Hybrid Inquiry-Based Laboratory Curriculum Highlights Scientific Method Using Bacterial Conjugation as a Model.

IF 1.6 Q2 EDUCATION, SCIENTIFIC DISCIPLINES Journal of Microbiology & Biology Education Pub Date : 2023-08-01 DOI:10.1128/jmbe.00237-22

Joan E Klages, Srishti Baid, Emily G Giri, Dyan E Morgan, Eileen M Hotze

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Abstract

Undergraduate microbiology students are exposed to the theory of the scientific method throughout their undergraduate coursework, but laboratory course curricula often focus on technical skills rather than fully integrating scientific thinking as a component of competencies addressed. Here, we have designed a six-session inquiry-based laboratory (IBL) curriculum for an upper-level microbiology laboratory course that fully involves students in the scientific process using bacterial conjugation as the model system, including both online discussions and in-person laboratory sessions. The student learning objectives focus on the scientific method, experimental design, data analysis, bacterial conjugation mechanisms, and scientific communication. We hypothesized students would meet these learning objectives after completing this IBL and tracked student learning and surveyed students to provide an assessment of the structure of the IBL using pre- and post-IBL quizzes and the Laboratory Course Assessment Survey. Overall, our results show this IBL results in positive student learning gains.

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混合型探究式实验课程强调以细菌偶联为模型的科学方法。

微生物学本科学生在整个本科课程中都接触到科学方法的理论，但实验室课程通常侧重于技术技能，而不是将科学思维作为能力的组成部分进行充分整合。在这里，我们为一门高级微生物学实验课程设计了六节研究性实验室(IBL)课程，以细菌偶联为模型系统，让学生充分参与科学过程，包括在线讨论和现场实验。学生的学习目标集中在科学方法、实验设计、数据分析、细菌结合机制和科学交流。我们假设学生在完成IBL后会达到这些学习目标，并跟踪学生的学习情况，并通过IBL前后测验和实验课程评估调查对学生的IBL结构进行调查。总的来说，我们的研究结果表明，这种IBL导致了积极的学生学习收益。

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