Using a translation of the code of Eject! (Mastin 2001; 2011) in Matlab (Strehlow et al., 2019), we provide a workflow for probabilistic analyses of ballistic ejections during volcanic eruptions that can be used for hazard assessments. An example for the use of this workflow and a detailed description of the method can be found in Strehlow et al. (2017).

Ackowledgements:

We would like to acknowledge Larry Mastin for providing his original code for Eject! and his assistance with the translation into Matlab.

References:

Mastin, LG (2001) A simple calculator of ballistic trajectories for blocks ejected during volcanic eruptions: U.S. Geological Survey Open-File Report 01-45, 16p; https://pubs.usgs.gov/of/2001/0045/.

Mastin, LG (2011) eject model. https://vhub.org/resources/455.

Strehlow, K, Sandri, L, Gottsmann, JH, Kilgour, G, Rust, AC, Tonini, R (2017) Phreatic eruptions at crater lakes: occurrence statistics and probabilistic hazard forecast. Journal of Applied Volcanology, 6 (4), DOI 10.1186/s13617-016-0053-2.

Strehlow, K, Mastin, LG, Sandri, L, Gottsmann, JH, Kilgour, G, Rust, AC, Tonini, R (2019) Eject! for Matlab. https://vhub.org/resources/4543.

Researchers should cite this work as follows:

• Karen Strehlow; Laura Sandri; Jo Gottsmann; Geoff Kilgour; Alison Rust; Roberto Tonini (2019), "Probabilistic studies with Eject! for Matlab," https://theghub.org/resources/4558.

  BibTex | EndNote

1. ballistics
2. eruption ballistics
3. probabilistic analysis
4. Probabilistic hazard assessment
5. Probabilistic modelling for estimation of volcanic hazard
6. Topic: Geohazards: Ballistic
7. volcanic hazard assessment