Abstract
To date, limited research has been done on the implementation of experiential learning among elementary school students. The current mixed-methods study examines the capacity of elementary science students to develop water literacy through the application of an experiential learning framework. From 2016–2017, two sections of 6th-grade science students (n = 56) from a gifted and talented school in Queens, NY, were introduced to an experiential-based water curriculum designed to meet the needs of elementary science standards through the use of authentic learning environments, physical and conceptual modeling, and systems thinking. Multiple research instruments were used as formative and summative assessments to determine baseline understanding and quantify the consequences of student learning: pre- and post-tests and pre- and post-drawing assessments, science notebooks, field journals, reflections, and observations. After participation in the experiential water unit, most students increased their conceptual understanding of water cycle components and processes from surface to groundwater, physical properties of matter, and hydrogeological concepts of permeability and porosity. Systems thinking skills progressed over the unit from structural thinking to dynamic thinking. Implications of this study indicate that the experiential learning framework is an effective pedagogical tool for elementary science students to develop water literacy and science and engineering practices.
Highlights
An understanding of where water is found in the world is fundamental to hypothesizing how hydrological systems work and grasping concepts in earth and environmental science [1,2,3,4]
For research question 1, we asked how participation in the experiential learning unit could improve the conceptual development of hydrological concepts and processes among elementary science students
The students in both class sections were able to develop a conceptual understanding of water science and engineering, as well as water in Earth systems, through science discourse and practices [60,72]
Summary
An understanding of where water is found in the world is fundamental to hypothesizing how hydrological systems work and grasping concepts in earth and environmental science [1,2,3,4]. The nature and practice of elementary school science standards place expectations on students to recognize ecosystem processes and observe, describe, and carry out experiments to investigate water phenomena. Contrary to this learning objective, elementary students hold many misconceptions about hydrological systems. Using Field Data: Field Sampling at Hallett’s Cove Abiotic Factors
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