Data Science in Undergraduate Life Science Education: A Need for Instructor Skills Training

Emery, Nathan; Crispo, Erika; Supp, Sarah R.; Farrell, Kaitlin J.; Kerkhoff, Andrew J.; Bledsoe, Ellen K.; O'Donnell, Kelly L.; McCall, Andrew C.; Aiello‐Lammens, Matthew E.

doi:10.1093/biosci/biab107

Cited by 20 publications

(15 citation statements)

References 44 publications

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“…This allows students to revisit earlier time points to make direct measurements for comparative analysis or make additional observations. Data analysis and the related computer skills required for this are a critical component of modern scientific research that is typically under-emphasized in early college biology coursework [42] . By providing students with simple-to-use analysis tools, students are empowered to look closer at what is occurring and draw more interesting conclusions.…”

Section: Resultsmentioning

confidence: 99%

Cloud-controlled microscopy enables remote project-based biology education in underserved Latinx communities

Baudin

Sacksteder

Worthington

et al. 2022

Heliyon

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Section: Resultsmentioning

confidence: 99%

Cloud-controlled microscopy enables remote project-based biology education in underserved Latinx communities

Baudin

Sacksteder

Worthington

et al. 2022

Heliyon

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“…Three Research-Based Quantitative Reasoning Modules for Introductory Organismal Biology Laboratories management, analysis, and visualization and view these skills as important, a lack of space in the curriculum was identified as a barrier to integration of more of these skill-building activities (7). Furthermore, this survey revealed that learning coding was less valued by instructors as a skill for undergraduate students, although instructors were themselves interested in receiving training on how to teach coding skills.…”

Section: Learning Objectivesmentioning

confidence: 97%

Three Research-Based Quantitative Reasoning Modules for Introductory Organismal Biology Laboratories

Crispo

Ilves

2022

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We have designed three laboratory modules for an introductory organismal biology course with an emphasis on quantitative reasoning and data analysis skills. Module 1 tests for dimorphism in crayfish chelae using a paired statistical design. Module 2 tests for allometric growth of tapeworm hook structures using a regression model. Module 3 tests for differences in stomatal densities between two groups of plants using a two-sample statistical approach. For all three modules, we emphasize the use of confidence intervals to draw statistical conclusions about hypotheses. Knowledge about the basic biology of animals and plants is required, including arthropods, platyhelminths, and vascular plants. Background reading on dimorphism, allometry, and transpiration provides the necessary foundation to develop questions and hypotheses. Some familiarity with R is necessary for both students and instructors, although the activities can be modified for analysis with Excel or another statistical package. These modules can be taught independently or together as a unit within a course. As stated in the AAAS document, Vision and Change: A Call to Action, the ability to use quantitative reasoning is a core competency that must be developed by all biology students. These modules address the call for instruction in quantitative reasoning and provide a hands-on active introduction to key tools that will be required to build students' statistical repertoire in more advanced courses.

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“…In addition, CoPs provide the means for faculty to learn about contemporary breakthroughs within their discipline and pedagogical best practices, while adapting a resource so that it can be implemented in a specific context (Addis et al, 2013;Sirum & Madigan, 2010). By providing expert support during implementation, CoPs can also function as meaningful professional development models for faculty and answer calls for instructor training (Emery et al, 2021;Holmberg et al, 2021). CoPs can also structure the development and validation of assessment instruments, the collection of crossinstitutional data, and the dissemination of assessment findings (Kleinschmit et al, 2021).…”

Section: Leveraging Cops To Foster Oer Developmentmentioning

confidence: 99%

Accelerating STEM education reform: linked communities of practice promote creation of open educational resources and sustainable professional development

et al. 2023

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The preparation of future scientists, the technical workforce, and informed citizens will require continued transformation to the ways we approach STEM teaching and learning. Undergraduate STEM education is rapidly emerging as a focus of faculty scholarship, but new models for reform need to be developed and tested to accelerate changes in teaching practices. This paper describes a flexible, participant-driven, multi-phase, collaborative approach to developing open educational resources (OERs) that leverages linked communities of practice (CoPs). Equally valuable, our framework for development, adaptation, dissemination, and validation of OERs provides a platform for faculty professional development and sustained support through cooperative mentoring. The three linked CoPs in the framework include incubators for the creation of initial OERs, Faculty Mentoring Networks (FMNs) for the implementation and adaptation of OERs for classroom use, and Education Research Communities to assess the effectiveness of the OERs. The CoPs create numerous benefits for participating faculty, including the ability to collaborate in the Scholarship of Teaching and Learning (SoTL) through scholarly publication of OERs and their assessment; ongoing mentorship in implementation of OERs in the classroom; and development of educational leadership skills and experience. Thus, the three CoPs synergize with one another to build and sustain capacity through providing vetted, up-to-date educational resources, as well as ongoing training and support for faculty. While we developed this approach for the rapidly changing field of bioinformatics, the linked CoP framework will have utility for STEM education reform more broadly and disciplines beyond STEM.

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Data Science in Undergraduate Life Science Education: A Need for Instructor Skills Training

Cited by 20 publications

References 44 publications

Cloud-controlled microscopy enables remote project-based biology education in underserved Latinx communities

Cloud-controlled microscopy enables remote project-based biology education in underserved Latinx communities

Three Research-Based Quantitative Reasoning Modules for Introductory Organismal Biology Laboratories

Accelerating STEM education reform: linked communities of practice promote creation of open educational resources and sustainable professional development

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