Developing a flexible learning activity on biodiversity and spatial scale concepts using open‐access vegetation datasets from the National Ecological Observatory Network |
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Authors: | Diane M. Styers Jennifer L. Schafer Mary Beth Kolozsvary Kristen M. Brubaker Sara E. Scanga Laurel J. Anderson Jessica J. Mitchell David Barnett |
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Affiliation: | 1. Western Carolina University, Cullowhee NC, USA ; 2. Winthrop University, Rock Hill SC, USA ; 3. Siena College, Loudonville NY, USA ; 4. Hobart and William Smith Colleges, Geneva NY, USA ; 5. Utica College, Utica NY, USA ; 6. Ohio Wesleyan University, Delaware OH, USA ; 7. Spatial Analysis Lab, University of Montana, Missoula MT, USA ; 8. National Ecological Observatory Network, Battelle Memorial Institute, Boulder CO, USA |
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Abstract: | Biodiversity is a complex, yet essential, concept for undergraduate students in ecology and other natural sciences to grasp. As beginner scientists, students must learn to recognize, describe, and interpret patterns of biodiversity across various spatial scales and understand their relationships with ecological processes and human influences. It is also increasingly important for undergraduate programs in ecology and related disciplines to provide students with experiences working with large ecological datasets to develop students’ data science skills and their ability to consider how ecological processes that operate at broader spatial scales (macroscale) affect local ecosystems. To support the goals of improving student understanding of macroscale ecology and biodiversity at multiple spatial scales, we formed an interdisciplinary team that included grant personnel, scientists, and faculty from ecology and spatial sciences to design a flexible learning activity to teach macroscale biodiversity concepts using large datasets from the National Ecological Observatory Network (NEON). We piloted this learning activity in six courses enrolling a total of 109 students, ranging from midlevel ecology and GIS/remote sensing courses, to upper‐level conservation biology. Using our classroom experiences and a pre/postassessment framework, we evaluated whether our learning activity resulted in increased student understanding of macroscale ecology and biodiversity concepts and increased familiarity with analysis techniques, software programs, and large spatio‐ecological datasets. Overall, results suggest that our learning activity improved student understanding of biological diversity, biodiversity metrics, and patterns of biodiversity across several spatial scales. Participating faculty reflected on what went well and what would benefit from changes, and we offer suggestions for implementation of the learning activity based on this feedback. This learning activity introduced students to macroscale ecology and built student skills in working with big data (i.e., large datasets) and performing basic quantitative analyses, skills that are essential for the next generation of ecologists. |
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Keywords: | big data biodiversity metrics quantitative skills scaling teaching undergraduate education |
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