Application of Land Surface Temperature Derived From Aster Tir to Identify Volcanic Gas Emission Around Bandung Basin

Abstract: Gas emission in volcanic areas is one of the features that can be used for geothermal exploration and to monitor volcanic activity. Volcanic gases are usually emitted in permeable zones in geothermal fields. The use of thermal infrared radiometers (TIR) onboard of advanced spaceborne thermal emission and reflection radiometers (ASTER) aims to detect thermal anomalies at the ground surface related to gas emissions from permeable zones. The study area is located around Bandung Basin, West Java (Indonesia), parti… Show more

“…When both the volcanoes erupted in 2002-2003, the acquired thermal images showed a failure on the volcanoes' flanks before the eruptive fractures' opening. Hilman et al [9] used the thermal infrared radiometers (TIR) on board of an Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) to detect thermal surface anomalies related to the gas emissions around Papandayan and Domas craters (Indonesia). Their results suggested that SO2 emission measurements and land surface temperature corrections are highly correlated.…”

Tracking the Endogenous Dynamics of the Solfatara Volcano (Campi Flegrei, Italy) through the Analysis of Ground Thermal Image Temperatures

“…When both the volcanoes erupted in 2002-2003, the acquired thermal images showed a failure on the volcanoes' flanks before the eruptive fractures' opening. Hilman et al [9] used the thermal infrared radiometers (TIR) on board of an Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) to detect thermal surface anomalies related to the gas emissions around Papandayan and Domas craters (Indonesia). Their results suggested that SO2 emission measurements and land surface temperature corrections are highly correlated.…”

Tracking the Endogenous Dynamics of the Solfatara Volcano (Campi Flegrei, Italy) through the Analysis of Ground Thermal Image Temperatures

Integration of Thermal Infrared and Synthetic Aperture Radar Images to Identify Geothermal Steam Spots Under Thick Vegetation Cover