Volcano Monitoring Workshops II : IUGG 2011
17 Feb 2020
Organized by Jeffrey Johnson & Eliza CalderWorkshop Title: Ground-Based and Remote Sensing of Volcanic UnrestThe workshop involved seven talks focused on fundamental tools used for monitoring and scientific investigation of active volcanic systems. Lectures emphasized emerging technologies,...
Multi-parameter monitoring overview: Eliza Calder (Lecture 1)
17 Feb 2020 | Presentations
This is the Introduction and first lecture in a series of 7 lectures given as part of the workshop "Ground-based and remote sensing of volcanic unrest" (IUGG 2011)Organized by Jeffrey Johnson & Eliza CalderThe workshop involved seven talks focused on fundamental tools used for monitoring and...
Tephra2: Student Version
17 Feb 2020 | Tools
The Tephra2 ash dispersion model run via a GUI designed for student use.
Natural Hazards Tephra Fallout Lab
17 Feb 2020 | Educational Materials
This lab walks students through using the tephra2 education graphical user interface (gui) to investigate tephra fallout at Colima volcano. By the end of this lab, students should be able to:•understand that every volcanic event is different and so produces a unique deposit•convert from units of...
PASI: Volcanic Hazards and Remote Sensing in Pacific Latin America
17 Feb 2020 | Workshops
http://www.geo.mtu.edu/~raman/PASI2011The Open Vent Volcanoes PASI in Costa Rica gathered 60 scientists from 13 countries to build scientific networking in the transdisciplinary field of volcanology in January 2011. The accelerating application of field measurements and remote sensing to...
Tephra2 Source Code
14 Jul 2010 | Offline Tools
Tephra2 uses the advection diffusion equation to forecast tephra dispersion in a given location based on a user-defined set of eruptive conditions.Tephra2 codes are now maintained on GitHub: https://github.com/geoscience-community-codes/tephra2 Available are:1-processor...
17 Feb 2020 | Tools
Tephra2 uses the advection diffusion equation to forecast tephra dispersion in a given location based on a user-defined set of eruptive conditions.