Robust multi-platform approaches are essential in thermal studies within active geothermal and volcanic environments, spanning various spatial and temporal scales. The proposed session's aim is to integrate thermal data from several platform, including satellites, unmanned aerial vehicles (UAVs), in-situ sensors, and laboratory analyses encouraging the integration of the thermal data with other multiparametric datasets. The session will highlight the synergies between different environmental process scales and the technological advancements in data acquisition and numerical modeling. Special emphasis will be placed on pioneering studies that introduce new methods or enhance numerical modeling and integrated systems for monitoring areas affected by geothermal and volcanic activity. These initiatives are crucial for advancing our ability to predict and manage the natural risks associated with these dynamic environments. In conclusion, this interdisciplinary approach is aimed at enhancing our predictive capabilities and developing more effective strategies for managing natural phenomena in geothermal and volcanic settings, improving response strategies and predictive capabilities for these dynamic environments.
We invite contributions from several of disciplines, including remote sensing, applied geophysics, geothermics, volcanology, geochemistry.
We invite contributions from several of disciplines, including remote sensing, applied geophysics, geothermics, volcanology, geochemistry.