SuperVision Earth’s Post

Volcanic Eruption results in State of Emergency in Iceland. Monitoring volcanoes is complex and requires numerous sensor technologies and sensor fusion for data analysis, but it can help avoid casualties and minimize property damage. https://lnkd.in/g4giKThJ

🌋 Improved Volcano Monitoring & Prediction with Enable-IT Technology 🌋 The recent Icelandic eruption underscored the critical need for advanced volcano monitoring. Discover how Enable-IT's innovative solutions are revolutionizing early warnings and protection measures worldwide. Key Benefits: - Seismic Remote Sensing: Monitoring earth movements with GPS, IP cameras, and laser tools. - Atmospheric Remote Sensing: Tracking volcanic clouds and SO2 emissions. - Thermal Remote Sensing: Measuring heat from volcanic vents and activity. Learn more about our technology's role in volcanic hazard monitoring: https://lnkd.in/ebZmK3jG #VolcanoMonitoring #VolcanoPrediction #SeismicSensing #AtmosphericSensing #ThermalSensing #EnableIT

Monitoring Volcanic Plumes and Clouds Using Remote Sensing: A Systematic Review (Rui Mota et al., 2024) https://lnkd.in/dUdYpGnd

#PolaRx5S receivers are part of a vast network, which monitors #ionospheric scintillations in regions of heightened #solar activity around the equator and at the poles. These receivers belong to #INGV (Italian National Institute of Geophysics and Volcanology) as well as #KNMI (The Royal Netherlands Meteorological Institute). Learn how KNMI uses PolaRx5S to monitor volcanic as well as ionospheric activity: https://lnkd.in/e8gmsCiv

Check out this blog post which highlights the use of optical satellite images for #disasterresponse. It takes us through a comprehensive monitoring of the ongoing volcano eruptions in #Iceland, showcasing the power of the near-infrared spectrum. Enjoy the reading! #earthobservation #satelliteimagery

Volcanic lightning detection has proven useful to volcano monitoring by providing information on eruption onset, source parameters, and ash cloud directions. However, little is known about the influence of changing eruptive styles on the generation of charge and electrical discharges inside the eruption column. The 2021 Tajogaite eruption (La Palma, Canary Islands) provided the rare opportunity to monitor variations in electrical activity continuously over several weeks using an electrostatic lightning detector. Read more on how Biral's technology was key to the monitoring in the Communications Earth & Environment Journal. https://buff.ly/3WfAZEi

December's Reykjanes eruption in Iceland did not produce much ash, and scientists advised that there would not be impacts on air travel this time around. But 13 years ago the Icelandic volcano Eyjafjallajökul erupted, sending a plume of volcanic ash over 9km into the sky. The 2010 eruption was relatively small but its impact was massive, as Europe experienced air travel chaos for almost one month. The National Centre for Atmospheric Science played a key role in reopening European air space, using their FAAM Airborne Laboratory’s research aircraft to map the distribution of ash particles. The ash plume contained large amounts of microscopic particles of hard volcanic rock, which even in small concentrations can be extremely damaging to aircraft engines. NCAS scientists worked closely with the Civil Aviation Authority and the Met Office to track the ash plume and its contents using scientific instruments fitted to two research aircraft, alongside a series of computer models. Find out more about how NCAS researchers monitor volcanic eruption emissions: https://lnkd.in/dfHE6XgF

**Exploring the Depths of Volcanology: Understanding Earth's Fiery Forces** Volcanology, the study of volcanoes, delves into the dynamics of Earth's molten fury. Recent advancements have uncovered how volcanic eruptions impact global climate, with the 2022 Hunga Tonga-Hunga Ha'apai eruption releasing ash and aerosols that reached the stratosphere, influencing weather patterns. Cutting-edge remote sensing technology now allows for real-time monitoring of volcanic activity, enhancing predictive models and early warning systems. Intriguingly, studies of submarine volcanoes have revealed unique ecosystems thriving in extreme conditions, expanding our understanding of life's resilience. #Volcanology #EarthScience #ClimateImpact

Utilization of satellite imagery technology as an instrument for monitoring Mount Merapi Sharing insights from one of my other projects! I carried out a comprehensive analysis of Mount Merapi's volcanic activity using satellite imagery, specifically examining changes in Land Surface Temperature (LST) from 2018 to 2023 using Landsat 8 data in the Merapi area. Amazingly, the research results revealed that the highest surface temperature was in 2021, reaching a peak of 87 Celsius, while the lowest temperature occurred in 2020, reaching 51 Celsius. This finding correlates with volcanic eruptions that affect Merapi's surface temperature. Stay tuned for my next topic, where I will describe in more depth the interesting relationship between Merapi eruptions and Land Surface Temperature. #RemoteSensing #SpatialAnalyst #SatelliteImagery #Volcano #MountainEruption #MountMerapi #LandSurfaceTemperature

Gain insights into the depth, shape, and structure of the seabed for various crucial purposes with #Area2030 ✅ Understand Ocean circulation dynamics; ✅ Improve volcanic, seismic, and tsunami forecasting; ✅ Enhance fishing resource management and sediment transport studies; ✅ Monitor environmental changes and mitigate underwater geo-hazards. Explore the potential of AREA2030 and join us in shaping the future of ocean exploration: https://bit.ly/3RSyOmG #AREA2030 #OceanScience #FutureOfExploration