potential to benefit the undergraduate student participants as well as the faculty and research coaches involved. The primary benefits that faculty reported experiencing included an increased interest in ways to engage learners, reexamination of and reflection on their teaching strategies, the pragmatic support of a research coach helping with their work load, and an invigoration of their research. The primary benefits to research coaches included enhancement of their professional skills, experience in lesson planning and facilitation, CV building, and an ideology shift in how to best facilitate learning for undergraduate students. The most prominent benefits for undergraduate students appeared to be that they gained a better idea about how researchers think and work, that they increased their understanding of how research works, and that their own research and professional skills had improved. Early, bottom-up evaluation identified characteristics of implementation that appear to best facilitate achievement of the initiative’s outcomes and identified the potential pitfall of imposing outcomes, from related but distinct initiatives, that may not be achievable or optimal in in the setting of first-year classes. The results of this evaluation suggest that rather than gaining clarity or focus, first-year students in course-based research experiences might gain awareness of their personal potential, of the potential of research, and of their career/educational options. En 2014, l’Université de la Saskatchewan a mis en oeuvre un projet pilote, la Undergraduate Research Initiative (Initiative de recherche pour étudiants de premier cycle) dont l’objectif était d’organiser, de soutenir et de promouvoir l’expérience de recherche basée sur le programme de cours et faisant directement partie des cours de première année participants. Le cadre de cette initiative basée sur les cours était l’arc de recherche; habituellement divisés en groupes, les étudiants inscrits dans ces cours ont élaboré une question de recherche, l’ont examinée par le biais de méthodologies appropriées à la discipline et en ont diffusé les résultats. Neuf cours (agriculture, sciences biologiques animales, sciences de l’environnement, études sur les femmes et le genre, psychologie, kinésiologie et études interdisciplinaires) ont participé à ce programme pilote. Il y avait quatre agents clés dans le programme : les professeurs, les accompagnateurs de recherche, les étudiants inscrits dans les cours de première année participants et le personnel administratif de l’université. Cette évaluation préliminaire du projet pilote suggère que les expériences de recherche en première année d’un programme de premier cycle peuvent potentiellement offrir des avantages aux étudiants de premier cycle qui y participent ainsi qu’aux professeurs et aux accompagnateurs de recherche. Les avantages principaux, selon les professeurs qui ont fait un rapport sur leur expérience, comprennent un plus grand intérêt dans les manières d’engager les apprenants, le réexamen d’une réflexion sur leurs stratégies d’enseignement, le soutien pragmatique des accompagnateurs de recherche qui les aident avec leur charge de travail et une revitalisation de leur recherche. Les avantages principaux pour les accompagnateurs de recherche comprennent une amélioration de leurs compétences professionnelles, une expérience dans la planification et la facilitation des leçons, des expériences à ajouter à leur curriculum vitae et un changement idéologique concernant la meilleure manière de faciliter l’apprentissage des étudiants de premier cycle. Les avantages les plus importants pour les étudiants de premier cycle semblent être qu’ils ont acquis une meilleure compréhension de la manière dont les chercheurs pensent et travaillent et de la manière dont la recherche fonctionne, et que leurs propres recherches et leurs propres compétences professionnelles ont été améliorées. L’évaluation préliminaire participative a identifié des caractéristiques de mise en oeuvre qui semblent faciliter au mieux l’atteinte des résultats de l’initiative et a identifié l’écueil potentiel d’imposer des résultats, à partir d’initiatives différentes mais connexes, qui risquent de ne pas être réalisables ou optimales dans le cadre de cours de première année. Les résultats de cette évaluation suggèrent que, plutôt que de gagner en clarté ou en focus, les étudiants de première année qui participent à des expériences de recherche basées sur les cours pourraient prendre conscience de leur potentiel personnel, du potentiel de la recherche et de leurs options de carrière ou scolaires.

scholarly journals Scaling Up: Adapting a Phage-Hunting Course to Increase Participation of First-Year Students in Research

2016 ◽  
Vol 15 (2) ◽  
pp. ar13 ◽  
Author(s):  
Nancy L. Staub ◽  
Marianne Poxleitner ◽  
Amanda Braley ◽  
Helen Smith-Flores ◽  
Christine M. Pribbenow ◽  
...  
Keyword(s):  
Undergraduate Research ◽  
First Year ◽  
Research Experience ◽  
First Year Students ◽  
Research Experiences ◽  
First Semester ◽  
Course Content ◽  
Faculty Time ◽  
And Mathematics ◽  
The One

Authentic research experiences are valuable components of effective undergraduate education. Research experiences during the first years of college are especially critical to increase persistence in science, technology, engineering, and mathematics fields. The Science Education Alliance Phage Hunters Advancing Genomics and Evolutionary Science (SEA-PHAGES) model provides a high-impact research experience to first-year students but is usually available to a limited number of students, and its implementation is costly in faculty time and laboratory space. To offer a research experience to all students taking introductory biology at Gonzaga University (n = 350/yr), we modified the traditional two-semester SEA-PHAGES course by streamlining the first-semester Phage Discovery lab and integrating the second SEA-PHAGES semester into other courses in the biology curriculum. Because most students in the introductory course are not biology majors, the Phage Discovery semester may be their only encounter with research. To discover whether students benefit from the first semester alone, we assessed the effects of the one-semester Phage Discovery course on students’ understanding of course content. Specifically, students showed improvement in knowledge of bacteriophages, lab math skills, and understanding experimental design and interpretation. They also reported learning gains and benefits comparable with other course-based research experiences. Responses to open-ended questions suggest that students experienced this course as a true undergraduate research experience.

scholarly journals Effects of Discovery, Iteration, and Collaboration in Laboratory Courses on Undergraduates’ Research Career Intentions Fully Mediated by Student Ownership

2018 ◽  
Vol 17 (2) ◽  
pp. ar20 ◽  
Author(s):  
Lisa A. Corwin ◽  
Christopher R. Runyon ◽  
Eman Ghanem ◽  
Moriah Sandy ◽  
Greg Clark ◽  
...  
Keyword(s):  
Structural Equation ◽  
Undergraduate Research ◽  
Equation Modeling ◽  
Design Features ◽  
Career Intentions ◽  
Research Experiences ◽  
Student Ownership ◽  
Laboratory Courses ◽  
Research Initiative ◽  
And Mathematics

Course-based undergraduate research experiences (CUREs) provide a promising avenue to attract a larger and more diverse group of students into research careers. CUREs are thought to be distinctive in offering students opportunities to make discoveries, collaborate, engage in iterative work, and develop a sense of ownership of their lab course work. Yet how these elements affect students’ intentions to pursue research-related careers remain unexplored. To address this knowledge gap, we collected data on three design features thought to be distinctive of CUREs (discovery, iteration, collaboration) and on students’ levels of ownership and career intentions from ∼800 undergraduates who had completed CURE or inquiry courses, including courses from the Freshman Research Initiative (FRI), which has a demonstrated positive effect on student retention in college and in science, technology, engineering, and mathematics. We used structural equation modeling to test relationships among the design features and student ownership and career intentions. We found that discovery, iteration, and collaboration had small but significant effects on students’ intentions; these effects were fully mediated by student ownership. Students in FRI courses reported significantly higher levels of discovery, iteration, and ownership than students in other CUREs. FRI research courses alone had a significant effect on students’ career intentions.

scholarly journals Assessment of Course-Based Undergraduate Research Experiences: A Meeting Report

2014 ◽  
Vol 13 (1) ◽  
pp. 29-40 ◽  
Author(s):  
Lisa Corwin Auchincloss ◽  
Sandra L. Laursen ◽  
Janet L. Branchaw ◽  
Kevin Eagan ◽  
Mark Graham ◽  
...  
Keyword(s):  
Undergraduate Research ◽  
Biology Education ◽  
Operational Definition ◽  
Future Research ◽  
Meeting Report ◽  
Research Experience ◽  
Research Experiences ◽  
Undergraduate Research Experiences ◽  
Foundation Program ◽  
Definition Of

The Course-Based Undergraduate Research Experiences Network (CUREnet) was initiated in 2012 with funding from the National Science Foundation program for Research Coordination Networks in Undergraduate Biology Education. CUREnet aims to address topics, problems, and opportunities inherent to integrating research experiences into undergraduate courses. During CUREnet meetings and discussions, it became apparent that there is need for a clear definition of what constitutes a CURE and systematic exploration of what makes CUREs meaningful in terms of student learning. Thus, we assembled a small working group of people with expertise in CURE instruction and assessment to: 1) draft an operational definition of a CURE, with the aim of defining what makes a laboratory course or project a “research experience”; 2) summarize research on CUREs, as well as findings from studies of undergraduate research internships that would be useful for thinking about how students are influenced by participating in CUREs; and 3) identify areas of greatest need with respect to CURE assessment, and directions for future research on and evaluation of CUREs. This report summarizes the outcomes and recommendations of this meeting.

Enhancing Diversity in STEM Interdisciplinary Learning

2015 ◽  
pp. 997-1019
Author(s):  
Reginald A. Blake ◽  
Janet Liou-Mark
Keyword(s):  
Stem Education ◽  
Real World ◽  
Undergraduate Research ◽  
Interdisciplinary Approach ◽  
Thinking Skills ◽  
New Paradigm ◽  
Research Experiences ◽  
Stem Disciplines ◽  
And Mathematics ◽  
Diversity In Stem

The Science, Technology, Engineering, and Mathematics (STEM) disciplines have traditionally been woefully unsuccessful in attracting, retaining, and graduating acceptable numbers of Underrepresented Minorities (URMs). A new paradigm of STEM practices is needed to address this vexing problem. This chapter highlights a novel interdisciplinary approach to STEM education. Instead of being siloed and mired in their respective STEM disciplines, students integrate real world, inquiry-based learning that is underpinned by a strong foundation in mathematics and a myriad of other pillars of STEM activities. These activities include Peer-Assisted Learning Workshops, Mentoring Programs, Undergraduate Research Experiences, STEM Exposure Trips, Conference Participation, and Peer Leadership. This strategy enhances STEM education among URMs by purposefully connecting and integrating knowledge and skills from across the STEM disciplines to solve real-world problems, by synthesizing and transferring knowledge across disciplinary boundaries, and by building critical thinking skills in a manner that is relevant to their experiences and yet transformative.

scholarly journals Sustainable Knowledge Investment Increases Employment and GDP in the Spanish Agricultural Sector More Than Other Investments

2020 ◽  
Vol 12 (8) ◽  
pp. 3127
Author(s):  
Carolina Cosculluela-Martínez
Keyword(s):  
Agricultural Sector ◽  
First Year ◽  
Long Term Effects ◽  
Correction Model ◽  
Vector Error Correction ◽  
Vector Error ◽  
Short And Long Term ◽  
Stock Types ◽  
Processing Techniques

Investment in every type of asset increases GDP and net employment differently. This paper compares the effect produced by a permanent unitary shock in Sustainable Knowledge for the Primary Sector (SKPS) on the Spanish employment and GDP growth with the effect produced by the other fourteen capital stock types. The methodology used is a Vector Error Correction Model (VECM), where the complementary capital can affect SKPS instantaneously. The results suggest that SKPS produces the second-highest, short and long-term effects on both labor and production, per Euro invested; moreover, the investment of 4.3 thousand euros is retrieved in the first year and increases net employment in one person after four years. Accordingly, the 5 million Euro Budget to invest in sustainable machinery and processing techniques increases net employment by 827 employees.

Role of Research Educator in sequential course-based undergraduate research experience program

2019 ◽  
Vol 366 (12) ◽  
Author(s):  
Caitlin Light ◽  
Megan Fegley ◽  
Nancy Stamp
Keyword(s):  
Research Training ◽  
Undergraduate Research ◽  
Work Load ◽  
Assistant Professor ◽  
First Year ◽  
Research Experience ◽  
Research Experiences ◽  
Microbial Biofilms ◽  
Research Track ◽  
Teaching Responsibilities

ABSTRACT In our First-Year Research Immersion (FRI) program, students take a sequence of three CUREs (course-based undergraduate research experiences). Each Research Educator (Research Assistant Professor, aka RE) oversees the day-to-day work of about 30 first-year and 25 second-year students in a dedicated research-training lab. Instead of the typical work-load division for faculty between their teaching responsibilities (typically lecture) and research programs, REs combine these two responsibilities into one endeavour that better engages and teaches beginning students intending to major in science or engineering. Although more challenging for REs, their work in FRI expands their professional development substantially. Examples from the microbiology research track (specifically, Microbial Biofilms in Human Health) illustrate both the challenges and rewards for the REs.

scholarly journals “Where’s My Mentor?!” Characterizing Negative Mentoring Experiences in Undergraduate Life Science Research

2019 ◽  
Vol 18 (4) ◽  
pp. ar61 ◽  
Author(s):  
Lisa B. Limeri ◽  
Muhammad Zaka Asif ◽  
Benjamin H. T. Bridges ◽  
David Esparza ◽  
Trevor T. Tuma ◽  
...  
Keyword(s):  
Life Science ◽  
Psychosocial Support ◽  
Undergraduate Research ◽  
Science Research ◽  
Future Research ◽  
Research Experiences ◽  
Career Support ◽  
Abuse Of Power ◽  
Unequal Treatment ◽  
And Mathematics

Undergraduate research experiences in science, technology, engineering, and mathematics fields are championed for promoting students’ personal and professional development. Mentorship is an integral part of undergraduate research, as effective mentorship maximizes the benefits undergraduates realize from participating in research. Yet almost no research examines instances in which mentoring is less effective or even problematic, even though prior research on mentoring in workplace settings suggests negative mentoring experiences are common. Here, we report the results of a qualitative study to define and characterize negative mentoring experiences of undergraduate life science researchers. Undergraduate researchers in our study reported seven major ways they experienced negative mentoring: absenteeism, abuse of power, interpersonal mismatch, lack of career support, lack of psychosocial support, misaligned expectations, and unequal treatment. They described some of these experiences as the result of absence of positive mentoring behavior and others as actively harmful behavior, both of which they perceive as detrimental to their psychosocial and career development. Our results are useful to mentors for reflecting on ways their behaviors might be perceived as harmful or unhelpful. These findings can also serve as a foundation for future research aimed at examining the prevalence and impact of negative mentoring experiences in undergraduate research.

scholarly journals Interdisciplinary Training in Mathematical Biology through Team-based Undergraduate Research and Courses

2010 ◽  
Vol 9 (3) ◽  
pp. 284-289 ◽  
Author(s):  
Jason E. Miller ◽  
Timothy Walston
Keyword(s):  
Mathematical Biology ◽  
Undergraduate Research ◽  
Lessons Learned ◽  
State University ◽  
Interdisciplinary Training ◽  
Research Experiences ◽  
Research Collaborations ◽  
Mathematics Program ◽  
And Mathematics ◽  
Interdisciplinary Courses

Inspired by BIO2010 and leveraging institutional and external funding, Truman State University built an undergraduate program in mathematical biology with high-quality, faculty-mentored interdisciplinary research experiences at its core. These experiences taught faculty and students to bridge the epistemological gap between the mathematical and life sciences. Together they created the infrastructure that currently supports several interdisciplinary courses, an innovative minor degree, and long-term interdepartmental research collaborations. This article describes how the program was built with support from the National Science Foundation's Interdisciplinary Training for Undergraduates in Biology and Mathematics program, and it shares lessons learned that will help other undergraduate institutions build their own program.

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