Extrusion dynamics of deepwater volcanoes revealed by 3-D seismic data
SOLID EARTH(2019)
摘要
Submarine volcanism accounts for ca. 75% of the Earth's volcanic activity. Yet difficulties with imaging their exteriors and interiors mean that the extrusion dynamics and erupted volumes of deepwater volcanoes remain poorly understood. Here, we use high-resolution 3-D seismic reflection data to examine the external and internal geometry and extrusion dynamics of two late Miocene-Quaternary deepwater (>2 km emplacement depth) volcanoes buried beneath 55-330m of sedimentary strata in the South China Sea. The volcanoes have crater-like bases, which truncate underlying strata and suggest extrusion was initially explosive, and erupted lava flows that feed lobate lava fans. The lava flows are >9 km long and contain lava tubes that have rugged basal contacts defined by similar to 90 +/- 23 m high erosional ramps. We suggest the lava flows eroded down into and were emplaced within wet, unconsolidated, near-seafloor sediments. Extrusion dynamics were likely controlled by low magma viscosities as a result of increased dissolved H2O due to high hydrostatic pressure and soft, near-seabed sediments, which are collectively characteristic of deepwater environments. We calculate that long-runout lava flows account for 50 %-97% of the total erupted volume, with a surprisingly minor component (similar to 3 %-50 %) being preserved in the main volcanic edifice. Accurate estimates of erupted volumes therefore require knowledge of volcano and lava basal surface morphology. We conclude that 3-D seismic reflection data are a pow-erful tool for constraining the geometry, volumes, and extrusion dynamics of ancient or active deepwater volcanoes and lava flows.
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关键词
Volcanism,Seafloor Spreading,Subseafloor Sediments
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