Volcanologists - Who are we and where are we going?

Kavanagh, Janine; Annen, Catherine; Burchardt, Steffi; Chalk, Caitlin; Gallant, Elisabeth; Morin, Julie; Scarlett, Jazmin; Williams, Rebecca

doi:10.31223/x5bk71

2022

DOI: 10.31223/x5bk71

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Volcanologists - Who are we and where are we going?

Janine Kavanagh¹,

Catherine Annen²,

Steffi Burchardt³

et al.

Abstract: Equality, diversity and inclusivity (EDI) are principles all scientific groups and organisations should strive to achieve as they secure working conditions, policies and practices that not only promote high-quality scientific output but also well-being in their communities. In this article, we reflect on the progress of EDI in volcanology by presenting data related to memberships of international volcanology organisations, positions on volcanology committees, volcanology awards and lead-authorship on volcanol… Show more

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Cited by 2 publications

References 15 publications

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Volcano infrasound: progress and future directions

Watson¹,

Iezzi

Toney

et al. 2022

Bull Volcanol

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Over the past two decades (2000–2020), volcano infrasound (acoustic waves with frequencies less than 20 Hz propagating in the atmosphere) has evolved from an area of academic research to a useful monitoring tool. As a result, infrasound is routinely used by volcano observatories around the world to detect, locate, and characterize volcanic activity. It is particularly useful in confirming subaerial activity and monitoring remote eruptions, and it has shown promise in forecasting paroxysmal activity at open-vent systems. Fundamental research on volcano infrasound is providing substantial new insights on eruption dynamics and volcanic processes and will continue to do so over the next decade. The increased availability of infrasound sensors will expand observations of varied eruption styles, and the associated increase in data volume will make machine learning workflows more feasible. More sophisticated modeling will be applied to examine infrasound source and propagation effects from local to global distances, leading to improved infrasound-derived estimates of eruption properties. Future work will use infrasound to detect, locate, and characterize moving flows, such as pyroclastic density currents, lahars, rockfalls, lava flows, and avalanches. Infrasound observations will be further integrated with other data streams, such as seismic, ground- and satellite-based thermal and visual imagery, geodetic, lightning, and gas data. The volcano infrasound community should continue efforts to make data and codes accessible and to improve diversity, equity, and inclusion in the field. In summary, the next decade of volcano infrasound research will continue to advance our understanding of complex volcano processes through increased data availability, sensor technologies, enhanced modeling capabilities, and novel data analysis methods that will improve hazard detection and mitigation.

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Volcano infrasound: progress and future directions

Watson¹,

Iezzi

Toney

et al. 2022

Bull Volcanol

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Developments in the study of volcanic and igneous plumbing systems: outstanding problems and new opportunities

et al. 2022

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Prior to and during eruptions, magma is stored and transported within volcanic and igneous plumbing systems (VIPS) that comprise a network of magma reservoirs and sheet intrusions. The study of these VIPS requires the combination of knowledge from the fields of igneous petrology, geochemistry, thermodynamic modelling, structural geology, volcano geodesy, and geophysics, which express the physical, chemical, and thermal complexity of the processes involved, and how these processes change spatially and temporally. In this contribution, we review the development of the discipline of plumbing system studies in the past two decades considering three angles: (1) the conceptual models of VIPS and paradigm changes, (2) methodological advances, and (3) the diversity of the scientific community involved in VIPS research. We also discuss future opportunities and challenges related to these three topics.

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Volcanologists - Who are we and where are we going?

Cited by 2 publications

References 15 publications

Volcano infrasound: progress and future directions

Volcano infrasound: progress and future directions

Developments in the study of volcanic and igneous plumbing systems: outstanding problems and new opportunities

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