TY - JOUR
T1 - Explosive lava-water interactions I
T2 - Architecture and emplacement chronology of volcanic rootless cone groups in the 1783-1784 Laki lava flow, Iceland
AU - Hamilton, Christopher W.
AU - Thordarson, Thorvaldur
AU - Fagents, Sarah A.
N1 - Funding Information:
Acknowledgements We thank Karen Pascal for her assistance in the field; Benjamin Brooks and the Pacific GPS facility for providing DGPS survey equipment and post-processing resources; Bruce Houghton and Scott Rowland for their help during the preparation of this manuscript; Bernd Zimanowski and an anonymous reviewer for their encouraging comments and suggestions; and financial support from the National Aeronautics and Space Administration (NASA) Mars Fundamental Research Program (MFRP) grant NNG05GM08G, NASA Mars Data Analysis Program (MDAP) grant NNG05GQ39G, Geological Society of America (GSA), and Icelandic Centre for Research (RANNÍS). SOEST publication number 7807. HIGP publication number 1801.
PY - 2010/5
Y1 - 2010/5
N2 - To determine the relationships between rootless cone emplacement mechanisms, morphology, and spatial distribution, we mapped the Hnúta and Hrossatungur groups of the 1783-1784 Laki lava flow in Iceland. We based our facies maps on Differential Global Positioning System (DGPS) measurements, photogeological interpretations, and supporting field observations. The study area covers 2.77 km2 and includes 2216 explosion sites. To establish the timing of rootless cone formation we incorporated tephrochronological constraints from eighty-eight stratigraphic sections and determined that the Hnúta and Hrossatungur groups are composite structures formed by the emplacement of six geographically and chronologically discrete domains. Rootless eruptions initiated in domain 1 on the first day of the Laki eruption (June 8, 1783) and lasted 1-2 days. The second episode of rootless activity began in domain 2 on June 11 and lasted 1-3 days. The four domains of the Hrossatungur group dominantly formed after June 14 and exhibit a complex emplacement sequence that reflects interactions between the Laki lava, contemporaneously emplaced rootless cones, and an existing topographic ridge. In the study area, we identify three distinct rootless cone archetypes (i. e., recurring morphological forms) that are related to tube-, channel-, and broad sheet lobe-fed eruptions. We assert that emplacement of lava above compressible substrates (e. g., unconsolidated sediments) may trigger rootless eruptions by causing subsidence-induced flexure and failure of the basal crust, thereby allowing molten lava (fuel) to come into direct contact with groundwater (coolant) and initiating analogs to explosive molten fuel-coolant interactions (MFCIs).
AB - To determine the relationships between rootless cone emplacement mechanisms, morphology, and spatial distribution, we mapped the Hnúta and Hrossatungur groups of the 1783-1784 Laki lava flow in Iceland. We based our facies maps on Differential Global Positioning System (DGPS) measurements, photogeological interpretations, and supporting field observations. The study area covers 2.77 km2 and includes 2216 explosion sites. To establish the timing of rootless cone formation we incorporated tephrochronological constraints from eighty-eight stratigraphic sections and determined that the Hnúta and Hrossatungur groups are composite structures formed by the emplacement of six geographically and chronologically discrete domains. Rootless eruptions initiated in domain 1 on the first day of the Laki eruption (June 8, 1783) and lasted 1-2 days. The second episode of rootless activity began in domain 2 on June 11 and lasted 1-3 days. The four domains of the Hrossatungur group dominantly formed after June 14 and exhibit a complex emplacement sequence that reflects interactions between the Laki lava, contemporaneously emplaced rootless cones, and an existing topographic ridge. In the study area, we identify three distinct rootless cone archetypes (i. e., recurring morphological forms) that are related to tube-, channel-, and broad sheet lobe-fed eruptions. We assert that emplacement of lava above compressible substrates (e. g., unconsolidated sediments) may trigger rootless eruptions by causing subsidence-induced flexure and failure of the basal crust, thereby allowing molten lava (fuel) to come into direct contact with groundwater (coolant) and initiating analogs to explosive molten fuel-coolant interactions (MFCIs).
KW - Explosive lava-water interactions
KW - Iceland
KW - Laki
KW - Mars
KW - Phreatomagmatic
KW - Pseudocraters
KW - Volcanic rootless cones
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U2 - 10.1007/s00445-009-0330-6
DO - 10.1007/s00445-009-0330-6
M3 - Article
AN - SCOPUS:77952670886
SN - 0258-8900
VL - 72
SP - 449
EP - 467
JO - Bulletin of Volcanology
JF - Bulletin of Volcanology
IS - 4
ER -