0000000000329191

AUTHOR

Giovanni Maio

showing 6 related works from this author

Volcanic Plume CO2 Flux Measurements at Mount Etna by Mobile Differential Absorption Lidar

2017

Volcanic eruptions are often preceded by precursory increases in the volcanic carbon dioxide (CO2) flux. Unfortunately, the traditional techniques used to measure volcanic CO2 require near-vent, in situ plume measurements that are potentially hazardous for operators and expose instruments to extreme conditions. To overcome these limitations, the project BRIDGE (BRIDging the gap between Gas Emissions and geophysical observations at active volcanoes) received funding from the European Research Council, with the objective to develop a new generation of volcanic gas sensing instruments, including a novel DIAL-Lidar (Differential Absorption Light Detection and Ranging) for remote (e.g., distal) …

volcanic plumes010504 meteorology & atmospheric sciencesFlux010502 geochemistry & geophysicsAtmospheric sciences01 natural sciencesVolcanic plumeVolcanic CO2 fluxImpact craterDifferential Absorption Lidar (DIAL);Remote sensing;Volcanic CO2 flux;Volcanic plumesGas compositionDifferential Absorption Lidar (DIAL)0105 earth and related environmental sciencesRemote sensinggeographygeography.geographical_feature_categoryvolcanic plumes; volcanic CO<sub>2</sub> flux; remote sensing; Differential Absorption Lidar (DIAL)lcsh:QE1-996.5ElevationRemote sensingPlumelcsh:GeologyLidarVolcanoVolcanic plume13. Climate actionGeneral Earth and Planetary SciencesEarth and Planetary Sciences (all)GeologyGeosciences; Volume 7; Issue 1; Pages: 9
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Fast tracking of wind speed with a differential absorption LiDAR system: First results of an experimental campaign at Stromboli volcano

2017

Carbon dioxide ( CO 2 ) is considered a precursor gas of volcanic eruptions by volcanologists. Monitoring the anomalous release of this parameter, we can retrieve useful information for the mitigation of volcanic hazards, such as for air traffic security. From a dataset collected during the Stromboli volcano field campaign, an assessment of the wind speed, in both horizontal and vertical paths, performing a fast tracking of this parameter was retrieved. This was determined with a newly designed shot-per-shot differential absorption LiDAR system operated in the near-infrared spectral region due to the simultaneous reconstruction of CO 2 concentrations and wind speeds, using the same sample o…

geographyVolcanic hazardsvolcanic hazard;differential absorption LiDAR;carbon dioxide;LiDAR;wind speed;correlationgeography.geographical_feature_categoryAtomic and Molecular Physics and OpticLiDARBackscatterMeteorologyGeneral Engineeringcarbon dioxidecarbon dioxide; correlation; differential absorption LiDAR; LiDAR; volcanic hazard; wind speed; Atomic and Molecular Physics and Optics; Engineering (all)differential absorption LiDARAtomic and Molecular Physics and OpticsWind speedAerosolvolcanic hazardLidarOptical pathEngineering (all)VolcanocorrelationEnvironmental scienceAbsorption (electromagnetic radiation)wind speedRemote sensing
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Early detection of volcanic hazard by lidar measurement of carbon dioxide

2016

Volcanic gases give information on magmatic processes. In particular, anomalous releases of carbon dioxide precede volcanic eruptions. Up to now, this gas has been measured in volcanic plumes with conventional measurements that imply the severe risks of local sampling and can last many hours. For these reasons and for the great advantages of laser sensing, the thorough development of volcanic lidars has been undertaken at ENEA (Italian National Agency for New Technologies, Energy and Sustainable Economic Development). In fact, lidar profiling allows one to scan remotely volcanic plumes in a fast and continuous way, and with high spatial and temporal resolution. A differential absorption lid…

Atmospheric ScienceVolcanic hazardsGas detection02 engineering and technology01 natural scienceslaw.invention010309 opticsVolcanic Gases020210 optoelectronics & photonicsImpact craterlawNatural hazard0103 physical sciences0202 electrical engineering electronic engineering information engineeringEarth and Planetary Sciences (miscellaneous)eventWater Science and TechnologyRemote sensingevent.disaster_typegeographygeography.geographical_feature_categoryVolcanic hazardLaserLaser remote sensingLidarDifferential absorption lidarVolcano13. Climate actionTemporal resolutionGeologyNatural Hazards
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Lidar detection of carbon dioxide in volcanic plumes

2015

Volcanic gases give information on magmatic processes. In particular, anomalous releases of carbon dioxide precede volcanic eruptions. Up to now, this gas has been measured in volcanic plumes with conventional measurements that imply the severe risks of local sampling and can last many hours. For these reasons and for the great advantages of laser sensing, the thorough development of volcanic lidar has been undertaken at the Diagnostics and Metrology Laboratory (UTAPRAD-DIM) of the Italian National Agency for New Technologies, Energy and Sustainable Economic Development (ENEA). In fact, lidar profiling allows one to scan remotely volcanic plumes in a fast and continuous way, and with high s…

volcanic phenomenaMeteorologygas detection;volcanic phenomena;laser remote sensing;differential absorption lidardifferential absorption lidar; gas detection; laser remote sensing; volcanic phenomena; Applied Mathematics; Computer Science Applications1707 Computer Vision and Pattern Recognition; Electrical and Electronic Engineering; Electronic Optical and Magnetic Materials; Condensed Matter Physicsgas detectiondifferential absorption lidarlaw.inventionVolcanic GasesImpact craterlawlaser remote sensingeventElectrical and Electronic EngineeringRemote sensingevent.disaster_typeDye lasergeography.geographical_feature_categoryElectronic Optical and Magnetic MaterialComputer Science Applications1707 Computer Vision and Pattern RecognitionCondensed Matter PhysicsLaserOptical parametric amplifierApplied MathematicGeographyLidarVolcanoTemporal resolutionSPIE Proceedings
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The bridge volcanic LIdar-BILLI: A review of data collection and processing techniques in the Italian most hazardous volcanic areas

2020

Volcanologists have demonstrated that carbon dioxide (CO2) fluxes are precursors of volcanic eruptions. Controlling volcanic gases and, in particular, the CO2 flux, is technically challenging, but we can retrieve useful information from magmatic/geological process studies for the mitigation of volcanic hazards including air traffic security. Existing techniques used to probe volcanic gas fluxes have severe limitations such as the requirement of near-vent in situ measurements, which is unsafe for operators and deleterious for equipment. In order to overcome these limitations, a novel range-resolved DIAL-Lidar (Differential Absorption Light Detection and Ranging) has been developed as part of…

Volcanic hazards010504 meteorology & atmospheric sciences010502 geochemistry & geophysics01 natural scienceslcsh:TechnologyData processing techniquesWind speedBridge (nautical)Volcanic Gaseslcsh:ChemistryHazardous wasteGeneral Materials ScienceeventVolcanic eruptionsInstrumentationlcsh:QH301-705.50105 earth and related environmental sciencesRemote sensingFluid Flow and Transfer Processesevent.disaster_typeCO2 flux Data processing techniques DIAL-Lidar Volcanic eruptions Volcanic plumesgeographyData collectiongeography.geographical_feature_categorylcsh:TProcess Chemistry and TechnologyCO<sub>2</sub> fluxGeneral Engineeringlcsh:QC1-999Computer Science ApplicationsfluxLidarVolcanolcsh:Biology (General)lcsh:QD1-999lcsh:TA1-2040DIAL-LidarVolcanic plumesEnvironmental scienceCO2lcsh:Engineering (General). Civil engineering (General)lcsh:Physics
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New advances in dial-lidar-based remote sensing of the volcanic CO2 flux

2017

We report here on the results of a proof-of-concept study aimed at remotely sensing the volcanic CO2 flux using a Differential Adsorption lidar (DIAL-lidar). The observations we report on were conducted on June 2014 on Stromboli volcano, where our lidar (LIght Detection And Ranging) was used to scan the volcanic plume from ~ 3 km distance from the summit vents. The obtained results prove that a remotely operating lidar can resolve a volcanic CO2 signal of a few tens of ppm (in excess to background air) over km-long optical paths. We combine these results with independent estimates of plume transport speed (from processing of UV Camera images) to derive volcanic CO2 flux time-series of ≈16-3…

010504 meteorology & atmospheric sciences2010502 geochemistry & geophysics01 natural sciencesDIAL-lidarVolcanic COEarth Sciencevolcanic CO2Stromboli0105 earth and related environmental sciencesRemote sensinggeographygeography.geographical_feature_categoryCo2 fluxRangingRemote sensingPlumeDialCOfluxLidarVolcano13. Climate actionRemote sensing (archaeology)Temporal resolutionGeneral Earth and Planetary SciencesEnvironmental scienceCO2 flux
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