Abstract
Asama volcano is one of the most active volcanoes in Japan. Spatially dense surface deformation at Asama volcano has rarely been documented because of its high topography and snow cover around the summit. This study presents the first interferometric synthetic aperture radar (InSAR) observation of ground deformation at Asama volcano with 120 Sentinel-1 SAR images from both ascending and descending tracks and 20 descending ALOS-2 images acquired between 2014 and 2018. We exploited both persistent and distributed scatterers to overcome decorrelation of SAR signals and applied a three-dimensional unwrapping method to retrieve the displacement time series efficiently. Our observations reveal an asymmetric deformation around the volcano with two main deformation regions on the northeast and southeast flanks, respectively. The northeast flank (NEF) exhibits line-of-sight (LOS) extensions in all the three SAR datasets with maximum velocities of − 14, − 10, and − 12 mm/year for the descending ALOS-2, ascending, and descending Sentinel-1 measurements, respectively. The southeast flank (SEF) shows LOS extensions in the ascending observations and LOS shortening in the descending observations with velocities between − 12 and 9 mm/year. Decomposition of the LOS displacements reveals nearly pure subsidence at the NEF, while the SEF exhibits a substantial eastward component as well as subsidence. Comparisons of the vertical subsidence at two continuous GNSS stations near the summit crater with our InSAR observations indicate small discrepancies smaller than 4 mm/year. We interpreted that the subsidence at the NEF of Asama is primarily due to the hydrothermal activity, while the deformation at SEF is plausibly due to flank instability. We highlight that efforts should be taken to monitor the slope instability at Asama volcano in the future.
Highlights
Asama volcano is an andesitic composite volcano and one of the most active volcanoes in Japan
The displacements at KAHG and AVOG cover the whole period of our interferometric synthetic aperture radar (InSAR) observation, while the records at KAWG are unavailable after January 2017 due to a power outage
Temporal evolution of displacements at both the two deformation regions shows a nearly linear trend over the observation period, which is confirmed by the global navigation satellite system (GNSS) measurements
Summary
Asama volcano is an andesitic composite volcano and one of the most active volcanoes in Japan. Asama volcano has been active for about 100,000 years and repeatedly erupted every several years in history (Aoki et al 2013). Leveling surveys were repeated 22 times at and around Asama volcano between 1902 and 2005 (Murase et al 2007). Continuous global navigation satellite system (GNSS) observations at Asama volcano have been implemented since the mid-1990s (Takeo et al 2006; Aoki et al 2013). These geodetic measurements have revealed that the deformation pattern of Mt Asama is temporally variable.
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