Developing Seventh Grade Students’ Understanding of Complex Environmental Problems with Systems Tools and Representations: a Quasi-experimental Study

A systems-based classroom intervention on environmental education was designed for seventh grade students; the results were evaluated to see its impact on the development of systems thinking skills and standard science achievement and whether the systems approach is a more effective way to teach env...

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Bibliographic Details
Published in:Research in science education (Australasian Science Education Research Association) 2018-04, Vol.48 (2), p.491-514
Main Authors: Doganca Kucuk, Zerrin, Saysel, Ali Kerem
Format: Article
Language:English
Subjects:
Achievement Tests
Classrooms
Control Groups
Critical thinking
Curricula
Dynamic models
Education
Environmental Education
Environmental impact
Environmental Influences
Experimental Groups
Foreign Countries
Grade 7
Graphical representations
Intervention
Middle School Students
Pretests Posttests
Problem Solving
Quantitative analysis
Quasi-experimental methods
Quasiexperimental Design
Science Achievement
Science Education
Science Instruction
Skills
Statistical Analysis
Students
System effectiveness
Systems Approach
Thinking Skills
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Summary:A systems-based classroom intervention on environmental education was designed for seventh grade students; the results were evaluated to see its impact on the development of systems thinking skills and standard science achievement and whether the systems approach is a more effective way to teach environmental issues that are dynamic and complex. A quasi-experimental methodology was used to compare performances of the participants in various dimensions, including systems thinking skills, competence in dynamic environmental problem solving and success in science achievement tests. The same pre-, post- and delayed tests were used with both the comparison and experimental groups in the same public middle school in Istanbul. Classroom activities designed for the comparison group ( N  = 20) followed the directives of the Science and Technology Curriculum, while the experimental group ( N  = 22) covered the same subject matter through activities benefiting from systems tools and representations such as behaviour over time graphs, causal loop diagrams, stock-flow structures and hands-on dynamic modelling. After a one-month systems-based instruction, the experimental group demonstrated significantly better systems thinking and dynamic environmental problem solving skills. Achievement in dynamic problem solving was found to be relatively stable over time. However, standard science achievement did not improve at all. This paper focuses on the quantitative analysis of the results, the weaknesses of the curriculum and educational implications.
ISSN:0157-244X
1573-1898
DOI:10.1007/s11165-017-9620-8