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TitleRemote sensing data types and techniques for lahar path detection: a case study at Mt Ruapehu, New Zealand
 
AuthorJoyce, K E; Samsonov, SORCID logo; Manville, V; Jongens, R; Graettinger, A; Cronin, S J
SourceRemote Sensing of Environment vol. 113, issue 8, 2009 p. 1778-1786, https://doi.org/10.1016/j.rse.2009.04.001
Year2009
PublisherElsevier BV
Documentserial
Lang.English
Mediapaper; on-line; digital
File formatpdf
AreaMt Ruapehu; New Zealand
Lat/Long WENS175.0000 176.0000 -39.0000 -40.0000
Subjectsgeophysics; volcanoes; deformation; remote sensing; satellite imagery
AbstractMt Ruapehu is New Zealand's most active onshore volcano. In 2007, the volcano produced a large lahar following a break-out from the summit Crater Lake. Here, satellite and airborne remote sensing and image processing is used to extract the path of the lahar using ASTER and SPOT5 visible and near infra-red imagery, ALOS-PALSAR L-band synthetic aperture RADAR data, and airborne LiDAR. The results obtained from each of these datasets were compared to the lahar deposit manually digitized from aerial photography. SPOT5 imagery produced the most accurate map of the lahar deposit (77% correct), even though these data were acquired a year after the event. This is attributed to the spatial resolution of the data. The ALOS-PALSAR coherence mapping calculated from images acquired 2 months before and nine months after the lahar was not as accurate as that obtained using the optical imagery (43% correct), but this was still considered an important tool for acquiring data during cloudy periods. LiDAR topographic data, collected to constrain geomorphic changes caused by the lahar, was the least accurate in terms of mapping the lahar path (28% correct). No single technique was deemed to be the most accurate under all circumstances, and a combination of data types would produce the best results. By combining the satellite and LiDAR data, it was possible to accurately classify 92% of the lahar path.
GEOSCAN ID293817

 
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