“Points Requiring Elucidation” About Hawaiian Volcanism

• Published in: Hawaiian Volcanoes Vol. 208; pp. 533 - 562
• Main Author: Poland, Michael P
• Format: Book Chapter
• Language: English
• Published: United States American Geophysical Union 01.01.2015; Wiley; John Wiley & Sons, Inc
• Subjects: eruption; geochemical data; geological data; geophysical data; Hawaiian Volcanism; magma plumbing systems; source composition; volcanic hazards
• ISBN: 9781118872048; 1118872045
• DOI: 10.1002/9781118872079.ch24

Hawaiian volcanoes, which are easily accessed and observed at close range, are among the most studied on the planet and have spurred great advances in the geosciences, from understanding deep Earth processes to forecasting volcanic eruptions. More than a century of continuous observation and study of Hawai‘i's volcanoes has also sharpened focus on those questions that remain unanswered. Although there is good evidence that volcanism in Hawai‘i is the result of a high‐temperature upwelling plume from the mantle, the source composition and dynamics of the plume are controversial. Eruptions at the surface build the volcanoes of Hawai‘i, but important topics, including how the volcanoes grow and collapse and how magma is stored and transported, continue to be subjects of intense research. Forecasting volcanic activity is based mostly on pattern recognition, but determining and predicting the nature of eruptions, especially in serving the critical needs of hazards mitigation, require more realistic models and a greater understanding of what drives eruptive activity. These needs may be addressed by better integration among disciplines as well as by developing dynamic physics‐ and chemistry‐based models that more thoroughly relate the physiochemical behavior of Hawaiian volcanism, from the deep Earth to the surface, to geological, geochemical, and geophysical data.