| A | B | C | D | E | F | G | H | I | J | K | L | M | N | O | P | Q | R | S | T | U | V | W | X | Y | Z | ||
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1 | Friday | ||||||||||||||||||||||||||
2 | Room S150 | Room S160 | Room R280 | Room R290 | Room R380 | ||||||||||||||||||||||
3 | 08:30 | 6.8.1 - Monitoring the impacts of methane extraction on the stability of stratification in Lake Kivu [Martin Schmid] | 6.7.1 - Are cities becoming increasingly threatened by volcanic hazards? [Elinor Meredith] | 3.4.1 - Astronomically forced global volcanic eruptions and their climatic feedbacks [Ping-Ping Liu] | 3.10.1 - Temporal evolution for the last 75 years of unrest at Campi Flegrei caldera (Italy) [Luca Caricchi] | 2.3.1 - Towards near-real time monitoring of volcanic deformation and lava flow mapping using Capella SAR images [Arthur Hauck] | |||||||||||||||||||||
4 | 08:45 | 6.8.2 - Recent changes in hydrothermal dynamics at the Boiling Lake, Dominica Implications for Instability, Gas Release, and Volcanic Hazards [Erouscilla Joseph] | 6.7.2 - Probabilistic volcanic hazard and impact assessment of the Auckland Volcanic Field, Aotearoa New Zealand [James H Williams] | 3.4.2 - The AD 79 Vesuvius eruption revisited [Claudio Scarpati] | 3.10.2 - Progress in anticipating crustal rupture during unrest at Campi Flegrei [Christopher Kilburn] | 2.3.2 - Insights into the 2018 Mayon Volcano eruption from ground deformation measurements [James Noli Nobora] | |||||||||||||||||||||
5 | 09:00 | 6.8.3 - What is causing the El Chichón crater lake non-seasonal large-size variations? [María Aurora Armienta] | 6.7.3 - Quantifying cascading impacts through road network analysis in an insular volcanic setting the 2021 Tajogaite eruption of La Palma Island (Spain) [Lucia Dominguez] | 3.4.3 - New insights into the Santorini Amorgos Tectonic Zone from Maria S. Merian expedition 132 [Christian Berndt] | 3.10.3 - Monitoring the accelerating deformation and seismicity of the ongoing unrest of Campi Flegrei caldera (Italy) [Augusto Neri] | 2.3.3 - InSAR as an Operational Tool for Monitoring U.S. Volcanoes [Marco Bagnardi] | |||||||||||||||||||||
6 | 09:15 | 6.8.4 - Quantitative evaluation of temporal changes in subaqueous hydrothermal activity in active crater lakes during unrest Time-series analyses of lake chemistry [Akihiko Terada] | 6.7.4 - Forecasting tephra impacts during the 2024 unrest at Awu volcano, North Sulawesi, Indonesia [Eleanor Tennant] | 3.4.4 - New Insights into the history of explosive volcanism of the Kolumbo Volcanic Chain. IODP Expedition 398 Hellenic Arc Volcanic Field [Abigail Metcalfe] | 3.10.4 - Imaging of volcano-tectonic features and plumbing system of the Campi Flegrei caldera by magnetotelluric survey [Roberto Isaia] | 2.3.4 - Relationship Between Deformation and Explosive Eruptions at Rincón de la Vieja Volcano, Costa Rica Detected Using GNSS [Emily Mick] | |||||||||||||||||||||
7 | 09:30 | 6.8.5 - Enhancing Satellite-Based Volcanic Lakes Monitoring with the VRP-TIR A Novel Approach to Quantifying Radiative Power using Thermal InfraRed (TIR) Data [Simone Aveni] | 6.7.5 - Combining agricultural production sensitivity and farming practices paves the way for comprehensive volcanic risk analysis [Sophie Malherbe] | 3.4.5 - New 1-to-100k scale geology map embracing volcano geology in the Harrat Lunayyir, NW Saudi Arabia [Mahmoud Ashor] | 3.10.5 - The Solfatara eruption of Campi Flegrei (Italy) combining field, textural and geochemical data to understand the dynamics of small-volume volcanic events at active calderas [Andrea Todde] | 2.3.5 - Monitoring Volcanic Deformation Using InSAR Deformation Time Series at Seasonally Snow-covered Volcanoes [Tianyuan Zhu] | |||||||||||||||||||||
8 | 09:45 | 6.8.6 - Modeling and observing the dynamics of Lake Albano present state and potential hazards under global warming future scenarios [Anita Grezio] | 6.7.6 - The complex and often contradictory realities of the red zone; three cases around Fuego Volcano, Guatemala. [Eliza Calder] | 3.4.6 - Addressing the challenges and knowledge gaps in reconstructing eruptive behaviour in volcanic island settings [Sebastian Watt] | 3.10.6 - Volcano-tectonic controls on the 3D architecture of sub-volcanic magma storage at Campi Flegrei, Italy [Michael Stock] | 2.3.6 - Using high spatial and temporal InSAR time series to image magmatic and flank instability processes [Christelle Wauthier] | |||||||||||||||||||||
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10 | 10:30 | 3.17.1 - Stable open vent behaviour sustained over decades at Mt Michael, South Sandwich Islands, revealed by in situ and satellite observations [Emma Nicholson] | 2.1.4 - Bubbling Waters – What hydroacoustics can tell us about volcanic gas emissions [Ben Roche] | 3.4.7 - A New Subaerial Record of Explosive Volcanism and Tsunami along the Tonga Volcanic Arc, Tonga, SW Pacific [Annahlise Hall] | 1.8.4 - Subsurface lateral magma propagation from Nyiragongo volcano (DRC) an interplay between rifting-induced extension and edifice loading [Virginie Pinel] | 2.3.7 - Structural control of subsurface processes using a finite-elementbased dynamic model of mid and short-term crustal evolution at Krafla volcano. [Ana Martinez Garcia] | |||||||||||||||||||||
11 | 10:45 | 3.17.2 - Tremor amplitude associated with boiling lava pond activity during the 2021 Geldingadalir eruption [Alea Joachim] | 2.1.5 - Waveform inversion of acoustic-gravity waves during the 2023 eruption of Shishaldin volcano, Alaska [Matthew Haney] | 3.4.8 - Eruptions, unrest and disaster a historical approach to eruptive histories in the Eastern Caribbean [Jenni Barclay] | 1.8.5 - Tracking velocity changes of the 2024 Kīlauea East Rift Zone eruption and preceding intrusions with ambient noise interferometry [Alicia Rohnacher] | 2.3.8 - Tectonic stress release through dike emplacement constrained by surface deformation Finite Element modeling of the 2021 Fagradalsfjall dike, Iceland [Sonja H. M. Greiner] | |||||||||||||||||||||
12 | 11:00 | 3.17.3 - How may syneruptive cone collapse modify the eruption column in basaltic eruptions? [Simona Scollo] | 2.1.6 - Detecting and Classifying Volcano Seismicity using a Generalized Deep Learning Model [David Fee] | 3.4.9 - Revised chronostratigraphy of explosive eruptions at Mt. Pelée volcano (Lesser Antilles) in the last 5 kyr Tephra dispersal and implications for volcanic hazard assessment [Guillaume Carazzo] | 1.8.2 - Melting of hydrothermal system Petrology of glassy-like bombs in 1895 eruption of Zao Volcano, NE Japan [Masao Ban] | 2.3.9 - On the ground deformation of Campi Flegrei and Vesuvio since 1993 using SAR data [Luca Crescentini] | |||||||||||||||||||||
13 | 11:15 | 3.17.4 - Variability of the Villarrica volcano lava lake from the analysis of high-resolution satellite images and its relationship with instrumental parameters [Gabriela Pedreros] | 2.1.7 - How can we constrain connections between volcanic seismic signals and eruptive behaviour at Mt Etna? [Jade Eyles] | 3.4.10 - Improving the longer-term record of explosive volcanism in the Mexico City region [Alastair Hodgetts] | 1.8.13 - Impact of topography and water load on magma propagation modelling [Séverine Furst] | 2.3.10 - Laccolith deformation, pit craters, and caldera subsidence at Puyehue-Cordón Caulle, Chile (2011-2024) Integrating InSAR, high-resolution topography and optical imagery [Diego Lobos-Lillo] | |||||||||||||||||||||
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15 | 14:15 | 3.17.5 - Acoustic imaging of volcanic gas migration and degassing beneath Laacher See [Stijn Albers] | 2.1.8 - Spectral Line Variability in Volcanic Tremor as a Proxy for Subsurface Changes Observations from Etna Volcano [Alexander Yates] | 1.5.1 - Exploring Magmatic Evolution by Linking Field Data to a Magma Dynamics and Forward Geophysical Model at the Three Sisters Volcanic Complex, OR, USA [Annika Dechert] | 7.5.1 - Breaking Silos Collaborative Pathways in Volcanological Technology Development [Debra Parcheta] | 3.9.1 - Precursory Pressure Signals of Pyroclastic Density Currents [Anna Perttu] | |||||||||||||||||||||
16 | 14:30 | 3.17.6 - Escalating sulphur in the Campi Flegrei fumaroles marks a step change in caldera unrest. [Alessandro Aiuppa] | 2.1.9 - Understanding Vulcanian Eruptions Through Seismograms Obtained From Unsteady Conduit Flow Models [Mario Ruiz] | 1.5.2 - Separating Magmatic and Hydrothermal Sources in Volcanic Deformation [Edna Dualeh] | 7.5.2 - Integrating Standardized Volcano Monitoring Data into WOVOdat [Christina Widiwijayanti] | 3.9.2 - Emplacement mechanisms of pyroclastic density currents from numerical simulation of dense granular flow with pore gas pressure [Thierry DUBOIS] | |||||||||||||||||||||
17 | 14:45 | 3.17.7 - Volatiles, crustal storage depths, and degassing of alkalic, CO2-rich magmas at Nyiragongo and Nyamulagira Volcanoes, Democratic Republic of the Congo [Paul Wallace] | 2.1.10 - Analysis and modeling of Deep Long Period volcanic earthquakes to illuminate the roots of magmatic-plumbing systems beneath the active volcanoes [Nikolai Shapiro] | 1.5.3 - Seismic constraints on the magmatic system beneath Changbaishan intraplate volcano, China/North Korea [Qi-Fu Chen] | 7.5.3 - Development of Volcanic Hazards Information System in Geological Survey of Japan [Shinji Takarada] | 3.9.3 - The interaction between Pyroclastic Density Currents and waterbodies, first results from PELE large-scale experiment [Geoffrey Robert] | |||||||||||||||||||||
18 | 15:00 | 3.17.8 - Enhanced Monitoring of Volcanic Emissions with the Geostationary UV Satellite Constellation [Simon Carn] | 2.1.11 - Tracking Volcanic State Transitions Through Seismic Velocity Changes - Insights from Askja, Aso, and Gareloi Volcanoes [Laure Brenot] | 1.5.4 - Unraveling Pavlof Volcano's Shallow Plumbing System Insights from Seismoacoustic and Multidisciplinary Analyses [Darren Tan] | 7.5.4 - The Volcanology Infrastructure for Computational Tools and Resources (VICTOR) [Sylvain Charbonnier] | 3.9.4 - Multiphase Modeling of Density Current Interactions with Topography Insights into Depositional Processes [Brandon Keim] | |||||||||||||||||||||
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20 | 15:45 | 3.17.9 - VOLCPLUME, an interactive open access web platform for the multiscale monitoring of volcanic emissions and their impacts on the atmosphere [Marie Boichu] | 2.1.12 - How does a dike open? Insight from seismic source modelling of the earthquakes preceding the 2021 Tajogaite eruption (La Palma, Canary Islands). [Luca D’Auria] | 1.5.5 - The magma storage capacity of Mt. Etna plumbing system tracked from 3 decades of compositional lava evolution and excess SO2 discharge [Patrick ALLARD] | 7.5.5 - FAIR access to geoscientific data from Iceland on the EPOS Data Portal [Ríkey Júlíusdóttir] | 3.9.5 - A multi-faceted approach to estimate total grain size distribution of pyroclastic density current deposits using unoccupied aircraft systems, wet sieving, and high-resolution digital microscopy [Franco Garin] | |||||||||||||||||||||
21 | 16:00 | 3.17.10 - Quantifying daily volcanic SO2 emissions on a global scale with TROPOMI and PlumeTraj [Ben Esse] | 2.1.13 - A New Perspective on Earthquake Triggering of Volcanic Unrest [Stephanie Prejean] | 1.5.6 Magnetotelluric Imaging of the Magma Plumbing System below the Ubinas Volcano (Southern Peru) [Jose Luis Torres Aguilar] | 7.5.6 Meeting the public where they are at by creating accessible resources with familiar tools [Ajay Jones] | 3.9.6 - Collapse and entrainment of perched, metastable, volcaniclastic sequences as a key PDC generation mechanism Volcán de Fuego June 2018 PDCs and analogue experiments [Symeon Makris] | |||||||||||||||||||||
22 | 16:15 | 3.17.11 - Results and reflections from a network of low-cost permanent ultraviolet cameras for sulphur dioxide measurements [Tom Pering] | 2.1.14 - A Novel Framework for Magma Supply Rate and Depth Controls on Volcanic Earthquake Magnitudes [Diana Roman] | 1.5.7 - Volcano-tectonic processes in the on-going Reykjanes peninsula volcanic episode as revealed by joint analysis and modeling of seismic and deformation data [Kristín S. Vogfjörd] | 7.5.7 - Breaking barriers in science Insights from Latin America’s Volcano Observatories dual-language Special Issue [Oryaëlle Chevrel] | 3.9.7 - Fountain-like collapse of an eruption column during a large explosive eruption [Yuki Yasuda] | |||||||||||||||||||||
23 | LUNCH | ||||||||||||||||||||||||||
24 | P4 - Recent unrest at Taal Volcano, Philippines; insights from a complex geological and social environment [Mariton Bornas] | ||||||||||||||||||||||||||
25 | ECR4 - The potential of fibre-optic sensing for volcano monitoring and imaging [Sara Klaasen] | ||||||||||||||||||||||||||
26 | 8.1.7 - Connecting petrology and volcano monitoring Insights from multiphase diffusion chronometry [Eduardo Morgado] | ||||||||||||||||||||||||||
27 | 8.1.8 - Calderas Beneath the Waves AI-Powered Exploration of Subaqueous Volcanism [Andrea Verolino] | ||||||||||||||||||||||||||
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