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  • 1
    Book
    Book
    Volcanology of Erebus Volcano, Antarctica (2008)
    Amsterdam [u.a.] : Elsevier
    Details Availability
    Type of Medium: Book
    Pages: VII S., S. 531 - 754 , Ill., graph. Darst
    Series Statement: Journal of volcanology and geothermal research 177.2008,3
    Language: English
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  • 2
    Online Resource
    Online Resource
    Eruptions That Shook the World. (2011)
    Cambridge :Cambridge University Press,
    Details
    Keywords: Volcanism -- Effect of environment on. ; Volcanism -- History. ; Volcanology. ; Electronic books.
    Description / Table of Contents: Did volcanic eruptions extinguish the dinosaurs and shape human civilisation? Clive Oppenheimer explores the greatest volcanic events of the past quarter of a billion years, using rich geological, historical, archaeological and palaeoenvironmental records. His forensic approach to volcanology links cause and effect, providing important lessons for future catastrophe risk management.
    Type of Medium: Online Resource
    Pages: 1 online resource (410 pages)
    Edition: 1st ed.
    ISBN: 9781139113946
    URL: https://ebookcentral.proquest.com/lib/geomar/detail.action?docID=775113
    DDC: 551.21
    Language: English
    Note: Cover -- Title -- Copyright -- Contents -- Preface -- Acknowledgements -- 1 Fire and brimstone: how volcanoes work -- 1.1 Origins of volcanoes: the mantle -- 1.2 Magma -- 1.3 Eruption parameters -- 1.3.1 Explosive and effusive volcanism -- 1.3.2 Magnitude -- 1.3.3 Intensity -- 1.4 Summary -- 2 Eruption styles, hazards and ecosystem impacts -- 2.1 Eruption clouds -- 2.1.1 Hazards -- 2.2 Tephra falls -- 2.2.1 Hazards -- 2.2.2 Ash fertilisation -- 2.3 Pyroclastic currents & -- caldera formation -- 2.3.1 Hazards -- 2.4 Lava flows and domes -- 2.4.1 Hazards -- 2.5 Rock avalanches and mudflows -- 2.5.1 Hazards -- 2.6 Tsunami -- 2.6.1 Hazards -- 2.7 Earthquakes -- 2.7.1 Hazards -- 2.8 Volcanic gas emissions -- 2.8.1 Hazards -- 2.9 Recovery of ecosystems -- 2.10 Volcanic disasters -- 2.11 Summary -- 3 Volcanoes and global climate change -- 3.1 Pinatubo's global cloud -- 3.1.1 Optical illusions -- 3.2 Atmospheric and climatic change -- 3.2.1 Effects on light and heat radiation -- 3.2.2 Summer cooling, winter warming -- 3.2.3 Oceanic response -- 3.2.4 Biological feedbacks -- 3.2.5 Stratospheric ozone depletion -- 3.3 Recipe for a climate-forcing eruption -- 3.3.1 Sulphur content and eruption magnitude -- 3.3.2 Eruption intensity and style -- 3.3.3 Eruption location -- 3.3.4 Eruption timing -- 3.4 Summary -- 4 Forensic volcanology -- 4.1 Reading the rocks -- 4.1.1 Characteristics of tephra deposits -- 4.1.2 Estimating eruption parameters -- Eruption magnitude -- Eruption intensity -- 4.1.3 Dating eruptions -- Potassium and argon -- Radiocarbon -- Fission tracks -- 4.1.4 Tephrochronology -- 4.1.5 Volatile yields -- 4.2 Ice cores -- 4.2.1 Geochemical fingerprinting -- 4.2.2 Volatile yields -- 4.3 Tree rings -- 4.4 Summary -- 5 Relics, myths and chronicles -- 5.1 Archaeological perspectives -- 5.1.1 El Salvador's 'Pompeii'. , 5.1.2 Arenal volcano, Costa Rica -- 5.1.3 Papua New Guinea -- 5.2 Oral traditions -- 5.2.1 Mt Pinatubo 1991: an eruption foretold -- 5.2.2 Kīlauea -- 5.2.3 Mt Mazama -- 5.3 Crepuscular lights, cannonades and chronicles -- 5.3.1 Visual arts -- 5.4 Volcano forensics: a case study -- 5.4.1 The 1861 eruption of Dubbi volcano -- 5.5 Summary -- 6 Killer plumes -- 6.1 Mass extinctions -- 6.2 More about LIPs -- 6.3 LIP origins -- 6.4 LIPs, bolides and extinctions: the coincidences -- 6.4.1 The end of the dinosaurs -- 6.4.2 Is the Earth's mantle a serial killer? -- 6.5 Kill mechanisms -- 6.6 Hot LIPS and cold SLIPS -- 6.6.1 LIPs, 'volcanic winters' and 'snowball Earth' -- 6.7 Summary -- 7 Human origins -- 7.1 The East African Rift Valley -- 7.2 The first humans -- 7.3 The Middle Stone Age and modern humans -- 7.3.1 Human migrations: push and pull -- 7.3.2 Out of Africa (again) -- 7.4 Summary -- 8 The ash giant/sulphur dwarf -- 8.1 The eruption -- 8.1.1 When did it happen? -- 8.1.2 What was it like? -- 8.2 Sulphur yield of the eruption -- 8.3 Climate change -- 8.3.1 Climate models -- 8.3.2 Palaeoenvironmental evidence -- 8.4 The human story -- 8.4.1 Counter-arguments -- 8.5 Focus on India -- 8.6 Summary -- 9 European volcanism in prehistory -- 9.1 The Campanian eruption and the human revolution in Palaeolithic Europe -- 9.1.1 Climate impact -- 9.1.2 Human impact -- 9.2 'Cultural devolution' and the Laacher See eruption -- 9.2.1 Climate impact -- 9.2.2 Human impact -- Tasmania -- 9.3 Eruption of Santorini and decline of the Minoan civilisation -- 9.3.1 The Minoan world -- 9.3.2 The eruption -- 9.3.3 Dating the eruption -- 9.3.4 Tsunami and human impact -- 9.4 Summary -- 10 The rise of Teotihuacán -- 10.1 Popocatepetl -- 10.2 The Ilopango eruption -- 10.3 Summary -- 11 Dark Ages: dark nature? -- 11.1 The Mystery Cloud of 536 CE. , 11.1.1 The aerosol veil in contemporary literature -- 11.1.2 Plague -- 11.1.3 Consequences for the Empire -- 11.2 Veils and whips -- 11.2.1 Ice cores -- 11.2.2 Identifying the mystery eruption -- 11.2.3 Machine-gun volcanism and the Little Ice Age -- 11.2.4 Religious fervour and regime change -- 11.3 Summary -- 12 The haze famine -- 12.1 The eruption -- 12.2 Gas emissions and aerosol veil -- 12.2.1 Spread of the volcanic cloud -- 12.3 Weather and climate -- 12.4 The haze famine -- 12.5 Long reach of the eruption -- 12.5.1 Mortality crisis in England -- 12.5.2 Africa and Asia -- 12.5.3 The French Revolution -- 12.6 Summary -- 13 The last great subsistence crisis in the Western world -- 13.1 Sumbawa before the disaster -- 13.2 The eruption -- 13.2.1 Initial blasts -- 13.2.2 Cataclysmic eruption -- 13.2.3 Darkness at noon -- 13.2.4 Tsunami -- 13.2.5 Pumice rafts -- 13.3 Atmospheric and climate impacts -- 13.4 Human tragedy -- 13.5 Global reach of the eruption -- 13.5.1 Disease, demography, economics and politics -- 13.6 Summary -- 14 Volcanic catastrophe risk -- 14.1 Three catastrophe scenarios -- 14.1.1 Explosive eruption near a major city -- 14.1.2 Volcanogenic pollution crisis -- 14.1.3 'Super-eruption' scenario -- 14.2 Risk control -- 14.2.1 Vulnerability versus resilience -- 14.2.2 Risk analysis and the problem of extremes -- 14.2.3 Preparation and response -- Preparing for emergency evacuation -- International frameworks -- 14.3 Global warming: fake volcanoes and real eruptions -- 14.3.1 Stratospheric geo-engineering -- 14.3.2 Could climate change trigger eruptions? -- 14.4 Shaken but not stirred -- Appendix A: Large eruptions -- Appendix B: Further reading and data sources -- Chapter 1 -- Chapter 2 -- Chapter 3 -- Chapter 4 -- Data sources -- Chapter 5 -- Chapter 6 -- Chapter 7 -- Chapter 8 -- Chapter 9 -- Chapter 10 -- Chapter 11 -- Chapter 12. , Chapter 13 -- Chapter 14 -- References -- Index.
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  • 3
    Book
    Book
    Volcanic degassing (2003)
    London : Geological Society
    Details Availability
    Keywords: Volcanic gases Congresses ; Vulkan ; Gasausbruch ; Volcanic gases ; Congresses ; Konferenzschrift 2001 ; Konferenzschrift ; Vulkanismus ; Eruption ; Gas ; Entgasung ; Vulkan ; Gas ; Geochemie ; Ausgasung ; Vulkanismus ; Eruption ; Gas ; Entgasung ; Vulkan ; Gas ; Geochemie ; Ausgasung ; Vulkan ; Gasausbruch
    Type of Medium: Book
    Pages: VI, 420 S. , Ill., graph. Darst.
    ISBN: 186239136X
    Series Statement: Special publication / Geological Society 213
    URL: https://www.gbv.de/dms/tib-ub-hannover/36813962x.pdf
    DDC: 551.23
    RVK:
    RB 10121
    Language: English
    Note: Includes bibliographical references and index. - Developed from a meeting of Geological Society of London, "Origins, emissions and impacts of volcanic gases" held October 2001 , Developed from a two-day "flagship meeting" of the Geological Society of London, Origins, emissions and impacts of volcanic gases, convened at Burlington House (London) in October 2001
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  • 4
    Book
    Book
    Eruptions that shook the world (2011)
    Cambridge [u.a.] : Cambridge Univ. Press
    Details Availability
    Keywords: Volcanism Effect of environment on ; Volcanism History ; Volcanology ; Eruption ; Vulkanismus ; Geoarchäologie ; Auswirkung ; Geschichtsschreibung ; Geschichte Anfänge- ; Eruption ; Vulkanismus ; Geoarchäologie ; Auswirkung ; Geschichtsschreibung
    Description / Table of Contents: "What does it take for a volcanic eruption to really shake the world? Did volcanic eruptions extinguish the dinosaurs, or help humans to evolve, only to decimate their populations with a super-eruption 73,000 years ago? Did they contribute to the ebb and flow of ancient empires, the French Revolution and the rise of fascism in Europe in the 19th century? These are some of the claims made for volcanic cataclysm. Volcanologist Clive Oppenheimer explores rich geological, historical, archaeological and palaeoenvironmental records (such as ice cores and tree rings) to tell the stories behind some of the greatest volcanic events of the past quarter of a billion years. He shows how a forensic approach to volcanology reveals the richness and complexity behind cause and effect, and argues that important lessons for future catastrophe risk management can be drawn from understanding events that took place even at the dawn of human origins"--
    Type of Medium: Book
    Pages: XV, 392 S. , Ill., graph. Darst., Kt. , 23 cm
    Edition: 1. publ.
    ISBN: 9780521641128 , 0521641128
    URL: https://swbplus.bsz-bw.de/bsz338123628inh.htm
    URL: http://assets.cambridge.org/97805216/41128/cover/9780521641128.jpg
    DDC: 551.21
    RVK:
    TG 4320
    RVK:
    RB 10121
    Language: English
    Note: Literaturverz. S. 369 - 384
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  • 5
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    Towards a dendrochronologically refined date of the Laacher See eruption around 13,000 years ago (2020)
    Elsevier
    Details
    Publication Date: 2023-02-08
    Description: Highlights • Previous age estimates of the Laacher See Eruptions (LSE) around 12,900 years are still diverging and imprecise. • The combination of dendrochronology, wood anatomy, and 14C measurements holds the potential to establish a precise LSE date. • An absolute calendric date of the LSE would improve the synchronization of European Late Glacial to Holocene archives. Abstract The precise date of the Laacher See eruption (LSE), central Europe’s largest Late Pleistocene volcanic event that occurred around 13,000 years ago, is still unknown. Here, we outline the potential of combined high-resolution dendrochronological, wood anatomical and radiocarbon (14C) measurements, to refine the age of this major Plinian eruption. Based on excavated, subfossil trees that were killed during the explosive LSE and buried under its pyroclastic deposits, we describe how a firm date of the eruption might be achieved, and how the resulting temporal precision would further advance our understanding of the environmental and societal impacts of this event. Moreover, we discuss the relevance of an accurate LSE date for improving the synchronization of European terrestrial and lacustrine Late Glacial to Holocene archives.
    Type: Article , PeerReviewed
    Format: text
    Format: text
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  • 6
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    Radiocarbon and geologic evidence reveal Ilopango volcano as source of the colossal ‘mystery’ eruption of 539/40 CE (2019)
    Elsevier
    In:  Quaternary Science Reviews, 222 (Article number 105855).
    Details
    Publication Date: 2022-01-31
    Description: Highlights • Major eruption of Ilopango volcano, El Salvador occurred in the first half of the 6th century. • Ilopango eruption is consistent with ‘mystery’ eruption of 540 CE that caused global cooling. • Magnitude 7 event ranks as one of the 10 largest on Earth in past 7000 years. • Impacts on the Maya of Central America were severe, including estimated 100,000 + fatalities. Abstract Ilopango volcano (El Salvador) erupted violently during the Maya Classic Period (250–900 CE) in a densely-populated and intensively-cultivated region of the southern Maya realm, causing regional abandonment of an area covering more than 20,000 km2. However, neither the regional nor global impacts of the Tierra Blanca Joven (TBJ) eruption in Mesoamerica have been well appraised due to limitations in available volcanological, chronological, and archaeological observations. Here we present new evidence of the age, magnitude and sulfur release of the TBJ eruption, establishing it as one of the two hitherto unidentified volcanic triggers of a period of stratospheric aerosol loading that profoundly impacted Northern Hemisphere climate and society between circa 536 and 550 CE. Our chronology is derived from 100 new radiocarbon measurements performed on three subfossil tree trunks enveloped in proximal TBJ pyroclastic deposits. We also reassess the eruption magnitude using terrestrial (El Salvador, Guatemala, Honduras) and near-shore marine TBJ tephra deposit thickness measurements. Together, our new constraints on the age, eruption size (43.6 km3 Dense Rock Equivalent of magma, magnitude = 7.0) and sulfur yield (∼9–90 Tg), along with Ilopango's latitude (13.7° N), squarely frame the TBJ as the major climate-forcing eruption of 539 or 540 CE identified in bipolar ice cores and sourced to the tropics. In addition to deepening appreciation of the TBJ eruption's impacts in Mesoamerica, linking it to the major Northern Hemisphere climatic downturn of the mid-6th century CE offers another piece in the puzzle of understanding Eurasian history of the period.
    Type: Article , PeerReviewed
    Format: other
    Format: text
    Format: image
    Format: text
    Format: text
    DOI: 10.1016/j.quascirev.2019.07.037
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  • 7
    Electronic Resource
    Electronic Resource
    Remote measurements of volcanic gas compositions by solar occultation spectroscopy (1998)
    [s.l.] : Macmillan Magazines Ltd.
    Nature 396 (1998), S. 567-570 
    Details
    ISSN: 1476-4687
    Source: Nature Archives 1869 - 2009
    Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics
    Notes: [Auszug] Volcanic gases have important effects on the atmosphere and climate, and are important indicators of subsurface magmatic processes,, but they are difficult to measure. In situ sampling on volcanoes can provide detailed information but is often impractical or hazardous. It is safer to apply ...
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1038/25115
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    Paper (German National Licenses)
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  • 8
    Electronic Resource
    Electronic Resource
    Endogenous growth of persistently active volcanoes (1993)
    [s.l.] : Nature Publishing Group
    Nature 366 (1993), S. 554-557 
    Details
    ISSN: 1476-4687
    Source: Nature Archives 1869 - 2009
    Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics
    Notes: [Auszug] When Europeans first visited Kilauea volcano in 1823, they found the Halemaumau crater filled by an active lava lake. In 1880, the lake had an estimated area of 6.51 x 103 m2 (ref. 5). It persisted with various fluctuations until 1924 (ref. 3). Significant flank eruptions of lava took place only in ...
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1038/366554a0
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  • 9
    Electronic Resource
    Electronic Resource
    Liquid sulphur lakes at Poás volcano (1989)
    [s.l.] : Nature Publishing Group
    Nature 342 (1989), S. 790-793 
    Details
    ISSN: 1476-4687
    Source: Nature Archives 1869 - 2009
    Topics: Biology , Chemistry and Pharmacology , Medicine , Natural Sciences in General , Physics
    Notes: [Auszug] Poas is a composite volcano of the Cordillera Central in Costa Rica, rising 1,300m above its base at 1,400m. Historically it has been in a state of nearly continuous mild activity. Since an episode of explosive/effusive eruptions in 1953-5 it has been characterized by intense fumarole emissions and ...
    Type of Medium: Electronic Resource
    URL: http://dx.doi.org/10.1038/342790a0
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  • 10
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    Unknown
    Characterisation of the magmatic signature in gas emissions from Turrialba Volcano, Costa Rica (2020)
    EGU - Copernicus
    Details
    Publication Date: 2020-11-25
    Description: The equilibrium composition of volcanic gaseswith their magma is often overprinted by interaction with ashallow hydrothermal system. Identifying the magmatic sig-nature of volcanic gases is critical to relate their composi-tion to properties of the magma (temperature,fO2, gas-meltsegregation depth). We report measurements of the chemi-cal composition and flux of the major gas species emittedfrom Turrialba Volcano during March 2013. Measurementswere made of two vents in the summit region, one of whichopened in 2010 and the other in 2012. We determined an av-erage SO2flux of 5.2±1.9 kg s−1using scanning ultravio-let spectroscopy, and molar proportions of H2O, CO2, SO2,HCl, CO and H2gases of 94.16, 4.03, 1.56, 0.23, 0.003 and0.009 % respectively by open-path Fourier transform infrared(FTIR) spectrometry and a multi-species gas-sensing system.Together, these data imply fluxes of 88, 8, 0.44, 5×10−3and1×10−3kg s−1for H2O, CO2, HCl, CO and H2respectively.Although H2S was detected, its concentration could not beresolved. HF was not detected. The chemical signature of thegas from both vents was found to be broadly similar. Follow-ing the opening of the 2010 and 2012 vents we found limitedto negligible interaction of the magmatic gas with the hy-drothermal system has occurred and the gas composition ofthe volcanic plume is broadly representative of equilibriumwith the magma. The time evolution of the gas composition,the continuous emission of large quantities of SO2, and thephysical evolution of the summit area with new vent open-ings and more frequent eruptions all point towards a continu-ous drying of the hydrothermal system at Turrialba’s summitat an apparently increasing rate.
    Description: This research was supported by the RoyalGeographical Society (with IBG) with a Geographical FieldworkGrant. Y. Moussallam and N. Peters were additionally supportedby the Philip Lake funds from the Department of Geography,University of Cambridge. Y. Moussallam acknowledges a researchgrant from Mazamas and support through ERC project #279790.We thank the NERC Field Spectroscopy Facility for the loanof their infrared spectrometer. A. Aiuppa acknowledges supportthrough ERC grant no. 305377 (BRIDGE)
    Description: Published
    Description: 1341–1350
    Description: 4V. Processi pre-eruttivi
    Description: JCR Journal
    Keywords: volcanic degassing ; Multi-GAS ; UV spectroscopy ; FTIR ; 04.08. Volcanology
    Repository Name: Istituto Nazionale di Geofisica e Vulcanologia (INGV)
    Type: article
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