Volcanic eruptions are often accompanied by release of huge amounts of magmatic SO2. Capturing sizeable precursory SO2 flux variations prior to eruption has revealed far more challenging, instead, in spite of the recent progresses in instrumental gas monitoring. Here, we report on the SO2 fluxes variations we detected at Stromboli volcano prior to the effusive eruption started on the 6th August 2014. The SO2 fluxes were regularly quantified at high-rate (0.5 Hz) using two fully autonomous permanent SO2 camera devices installed - within the framework the ERC-FP7 project "Bridge"- at two sites located at 0.5 km (Roccette) and 1.75 km (Sciara del Fuoco rim) distance from the crater terrace. This system provided sufficient spatial resolution, (...
Observations of volcanic degassing yield insights into the sub-surface magmatic processes which cont...
In this study, I take advantage of a novel technique - the UV camera - to image SO2 emissions from t...
Investigating Etna’s long-term SO2 flux behaviour has led to important conclusions on the structure o...
Volcanic eruptions are often accompanied by release of huge amounts of magmatic SO2. Capturing sizea...
Improving volcanic gas monitoring techniques is central to better understanding open-vent, persisten...
Understanding the mechanisms that cause effusive eruptions is the key to mitigating their associated...
Stromboli is one of the most active volcanoes on Earth, and one of the few where passive degassing ...
Understanding the mechanisms that cause effusive eruptions is the key to mitigating their associate...
SO2 fluxes emitted by Stromboli during the 27th February – 2nd April 2007 effusive eruption were reg...
Visually unattainable magmatic processes in volcanic conduits, such as degassing, are closely linked...
We installed a permanent SO2 camera system on Stromboli, Italy, in May 2013, in order to improve our...
We report here on a UV-camera based field experiment performed on Stromboli volcano during 7 days in...
The recent eruption of Stromboli in February–April 2007 offered a unique chance to test our current ...
International audienceA multi-parametric experiment at Stromboli volcano (Aeolian Islands, Italy) wa...
Observations of volcanic degassing yield insights into the sub-surface magmatic processes which cont...
In this study, I take advantage of a novel technique - the UV camera - to image SO2 emissions from t...
Investigating Etna’s long-term SO2 flux behaviour has led to important conclusions on the structure o...
Volcanic eruptions are often accompanied by release of huge amounts of magmatic SO2. Capturing sizea...
Improving volcanic gas monitoring techniques is central to better understanding open-vent, persisten...
Understanding the mechanisms that cause effusive eruptions is the key to mitigating their associated...
Stromboli is one of the most active volcanoes on Earth, and one of the few where passive degassing ...
Understanding the mechanisms that cause effusive eruptions is the key to mitigating their associate...
SO2 fluxes emitted by Stromboli during the 27th February – 2nd April 2007 effusive eruption were reg...
Visually unattainable magmatic processes in volcanic conduits, such as degassing, are closely linked...
We installed a permanent SO2 camera system on Stromboli, Italy, in May 2013, in order to improve our...
We report here on a UV-camera based field experiment performed on Stromboli volcano during 7 days in...
The recent eruption of Stromboli in February–April 2007 offered a unique chance to test our current ...
International audienceA multi-parametric experiment at Stromboli volcano (Aeolian Islands, Italy) wa...
Observations of volcanic degassing yield insights into the sub-surface magmatic processes which cont...
In this study, I take advantage of a novel technique - the UV camera - to image SO2 emissions from t...
Investigating Etna’s long-term SO2 flux behaviour has led to important conclusions on the structure o...