Publications

Flower, VJB; Kahn, RA (2021). Twenty years of NASA-EOS multi-sensor satellite observations at Kilauea volcano (2000-2019). JOURNAL OF VOLCANOLOGY AND GEOTHERMAL RESEARCH, 415, 107247.

Abstract
Recent eruptions of Kilauea volcano, on the Island of Hawai'i, represent an ideal test location for studying volcanic plumes, due to its remote location and minimal anthropogenic pollution. Within this work we exploit the over 20-year data record from NASA EOS satellites to investigate the degree to which space-borne observations can detect shifts in known eruption dynamics at Kilauea. Through the combined analysis of remotely sensed plume heights, plumeparticle microphysical properties, lava flow thermal tracking and high resolution SO2 mapping, we provide interpretations of the satellite signals in a volcanic context and link them to ground-based eruption reports for validation. We establish common patterns of plume dispersion and particle evolution and identify when significant shifts in activity occur. We also determine where ambient conditions influence the output retrieved from the space-borne sensors. By comparing the inferences derived from remote-sensing with the extensive record of suborbital observations at Kilauea, we assess the strengths and limitations of the satellite-based volcanic assessment techniques. The work presented here highlights the capabilities of these techniques, allowing us to more confidently interpret volcanic activity observed from space globally, particularly in cases where ground observations are limited or entirely lacking. (C) 2021 Published by Elsevier B.V.

DOI:
10.1016/j.jvolgeores.2021.107247

ISSN:
0377-0273