Y. Shen, C. Whittaker, E.M. Lane, J.D.L. White, W.Power, P. Nomikou, 2021. Laboratory Experiments on Tsunamigenic Discrete Subaqueous Volcanic Eruptions. Part 2: Properties of Generated Waves. Journal of Geophysical Research - Oceans, 126(5). https://doi.org/10.1029/2020JC016587.
This article is a companion to Shen et al. ( 2021), https://doi.org/10.1029/2020JC016588.
Abstract
Tsunamis are most often generated by seafloor motion due to earthquakes. However, tsunamis generated by underwater volcanic eruptions are less common and are often underestimated by researchers. In order to study the waves generated by short-lived underwater volcanic eruptions, we injected compressed air from a submerged vent into a tank filled with water in the laboratory. We find that for an eruption of a given source intensity, the maximum wave heights first increase and then decrease as water depths increase from shallow to deep. This is because the ejected jet passes through the free surface and its energy is lost in air in shallow-water depths, while most of the energy is lost underwater during the plume motion in deep-water depths. Therefore, there is an optimal depth where an eruption with a given source intensity can generate the largest waves. These results are significant because they show the most dangerous conditions in tsunamis generated by submarine volcanic eruptions. The riskiest conditions need to be better accounted for in the future tsunami risk assessments.