Effusive and explosive volcanism on the ultraslow‐spreading Gakkel Ridge, 85°E
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Hanumant Singh | T. Shank | C. Kunz | S. Humphris | S. Soule | R. Sohn | M. Jakobsson | C. Pontbriand | K. Nakamura
[1] D. Yoerger,et al. Submarine Lava Flow Emplacement at the East Pacific Rise 9°50´N: Implications for Uppermost Ocean Crust Stratigraphy and Hydrothermal Fluid Circulation , 2013 .
[2] R. Büttner,et al. Phreatomagmatic explosions in subaqueous volcanism , 2013 .
[3] Y. Fouquet,et al. Recent MORB Volcaniclastic Explosive Deposits Formed Between 500 and 1750 m.b.s.l. on the Axis of the Mid‐Atlantic Ridge, South of the Azores , 2013 .
[4] James W. Head,et al. Pyroclastic and Hydroclastic Deposits on Loihi Seamount, Hawaii , 2013 .
[5] W. Chadwick,et al. Magmatism at Mid‐Ocean Ridges: Constraints from Volcanological and Geochemical Investigations , 2013 .
[6] Kenneth H. Rubin,et al. Active submarine eruption of boninite in the northeastern Lau Basin , 2011 .
[7] V. Schlindwein,et al. Performance of localisation algorithms for teleseismic mid-ocean ridge earthquakes: The 1999 Gakkel ridge earthquake swarm and its geological interpretation , 2011 .
[8] S. Soule,et al. Dispersal of volcaniclasts during deep-sea eruptions: Settling velocities and entrainment in buoyant , 2011 .
[9] R. Davis,et al. Ultra-diffuse hydrothermal venting supports Fe-oxidizing bacteria and massive umber deposition at 5000 m off Hawaii , 2011, The ISME Journal.
[10] W. Chadwick,et al. Observations of eruptive plume dynamics and pyroclastic deposits from submarine explosive eruptions at NW Rota-1, Mariana arc , 2011 .
[11] D. Clague,et al. Explosive eruptions at mid-ocean ridges driven by CO 2 -rich magmas , 2011 .
[12] M. Cormier,et al. Structure and development of an axial volcanic ridge: Mid-Atlantic Ridge, 45°N , 2010 .
[13] D. Fornari,et al. Paving the seafloor: Volcanic emplacement processes during the 2005–2006 eruptions at the fast spreading East Pacific Rise, 9°50′N , 2010 .
[14] B. Liljebladh,et al. Analysis and modeling of hydrothermal plume data acquired from the 85°E segment of the Gakkel Ridge , 2010 .
[15] C. Schipper,et al. No depth limit to hydrovolcanic limu o Pele: analysis of limu from Lō`ihi Seamount, Hawai`i , 2010 .
[16] D. Clague,et al. The Geological History of Deep-Sea Volcanoes: Biosphere, Hydrosphere, and Lithosphere Interactions , 2010 .
[17] Robert A. Sohn,et al. Deep pooling of low degree melts and volatile fluxes at the 85°E segment of the Gakkel Ridge: Evidence from olivine-hosted melt inclusions and glasses , 2010 .
[18] C. Riedel,et al. Location and source mechanism of sound signals at Gakkel ridge, Arctic Ocean: Submarine Strombolian activity in the 1999–2001 volcanic episode , 2010 .
[19] D. Fornari,et al. A record of eruption and intrusion at a fast spreading ridge axis: Axial summit trough of the East Pacific Rise at 9–10°N , 2009 .
[20] D. Clague,et al. Widespread strombolian eruptions of mid-ocean ridge basalt , 2009 .
[21] W. Ryan,et al. Global Multi‐Resolution Topography synthesis , 2009 .
[22] L. Elkins. Basalt Petrogenesis Beneath Slow - and Ultraslow-Spreading Arctic Mid-Ocean Ridges , 2009 .
[23] Lucia Mancini,et al. Large vesicles record pathways of degassing at basaltic volcanoes , 2008 .
[24] J. R. Cochran. Seamount volcanism along the Gakkel Ridge, Arctic Ocean , 2008 .
[25] M. Behn,et al. Magmatic and tectonic extension at mid‐ocean ridges: 1. Controls on fault characteristics , 2008 .
[26] C. D. Ronde,et al. Direct video and hydrophone observations of submarine explosive eruptions at NW Rota-1 volcano, Mariana arc , 2008 .
[27] Hanumant Singh,et al. Explosive volcanism on the ultraslow-spreading Gakkel ridge, Arctic Ocean , 2008, Nature.
[28] P. Michael,et al. MORB generation beneath the ultraslow spreading Southwest Indian Ridge (9–25°E): Major element chemistry and the importance of process versus source , 2008 .
[29] M. Edwards,et al. An improved bathymetric portrayal of the Arctic Ocean: Implications for ocean modeling and geological, geophysical and oceanographic analyses , 2008 .
[30] M. Manga,et al. Transition between fragmentation and permeable outgassing of low viscosity magmas , 2007 .
[31] Keikichi G. Nakamura,et al. Microbial Communities at Non-Volcanic and Volcanic Sites of the Gakkel Ridge , 2007 .
[32] Kenneth H. Rubin,et al. New insights into mid-ocean ridge volcanic processes from the 2005–2006 eruption of the East Pacific Rise, 9°46′N–9°56′N , 2007 .
[33] Kenneth H. Rubin,et al. Inferences on mid-ocean ridge thermal and magmatic structure from MORB compositions , 2007 .
[34] S. Geiger,et al. Numerical Simulation of Multiphase Fluid Flow in Hydrothermal Systems , 2007 .
[35] C. Müller,et al. Microseismicity of the ultraslow-spreading Gakkel ridge, Arctic Ocean: A pilot study , 2007 .
[36] W. Jokat,et al. Geophysical characteristics of the ultraslow spreading Gakkel Ridge, Arctic Ocean , 2007 .
[37] D. Fornari,et al. Formation of submarine lava channel textures: Insights from laboratory simulations , 2006 .
[38] Deborah K. Smith,et al. Evolution of volcanism and faulting in a segment of the Mid‐Atlantic Ridge at 25°N , 2005 .
[39] W. Ridley,et al. Channelized lava flows at the East Pacific Rise crest 9°–10°N: The importance of off‐axis lava transport in developing the architecture of young oceanic crust , 2005 .
[40] C. Langmuir,et al. Hydrothermal venting in magma deserts: The ultraslow‐spreading Gakkel and Southwest Indian Ridges , 2004 .
[41] M. Jakobsson,et al. Is the central Arctic Ocean a sediment starved basin , 2004 .
[42] H. Schouten,et al. An ultraslow-spreading class of ocean ridge , 2003, Nature.
[43] C. Langmuir,et al. Magmatic and amagmatic seafloor generation at the ultraslow-spreading Gakkel ridge, Arctic Ocean , 2003, Nature.
[44] W. Jokat,et al. Geophysical evidence for reduced melt production on the Arctic ultraslow Gakkel mid-ocean ridge , 2003, Nature.
[45] Lionel Wilson,et al. Deep submarine pyroclastic eruptions: theory and predicted landforms and deposits , 2003 .
[46] C. Langmuir,et al. Discovery of abundant hydrothermal venting on the ultraslow-spreading Gakkel ridge in the Arctic Ocean , 2003, Nature.
[47] R. Büttner,et al. Thermohydraulic explosions in phreatomagmatic eruptions as evidenced by the comparison between pyroclasts and products from Molten Fuel Coolant Interaction experiments , 2002 .
[48] H. Schmincke,et al. Palagonite – a review , 2002 .
[49] Tracy K. P. Gregg,et al. Volcanic eruptions on mid‐ocean ridges: New evidence from the superfast spreading East Pacific Rise, 17°–19°S , 2002 .
[50] C. Moyer,et al. Neutrophilic Fe-Oxidizing Bacteria Are Abundant at the Loihi Seamount Hydrothermal Vents and Play a Major Role in Fe Oxide Deposition , 2002, Applied and Environmental Microbiology.
[51] Timothy H. Dixon,et al. REVEL: A model for Recent plate velocities from space geodesy , 2002 .
[52] M. Tolstoy,et al. Seismic character of volcanic activity at the ultraslow-spreading Gakkel Ridge , 2001 .
[53] J. White,et al. The formation of deep-sea Limu o Pele , 2001 .
[54] M. Cannat,et al. The Southwest Indian Ridge between 49°15′E and 57°E: focused accretion and magma redistribution , 2001 .
[55] W. Chadwick,et al. High-resolution bathymetric surveys using scanning sonars: Lava flow morphology, hydrothermal vents, and geologic structure at recent eruption sites on the Juan de Fuca Ridge , 2001 .
[56] DelWayne R. Bohnenstiehl,et al. Evidence of recent volcanic activity on the ultraslow-spreading Gakkel ridge , 2001, Nature.
[57] R. Batiza,et al. Sheet hyaloclastite: density-current deposits of quench and bubble-burst fragments from thin, glassy sheet lava flows, Seamount Six, Eastern Pacific Ocean , 2000 .
[58] C. Müller,et al. Seismic evidence for volcanic activity discovered in central Arctic , 2000 .
[59] D. Clague,et al. Lava bubble-wall fragments formed by submarine hydrovolcanic explosions on Lō'ihi Seamount and Kīlauea Volcano , 2000 .
[60] M. Cannat,et al. Formation of the axial relief at the very slow spreading Southwest Indian Ridge (49° to 69°E) , 1999 .
[61] J. R. Cochran,et al. Gravity evidence of very thin crust at the Gakkel Ridge (Arctic Ocean) , 1998 .
[62] H. Kassens,et al. E-MORB glasses from the Gakkel Ridge (Arctic Ocean) at 87°N: evidence for the Earth's most northerly volcanic activity , 1997 .
[63] D. Sauter,et al. Seamount volcanism at the super slow-spreading Southwest Indian Ridge between 57° and 70° , 1997 .
[64] M. Cannat. How thick is the magmatic crust at slow spreading oceanic ridges , 1996 .
[65] E. Baker,et al. Hydrothermal plumes along the East Pacific Rise, 8°40′ to 11°50′N: Plume distribution and relationship to the apparent magmatic budget , 1994 .
[66] Richard G. Gordon,et al. Effect of recent revisions to the geomagnetic reversal time scale on estimates of current plate motions , 1994 .
[67] I. Wright. Nature and tectonic setting of the southern Kermadec submarine arc volcanoes: An overview , 1994 .
[68] R. White,et al. Variation with spreading rate of oceanic crustal thickness and geochemistry , 1994 .
[69] N. Mitchell. A model for attenuation of backscatter due to sediment accumulations and its application to determine sediment thicknesses with GLORIA sidescan sonar , 1993 .
[70] Deborah K. Smith,et al. Building the crust at the Mid-Atlantic Ridge , 1993, Nature.
[71] D. Forsyth. Crustal thickness and the average depth and degree of melting in fractional melting models of passive flow beneath mid‐ocean ridges , 1993 .
[72] D. Sandwell,et al. Comparison of marine gravity from shipboard and high‐density satellite altimetry along the Mid‐Atlantic Ridge, 30.5°–35.5°S , 1993 .
[73] J. Sempere,et al. Segmentation and morphotectonic variations along a slow-spreading center: The Mid-Atlantic Ridge (24°00′ N– 30°40′ N) , 1993 .
[74] R. W. Griffiths,et al. A laboratory analog study of the surface morphology of lava flows extruded from point and line sources , 1992 .
[75] Deborah K. Smith,et al. The role of seamount volcanism in crustal construction at the Mid‐Atlantic Ridge (24°–30°N) , 1992 .
[76] R. Detrick,et al. Mid-ocean ridge magma chambers , 1992 .
[77] Deborah K. Smith,et al. Hundreds of small volcanoes on the median valley floor of the Mid-Atlantic Ridge at 24–30° N , 1990, Nature.
[78] Richard G. Gordon,et al. Current plate motions , 1990 .
[79] J. Sempere,et al. Segmentation of the Mid-Atlantic Ridge between 24° N and 30°40' N , 1990, Nature.
[80] S. Vergniolle,et al. Dynamics of degassing at Kilauea Volcano, Hawaii , 1990 .
[81] Y. Bottinga,et al. MORB degassing : bubble growth and ascent , 1990 .
[82] C. Harrison,et al. Eruption styles of basalt in oceanic spreading ridges and seamounts: Effect of magma temperature and viscosity , 1988 .
[83] D. Fornari,et al. Craters, calderas, and hyaloclastites on young Pacific seamounts , 1984 .
[84] K. Macdonald. Mid-Ocean Ridges: Fine Scale Tectonic, Volcanic and Hydrothermal Processes Within the Plate Boundary Zone , 1982 .
[85] H. Jackson,et al. Oceanic spreading rate and crustal thickness , 1981, Marine Geophysical Researches.
[86] J. Francheteau,et al. Axial depth anomalies from 10 to 50° north along the Mid-Atlantic Ridge: correlation with other mantle properties , 1981 .
[87] T. H. Andel,et al. The Galapagos Rift at 86°W: 2. Volcanism, structure, and evolution of the Rift Valley , 1979 .
[88] Robert D. Ballard,et al. 3. SHEET FLOWS, COLLAPSE PITS, AND LAVA LAKES OF THE RIFT VALLEY , 1979 .
[89] G. Johnson,et al. Detailed aeromagnetic investigation of the Arctic Basin , 1979 .
[90] P. Lonsdale. Structural geomorphology of a fast-spreading rise crest: The East Pacific Rise near 3°25′S , 1977 .
[91] Robert D. Ballard,et al. Morphology and tectonics of the inner rift valley at lat 36°50′N on the Mid-Atlantic Ridge , 1977 .
[92] T. H. Andel,et al. Morphology and tectonic evolution of the rift valley at lat 36°30'N, Mid-Atlantic Ridge , 1977 .
[93] P. Lonsdale. Abyssal pahoehoe with lava coils at the Galapagos rift , 1977 .
[94] Robert D. Ballard,et al. Manned Submersible Observations in the FAMOUS Area: Mid-Atlantic Ridge , 1975, Science.
[95] Harry L. Bryden,et al. New polynomials for thermal expansion, adiabatic temperature gradient and potential temperature of sea water , 1973 .
[96] D. Clague,et al. Explosive subaqueous volcanism , 2003 .
[97] M. Edwards,et al. SCICEX Investigations of the Arctic Ocean System , 2003 .
[98] M. Lilley,et al. Temporal and spatial patterns of biological community development at nascent deep-sea hydrothermal vents (9°50 N, East Pacific Rise) , 1998 .
[99] M. Mangan,et al. Littoral hydrovolcanic explosions: a case study of lava–seawater interaction at Kilauea Volcano , 1997 .
[100] T. Gregg,et al. Quantification of submarine lava-flow morphology through analog experiments , 1995 .
[101] Christopher Small,et al. A global analysis of mid-ocean ridge axial topography , 1994 .
[102] J. Thiede,et al. Late Mesozoic and Cenozoic paleoceanography of the northern polar oceans , 1990 .
[103] N. P. Fofonoff,et al. Algorithms for Computation of Fundamental Properties of Seawater. Endorsed by Unesco/SCOR/ICES/IAPSO Joint Panel on Oceanographic Tables and Standards and SCOR Working Group 51. Unesco Technical Papers in Marine Science, No. 44. , 1983 .