Students with strong metacognitive skills are positioned to learn and achieve more than peers who are still developing their metacognition. Yet, many students come to college without well-developed metacognitive skills. As part of a longitudinal study on metacognitive development, we asked when, why, and how first-year life science majors use metacognitive skills of planning, monitoring, and evaluating. Guided by the metacognition framework, we collected data from 52 undergraduates at three institutions using semi-structured interviews. We found that first-year students seek study recommendations from instructors, peers, and online resources when they plan their study strategies. First-year students struggle to accurately monitor their understanding and benefit when instructors help them confront what they do not yet know. First-year students evaluate the effectiveness of their study plans at two specific points: immediately after taking an exam and/or after receiving their grade on an exam. While first-year students may be particularly open to suggestions on how to learn, they may need help debunking myths about learning. First-year students acknowledge they are still learning to monitor and welcome formative assessments that help them improve the accuracy of their monitoring. First-year students may be primed to receive guidance on their metacognition at the points when they are most likely to evaluate the effectiveness of their study strategies and plans. Based on our results, we offer suggestions for instructors who want to support first-year students to further develop their metacognition.
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Wright, L Kate (Ed.)
ABSTRACT Free, publicly-accessible full text available September 5, 2025 -
Schussler, Elisabeth (Ed.)
This qualitative study of 52 first-year life science students’ metacognition and self-efficacy in action shows that students monitor in a myriad of ways and use self-coaching to overcome the discomfort associated with being metacognitive while solving challenging biochemistry problems.
Free, publicly-accessible full text available June 1, 2025 -
Gardner, Stephanie (Ed.)Stronger metacognition, or awareness and regulation of thinking, is related to higher academic achievement. Most metacognition research has focused at the level of the individual learner. However, a few studies have shown that students working in small groups can stimulate metacognition in one another, leading to improved learning. Given the increased adoption of interactive group work in life science classrooms, there is a need to study the role of social metacognition, or the awareness and regulation of the thinking of others, in this context. Guided by the frameworks of social metacognition and evidence-based reasoning, we asked: 1) What metacognitive utterances (words, phrases, statements, or questions) do students use during small-group problem solving in an upper-division biology course? 2) Which metacognitive utterances are associated with small groups sharing higher-quality reasoning in an upper-division biology classroom? We used discourse analysis to examine transcripts from two groups of three students during breakout sessions. By coding for metacognition, we identified seven types of metacognitive utterances. By coding for reasoning, we uncovered four categories of metacognitive utterances associated with higher-quality reasoning. We offer suggestions for life science educators interested in promoting social metacognition during small-group problem solving.more » « less
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null (Ed.)Metacognition is awareness and control of thinking for learning. Strong metacognitive skills have the power to impact student learning and performance. While metacognition can develop over time with practice, many students struggle to meaningfully engage in metacognitive processes. In an evidence-based teaching guide associated with this paper ( https://lse.ascb.org/evidence-based-teaching-guides/student-metacognition ), we outline the reasons metacognition is critical for learning and summarize relevant research on this topic. We focus on three main areas in which faculty can foster students’ metacognition: supporting student learning strategies (i.e., study skills), encouraging monitoring and control of learning, and promoting social metacognition during group work. We distill insights from key papers into general recommendations for instruction, as well as a special list of four recommendations that instructors can implement in any course. We encourage both instructors and researchers to target metacognition to help students improve their learning and performance.more » « less