在本科火山学课程中,通过虚拟实地考察来辅助地质解释

Q1 Social Sciences Journal of Geoscience Education Pub Date : 2023-11-13 DOI:10.1080/10899995.2023.2279016
A. Watson, B. M. Kennedy, J. Davidson, E. Brogt, A. Jolley
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引用次数: 0

摘要

摘要野外工作中经常教授诸如解释露头等地质技能。然而,最近数字技术的进步以及对更具包容性和可及性学习的需求为在虚拟实地考察(VFT)中教授这些技能提供了机会。开发冰岛VFT是为了向学生讲授冰岛的火山特征和过程,并帮助学生在三年级的物理火山学课堂中发展地质技能。为了确定VFT在帮助学生口译技能发展方面的有效性,我们计算了VFT前后应用素描练习的学习收益,其中要求学生绘制熔岩流露头的照片,并从一系列不同的角度解释流的形状和特征。最大的学习增益是地图视图下的熔岩流解释(0.40),其次是侧面视图下的熔岩流解释(0.31)。学生对vft后评估练习的反应表明,教学/360视频和3D景观和岩石模型使学生能够在空间上探索景观中的火山特征,这有助于他们在应用素描练习中解释熔岩流露头在多个角度可能看起来像什么。我们的结论是,VFT支持学生对熔岩流的地质解释,并建议使用具有交互式空间挑战性练习的虚拟实地考察,以提高学生对讲座和实验室内容的概念理解,以及准备或加强实地考察。作者希望感谢Giles Seropian, Alex Nichols和帮助教授物理火山学课程的助教以及Gro Pedersen, Freysteinn Sigmundsson, John Eichelberger和James Catley的贡献,他们作为现场专家为IVFT做出了贡献。冰岛VFT利用开源软件包,如Melown VTS堆栈,帮助作者创建和改进3D可视化。我们也感谢MBIE催化剂种子基金“岩浆直接能量”、核心教育和Krafla岩浆钻探项目对本研究的支持。作者还感谢两位审稿人和编辑极大地提高了本文的质量。披露声明作者未报告潜在的利益冲突。
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The implementation of a virtual field trip to aid geological interpretation within an undergraduate volcanology course
AbstractGeological skills such as interpreting outcrops are often taught during fieldwork. However, recent advancements in digital technologies and the demand for more inclusive and accessible learning has provided an opportunity to teach these skills in virtual field trips (VFT). The Iceland VFT was developed to teach students about volcanic features and processes in Iceland and help students develop geological skills within a third-year, classroom-based, physical volcanology course. To determine the effectiveness of the VFT at aiding the development of student interpretation skills, we calculated the learning gains from an applied sketching exercise administered pre- and post- VFT, where students were asked to sketch a photograph of a lava flow outcrop and interpret flow shape and features from a range of different perspectives. The largest learning gains were for lava flow interpretation in map-view (0.40) followed by lava flow interpretation in side-view (0.31). Student responses to a post-VFT evaluation exercise indicate that the instructional/360 videos and the 3D landscape and rock models allowed students to spatially explore volcanic features within the landscape which aided their ability to interpret what the lava flow outcrop within the applied sketching exercise might look like in multiple perspectives. We conclude that the VFT supported students’ geological interpretation of lava flows and recommend that virtual fieldtrips with interactive spatially challenging exercises can be used to improve students’ conceptual understanding of content delivered in lectures and laboratories as well as preparation or reinforcement of fieldwork.Keywords: Blended learningonlinefield experiencevolcanoassessment AcknowledgementsThe authors wish to acknowledge the contributions of Giles Seropian, Alex Nichols and the teaching assistants that helped teach the physical volcanology course as well as Gro Pedersen, Freysteinn Sigmundsson, John Eichelberger, and James Catley who contributed as field experts to the IVFT. The Iceland VFT makes use of Open-Source software packages such as Melown VTS stack which helped the authors create and improve 3D visualisations. We also acknowledge MBIE Catalyst seeding grant “Energy straight from magma,” Core Education, and Krafla Magma Drilling project for supporting this research. The authors also thank two reviewers and the editors for greatly improving the quality of this manuscript.Disclosure statementNo potential conflict of interest was reported by the author(s).
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来源期刊
Journal of Geoscience Education
Journal of Geoscience Education Social Sciences-Education
CiteScore
3.20
自引率
0.00%
发文量
32
期刊介绍: The Journal of Geoscience Education (JGE) is a peer-reviewed publication for geoscience education research, and serves as an international forum for research concerning the pedagogy, assessment, and philosophy of teaching and learning about the geosciences and related domains. JGE is a publication of the National Association of Geoscience Teachers, a non-profit, member-driven organization that supports a diverse, inclusive, and thriving community of educators and education researchers to improve teaching and learning about the Earth.
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