Design and Assessment of Online, Interactive Tutorials That Teach Science Process Skills

Kramer, Maxwell; Olson, Dalay H.; Walker, J. D.

doi:10.1187/cbe.17-06-0109

Cited by 24 publications

(27 citation statements)

References 41 publications

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“…When skill development was scaffolded and reinforced through progressive course assignments in an introductory course, students showed significant gains in experimental design and graphing ability and they had higher scores in subsequent required biology courses compared with peers who did not receive scaffolded instruction (9). Integration of interactive online science process skills tutorials into a course led to significant gains among introductory students with limited biology experience (10). These findings suggest that scaffolded teaching of scientific skills in the context of Increased Scaffolding and Inquiry in an Introductory Biology Lab Enhance Experimental Design Skills and Sense of Scientific Ability † a course has positive impacts on immediate learning and long-term success among biology majors and can promote equity in STEM.…”

Section: Introductionmentioning

confidence: 99%

Increased Scaffolding and Inquiry in an Introductory Biology Lab Enhance Experimental Design Skills and Sense of Scientific Ability

Killpack

Fulmer

Dolce

et al. 2020

J Microbiol Biol Educ.

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We present a model for the process of redesigning the laboratory curriculum in Introductory Organismal Biology to increase opportunities for meaningful inquiry and increase student recognition of their scientific skill development. We created scaffolded modules and assignments to allow students to build and practice key skills in experimental design, data analysis, and scientific writing. Using the Tool for Interrelated Experimental Design, we showed significantly higher gains in experimental design scores in the redesigned course and a more consistent pattern of gains across a range of initial student scores compared with the original format. Students who completed the redesigned course rated themselves significantly higher in experimental design, data collection, and data analysis skills compared with students in the original format. Scores on the Laboratory Course Activity Survey were high for both formats and did not significantly differ. However, on written course evaluations, students in the redesigned course were more likely to report that they engaged in “real science” and their “own experiments.” They also had increased recognition of their specific analytical and writing skill development. Our results demonstrate that intentional, scaffolded instruction using inquiry modules can increase experimental design skills and sense of scientific ability in an introductory biology course.

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Section: Introductionmentioning

confidence: 99%

Increased Scaffolding and Inquiry in an Introductory Biology Lab Enhance Experimental Design Skills and Sense of Scientific Ability

Killpack

Fulmer

Dolce

et al. 2020

J Microbiol Biol Educ.

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show abstract

“…Linking into the Open Science framework, examples of open educational resources include freely accessible online lectures, tutorials or literature (Caswell et al., 2008; Hylen, 2006; McGreal et al., 2013). Practical components, such as online tutorials or workshops on how to design field campaigns, collect data, manage datasets and create a reproducible workflow, may also be made available (Fawcett, 2018; Kramer et al., 2018). For example, R tutorials based on data from previous course iterations could be offered as an online training which would also familiarize ECRs with established practices and formats.…”

Section: Enhancing Field Courses With Online Toolsmentioning

confidence: 99%

Next‐generation field courses: Integrating Open Science and online learning

Geange

Oppen

Strydom

et al. 2020

Ecology and Evolution

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“…As evidenced by various calls to action, the education community is working to address this need (American Association for the Advancement of Science [AAAS], 2011;National Research Council [NRC], 2012, 2013. These calls have prompted many educators to re-evaluate the ways in which they approach science education and find ways to identify and develop innovative and evidence-based solutions to educational problems (White et al, 2013;Howell et al, 2018Howell et al, , 2019Kramer et al, 2018). One of the shifts in life sciences education has been to incorporate computer-based models to enhance students' cognitive skills, such as the ability to reason quantitatively, as well as technical skills, such as the ability to use models to support thinking and problem solving (National Science and Technology Council, 2018).…”

Section: Introductionmentioning

confidence: 99%

Teaching Metabolism in Upper-Division Undergraduate Biochemistry Courses using Online Computational Systems and Dynamical Models Improves Student Performance

Booth

Song

Howell

et al. 2021

LSE

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Design and Assessment of Online, Interactive Tutorials That Teach Science Process Skills

Cited by 24 publications

References 41 publications

Increased Scaffolding and Inquiry in an Introductory Biology Lab Enhance Experimental Design Skills and Sense of Scientific Ability

Increased Scaffolding and Inquiry in an Introductory Biology Lab Enhance Experimental Design Skills and Sense of Scientific Ability

Next‐generation field courses: Integrating Open Science and online learning

Teaching Metabolism in Upper-Division Undergraduate Biochemistry Courses using Online Computational Systems and Dynamical Models Improves Student Performance

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