THERMAL INFRARED SATELLITE MEASUREMENTS OF VOLCANIC ACTIVITY AT STROMBOLI AND VULCANO

The use of Landsat thermal infrared imagery gives a direct way of quan titatively monitoring the evolution of low-amplitude thermal anomalies . Using nighttime Landsat thematic mapper images of Vulcano and Stromb oli volcanoes on October 23, 1986, we have developed a simplified meth od for correcting atmospheric effects. We were then able to identify t hermal anomalies around the craters. Part of the Stromboli lava flow, formed 1 year earlier, was also still warm enough to be detected. We o btained fairly accurate estimates of relative surface anomaly radiativ e heat fluxes: 29 +/- 5 W M-2, 21 +/- 4 W m-2, and 37 +/- 5 W M-2 for the Stromboli craters, Stromboli lava flow, and Vulcano crater, respec tively. Accounting for the convective heat loss significantly increase s the estimates of the relative internal heat flux of geothermal origi n; we found values of 370 +/- 60 W M-2 for the Stromboli crater region , 220 +/- 50 W M-2 for the Stromboli lava flow, and 270 +/- 60 W M-2 f or the Vulcano crater, Despite the low precision, these values are muc h higher than the 53-62 W M-2 limit (defined by Cassinis and Lechi, 19 74) as the threshold where the geothermal flux can affect ground tempe ratures. Our study provides a unique systematic definition of thermal volcanic features found on Stromboli and Vulcano, the spatial extents of the anomalies, and their fluxes and associated errors.