INTEGRATION OF REMOTE SENSING & ENVIRONMENTAL SCIENCE IN PLACED-BASED LEARNING

Integration of remote sensing techniques and Environmental Science methodologies in placed-based curriculum design creates unique learning opportunities. To promote introductory-level student engagement with STEM, our team designed a set of multidisciplinary teaching materials to intensely examine a...

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Bibliographic Details
Published inInternational archives of the photogrammetry, remote sensing and spatial information sciences. Vol. XLIV-M-3-2021; pp. 73 - 78
Main Authors Ignatius, A. R., Flood, M. G.
Format Journal Article Conference Proceeding
LanguageEnglish
Published Gottingen Copernicus GmbH 2021
Copernicus Publications
Subjects
Core curriculum
Curricula
Data sources
Design
Drought
Environmental conditions
Environmental science
Imagery
Interdisciplinary aspects
Lakes
Land cover
Landsat
Landsat satellites
Landscape ecology
Learning
Rain
Rainfall
Remote sensing
River discharge
River flow
Satellite imagery
Spectral bands
Students
Surface water
Teaching materials
Technical education
Temporal resolution
Watersheds
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Summary:Integration of remote sensing techniques and Environmental Science methodologies in placed-based curriculum design creates unique learning opportunities. To promote introductory-level student engagement with STEM, our team designed a set of multidisciplinary teaching materials to intensely examine a single location: the Lake Sidney Lanier watershed of North Georgia, USA. Using a combination of scientific approaches from a variety of disciplines, course exercises encourage students to holistically learn about environmental conditions within the watershed. Remote sensing exercises are embedded throughout the course content and include analysis of historic aerial imagery, Landsat-derived dynamic surface water extent, google timelapse land cover change, Sentinel 2 spectral bands, and evaluation of topography.Fundamental spatial concepts of scale and connectivity are considered using interdisciplinary approaches and local data. Landscape ecology is presented alongside remote sensing concepts of spatial and temporal resolution. This allows students to think about the diverse ways scientists understand scale, pattern, and the definition of “place”. Multiple data sources are also provided for each topic. For example, remote sensing imagery is used to investigate surface water conditions during drought and high-rainfall time periods. In addition, USGS streamgage river discharge data and rainfall estimates are provided for students to examine drought history using multiple parameters. Lastly, sensor deployment and limitations of each data source are described so that students understand both the history of place as well as the process and development of science. Through the use of a place-based curriculum design and interdisciplinary lab exercises, students gain a holistic understanding of a regional watershed.
ISSN:2194-9034
1682-1750
2194-9034
DOI:10.5194/isprs-archives-XLIV-M-3-2021-73-2021