Improving students’ science text comprehension through metacognitive self-regulation when applying learning strategies

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Improving students’ science text comprehension through metacognitive self-regulation when applying learning strategies. / Leopold, Claudia; Leutner, Detlev.
In: Metacognition and Learning, Vol. 10, No. 3, 01.12.2015, p. 313-346.

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@article{a98f2263a9594482b8bc7571785fcb3e,
title = "Improving students{\textquoteright} science text comprehension through metacognitive self-regulation when applying learning strategies",
abstract = "In three experiments, students were trained to use strategies for learning from scientific texts: text highlighting (Experiment 1), knowledge mapping (Experiment 2), and visualizing (Experiment 3). Each experiment compared a control condition, cognitive strategy training, and a combined cognitive strategy plus metacognitive self-regulation training with a specific focus on the quality of cognitive strategy application. After the training, students applied the learning strategies as they studied scientific texts. Across experiments, the results indicated that the self-regulation component of the training helped the students to overcome the lack of efficacy of the cognitive strategy only training when it was not effective by itself: The highlighting-only group was outperformed by the control group (d = −1.25), but the combined highlighting-plus-self-regulation training reduced this negative effect (d = −0.21). The mapping-only group performed as well as the control group (d = −0.12), but the combined mapping-plus-self-regulation group outperformed the control group (d = 0.76). The visualizing-only group outperformed the control group (d = 0.72) as did the combined visualizing-plus-self-regulation group (d = 0.78). Results suggest that cognitive learning strategies differ in their potential to induce deep versus surface processing of text contents. In addition, the metacognitive self-regulation component of the training enhanced students{\textquoteright} performance when the cognitive strategy training was not effective by itself.",
keywords = "Learning strategy, Metacognition, Quality, Self-regulated learning, Strategy training, Text comprehension, Psychology",
author = "Claudia Leopold and Detlev Leutner",
year = "2015",
month = dec,
day = "1",
doi = "10.1007/s11409-014-9130-2",
language = "English",
volume = "10",
pages = "313--346",
journal = "Metacognition and Learning",
issn = "1556-1623",
publisher = "Springer New York LLC",
number = "3",

}

RIS

TY - JOUR

T1 - Improving students’ science text comprehension through metacognitive self-regulation when applying learning strategies

AU - Leopold, Claudia

AU - Leutner, Detlev

PY - 2015/12/1

Y1 - 2015/12/1

N2 - In three experiments, students were trained to use strategies for learning from scientific texts: text highlighting (Experiment 1), knowledge mapping (Experiment 2), and visualizing (Experiment 3). Each experiment compared a control condition, cognitive strategy training, and a combined cognitive strategy plus metacognitive self-regulation training with a specific focus on the quality of cognitive strategy application. After the training, students applied the learning strategies as they studied scientific texts. Across experiments, the results indicated that the self-regulation component of the training helped the students to overcome the lack of efficacy of the cognitive strategy only training when it was not effective by itself: The highlighting-only group was outperformed by the control group (d = −1.25), but the combined highlighting-plus-self-regulation training reduced this negative effect (d = −0.21). The mapping-only group performed as well as the control group (d = −0.12), but the combined mapping-plus-self-regulation group outperformed the control group (d = 0.76). The visualizing-only group outperformed the control group (d = 0.72) as did the combined visualizing-plus-self-regulation group (d = 0.78). Results suggest that cognitive learning strategies differ in their potential to induce deep versus surface processing of text contents. In addition, the metacognitive self-regulation component of the training enhanced students’ performance when the cognitive strategy training was not effective by itself.

AB - In three experiments, students were trained to use strategies for learning from scientific texts: text highlighting (Experiment 1), knowledge mapping (Experiment 2), and visualizing (Experiment 3). Each experiment compared a control condition, cognitive strategy training, and a combined cognitive strategy plus metacognitive self-regulation training with a specific focus on the quality of cognitive strategy application. After the training, students applied the learning strategies as they studied scientific texts. Across experiments, the results indicated that the self-regulation component of the training helped the students to overcome the lack of efficacy of the cognitive strategy only training when it was not effective by itself: The highlighting-only group was outperformed by the control group (d = −1.25), but the combined highlighting-plus-self-regulation training reduced this negative effect (d = −0.21). The mapping-only group performed as well as the control group (d = −0.12), but the combined mapping-plus-self-regulation group outperformed the control group (d = 0.76). The visualizing-only group outperformed the control group (d = 0.72) as did the combined visualizing-plus-self-regulation group (d = 0.78). Results suggest that cognitive learning strategies differ in their potential to induce deep versus surface processing of text contents. In addition, the metacognitive self-regulation component of the training enhanced students’ performance when the cognitive strategy training was not effective by itself.

KW - Learning strategy

KW - Metacognition

KW - Quality

KW - Self-regulated learning

KW - Strategy training

KW - Text comprehension

KW - Psychology

UR - http://www.scopus.com/inward/record.url?scp=84947030463&partnerID=8YFLogxK

UR - https://www.mendeley.com/catalogue/725debdf-7d26-3bd5-b2b2-a327fa03881a/

U2 - 10.1007/s11409-014-9130-2

DO - 10.1007/s11409-014-9130-2

M3 - Journal articles

AN - SCOPUS:84947030463

VL - 10

SP - 313

EP - 346

JO - Metacognition and Learning

JF - Metacognition and Learning

SN - 1556-1623

IS - 3

ER -