Noble gas isotopes reveal degassing-derived eruptions at Deception Island (Antarctica): implications for the current high levels of volcanic activity

[1]  A. Álvarez-Valero,et al.  Noble gas variation during partial crustal melting and magma ascent processes , 2021, Chemical Geology.

[2]  T. Caltabiano,et al.  Intense overpressurization at basaltic open-conduit volcanoes as inferred by geochemical signals: The case of the Mt. Etna December 2018 eruption. , 2021, Science advances.

[3]  A. Lobo,et al.  Geomorphology of the post-caldera monogenetic volcanoes at Deception Island, Antarctica — Implications for landform recognition and volcanic hazard assessment , 2020 .

[4]  A. Geyer,et al.  δD and δ18O variations of the magmatic system beneath Deception Island volcano (Antarctica): Implications for magma ascent and eruption forecasting , 2020 .

[5]  A. D. Gil,et al.  Volcano-tectonic dynamics of Deception Island (Antarctica): 27 years of GPS observations (1991–2018) , 2019, Journal of Volcanology and Geothermal Research.

[6]  A. Lobo,et al.  Deciphering the evolution of Deception Island’s magmatic system , 2019, Scientific Reports.

[7]  E. Liu,et al.  The timing and widespread effects of the largest Holocene volcanic eruption in Antarctica , 2018, Scientific Reports.

[8]  E. Carmona,et al.  Volcano‐Tectonic Activity at Deception Island Volcano Following a Seismic Swarm in the Bransfield Rift (2014–2015) , 2018, Geophysical Research Letters.

[9]  M. Berrocoso,et al.  Caldera unrest detected with seawater temperature anomalies at Deception Island, Antarctic Peninsula , 2018, Bulletin of Volcanology.

[10]  Division on Earth,et al.  Volcanic Eruptions and Their Repose, Unrest, Precursors, and Timing , 2017 .

[11]  A. Geyer,et al.  Noble gas signals in corals predict submarine volcanic eruptions , 2017 .

[12]  F. Italiano,et al.  Noble gases and rock geochemistry of alkaline intraplate volcanics from the Amik and Ceyhan-Osmaniye areas, SE Turkey. , 2017 .

[13]  A. Geyer,et al.  Historic hydrovolcanism at Deception Island (Antarctica): implications for eruption hazards , 2017, Bulletin of Volcanology.

[14]  A. Paonita,et al.  Dissolved inert gases (He, Ne and N2) as markers of groundwater flow and degassing areas at Mt Etna volcano (Italy) , 2016 .

[15]  J. Galindo‐Zaldívar,et al.  Paleomagnetism from Deception Island (South Shetlands archipelago, Antarctica), new insights into the interpretation of the volcanic evolution using a geomagnetic model , 2016, International Journal of Earth Sciences.

[16]  M. Mottl,et al.  Evidence for primordial water in Earth’s deep mantle , 2015, Science.

[17]  Tobias P. Fischer,et al.  Ten-year helium anomaly prior to the 2014 Mt Ontake eruption , 2015, Scientific Reports.

[18]  H. Wakita,et al.  Geochemical evidence of different sources of long-period seismic events at Deception volcano, South Shetland Islands, Antarctica , 2015, Antarctic Science.

[19]  J. Martí,et al.  The 1970 eruption on Deception Island (Antarctica): eruptive dynamics and implications for volcanic hazards , 2014, Journal of the Geological Society.

[20]  Joan Martí,et al.  Volcanic hazard on Deception Island (South Shetland Islands, Antarctica) , 2014 .

[21]  V. Pinel,et al.  Frequency and magnitude of volcanic eruptions controlled by magma injection and buoyancy , 2014 .

[22]  P. Cartigny,et al.  The hydrogen isotopic composition and water content of southern Pacific MORB: A reassessment of the D/H ratio of the depleted mantle reservoir , 2013 .

[23]  J. Martí,et al.  Origin and evolution of the Deception Island caldera (South Shetland Islands, Antarctica) , 2013, Bulletin of Volcanology.

[24]  J. Barnes,et al.  Chlorine isotope composition of volcanic gases and rocks at Mount Etna (Italy) and inferences on the local mantle source , 2013 .

[25]  J. Galindo‐Zaldívar,et al.  Initial stages of oceanic spreading in the Bransfield Rift from magnetic and gravity data analysis , 2013 .

[26]  A. Kurbatov,et al.  Geochemical signatures of tephras from Quaternary Antarctic Peninsula volcanoes , 2013 .

[27]  P. Burnard The Noble Gases as Geochemical Tracers , 2013 .

[28]  J. Palandri,et al.  Hydrogen and oxygen isotope behaviors during variable degrees of upper mantle melting: Example from the basaltic glasses from Macquarie Island , 2012 .

[29]  A. Paonita,et al.  Geochemical evidence for mixing between fluids exsolved at different depths in the magmatic system of Mt Etna (Italy) , 2012 .

[30]  K. Haase,et al.  Magmatic evolution of the South Shetland Islands, Antarctica, and implications for continental crust formation , 2012, Contributions to Mineralogy and Petrology.

[31]  Jung Hun Seo,et al.  Noble gas and stable isotope geochemistry of thermal fluids from Deception Island, Antarctica , 2009, Antarctic Science.

[32]  D. Nývlt,et al.  Combined Sr, Nd, Pb and Li isotope geochemistry of alkaline lavas from northern James Ross Island (Antarctic Peninsula) and implications for back-arc magma formation , 2009 .

[33]  Paolo Papale,et al.  Forecasting Etna eruptions by real-time observation of volcanic gas composition , 2007 .

[34]  J. Severinghaus,et al.  A redetermination of the isotopic abundances of atmospheric Ar , 2006 .

[35]  Manuel Berrocoso,et al.  The Multidisciplinary Scientific Information Support System (SIMAC) for Deception Island , 2006 .

[36]  Javier Almendros,et al.  The recent seismo-volcanic activity at Deception Island volcano , 2003 .

[37]  F. Italiano,et al.  Mount Etna: Geochemical signals of magma ascent and unusually extensive plumbing system , 2003 .

[38]  S. Fretzdorff,et al.  Electron microprobe characterization of ash layers in sediments from the central Bransfield basin (Antarctic Peninsula): evidence for at least two volcanic sources , 2002, Antarctic Science.

[39]  M. Moreira,et al.  Helium signature of the subcontinental lithospheric mantle , 2002 .

[40]  Y. Miura,et al.  The 3He/4He ratio of the new internal He Standard of Japan (HESJ). , 2002 .

[41]  B. Marty,et al.  Tracing Fluid Origin, Transport and Interaction in the Crust , 2002 .

[42]  J. López-Martínez,et al.  Geology and geomorphology of Deception Island , 2002 .

[43]  P. Burnard Correction for volatile fractionation in ascending magmas: noble gas abundances in primary mantle melts , 2001 .

[44]  K. Nagao,et al.  Highly Sensitive and Precise Measurement of Helium Isotopes Using a Mass Spectrometer with Double Collector System , 2001 .

[45]  P. Scarsi Fractional extraction of helium by crushing of olivine and clinopyroxene phenocrysts: effects on the 3He/4He measured ratio , 2000 .

[46]  S. Moreton,et al.  Identification and correlation of distal tephra layers in deep-sea sediment cores, Scotia Sea, Antarctica , 1998, Annals of Glaciology.

[47]  J. Viramonte,et al.  El volcanismo de Isla Decepción (Península Antártica) , 1997 .

[48]  F. Stuart,et al.  Noble gas isotopes in 25 000 years of hydrothermal fluids from 13°N on the East Pacific Rise , 1995, Geological Society, London, Special Publications.

[49]  D. Hilton,et al.  Helium and argon isotope systematics of the central Lau Basin and Valu Fa Ridge: Evidence of crust/mantle interactions in a back-arc basin , 1993 .

[50]  P. Środa,et al.  Upper crustal structure of Deception Island area, Bransfield Strait, West Antarctica , 1992, Antarctic Science.

[51]  S. Kirchner,et al.  1000 years of explosive volcanism recorded at the South Pole , 1992 .

[52]  M. Grad,et al.  Lithospheric transect Antarctic Peninsula - South Shetland Islands, West Antarctica , 1990 .

[53]  H. Wakita,et al.  Geographical distribution of 3He/4He ratios in Japan: Implications for arc tectonics and incipient magmatism , 1985 .

[54]  L. Wilson Relationships between pressure, volatile content and ejecta velocity in three types of volcanic explosion , 1980 .

[55]  D. Valencio,et al.  Palaeomagnetism and KAr age of Mesozoic and Cenozoic igneous rocks from Antarctica , 1979 .

[56]  T. G. Davies,et al.  The geology of the South Shetland Islands: V. Volcanic evolution of Deception Island , 1975 .

[57]  O. Orheim A 200-Year Record of Glacier Mass Balance at Deception Island, Southwest Atlantic Ocean, and Its Bearing on Models of Global Climatic Change , 1972 .