Bibliografías temáticas / Eruption, 1783-1784

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Literatura académica sobre el tema "Eruption, 1783-1784"

Autor: Grafiati
Publicado: 4 de junio de 2021
Última modificación: 30 de enero de 2023

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Artículos de revistas sobre el tema "Eruption, 1783-1784"

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Highwood, E. J., and D. S. Stevenson. "Atmospheric impact of the 1783–1784 Laki Eruption: Part II Climatic effect of sulphate aerosol." Atmospheric Chemistry and Physics 3, no. 4 (2003): 1177–89. http://dx.doi.org/10.5194/acp-3-1177-2003.

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Abstract. The long 1783-1784 eruption of Laki in southern Iceland, was one of the first eruptions to have been linked to an observed climate anomaly, having been held responsible for cold temperatures over much of the Northern Hemisphere in the period 1783-1785. Results from the first climate model simulation of the impact of a similar eruption to that of 1783-1784 are presented. Using sulphate aerosol fields produced in a companion chemical transport model simulation by Stevenson et al. (2003), the radiative forcing and climate response due to the aerosol are calculated here using the Reading
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Highwood, E. J., and D. S. Stevenson. "Atmospheric impact of the 1783–1784 Laki Eruption: Part II Climatic effect of sulphate aerosol." Atmospheric Chemistry and Physics Discussions 3, no. 2 (2003): 1599–629. http://dx.doi.org/10.5194/acpd-3-1599-2003.

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Abstract. The long 1783–1784 eruption of Laki, in southern Iceland, was one of the first eruptions to have been linked to an observed climate anomaly, having been held responsible for cold temperatures over much of the Northern Hemisphere in the period 1783–1785. Results from the first climate model simulation of the impact of the 1783–1784 fissure eruption are presented. Using sulphate aerosol fields produced in a companion chemical transport model simulation by Stevenson et al. (2003), the radiative forcing and climate response due to the aerosol are calculated here using the Reading Interme
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3

Yiou, P., M. Boichu, R. Vautard, et al. "Ensemble meteorological reconstruction using circulation analogues of 1781–1785." Climate of the Past Discussions 9, no. 5 (2013): 5157–82. http://dx.doi.org/10.5194/cpd-9-5157-2013.

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Abstract. This paper uses a method of atmospheric flow analogues to reconstruct an ensemble of atmospheric variables (namely sea-level pressure, surface temperature and wind speed) between 1781 and 1785. The properties of this ensemble are investigated and tested against observations of temperature. The goal of the paper is to assess whether the atmospheric circulation during the Laki volcanic eruption (in 1783) and the subsequent winter were similar to the conditions that prevailed in the winter 2009/2010 and during spring 2010. We find that the three months following the Laki eruption in Jun
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Fiacco, R. Joseph, Thorvaldur Thordarson, Mark S. Germani, et al. "Atmospheric Aerosol Loading and Transport Due to the 1783-84 Laki Eruption in Iceland, Interpreted from Ash Particles and Acidity in the GISP2 Ice Core." Quaternary Research 42, no. 3 (1994): 231–40. http://dx.doi.org/10.1006/qres.1994.1074.

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AbstractGlass shards from the A.D. 1783 Laki fissure eruption in Iceland have been identified in the GISP2 ice core from Summit, Greenland, at a level just preceding the major acidity/sulfate peak. Detailed reconstruction of ice stratigraphy, coupled with analyses of solid particles from filtered samples, indicate that a small amount of Laki ash was carried via atmospheric transport to Greenland in the summer of 1783, whereas the main aerosol precipitation occurred in the summer and early fall of 1784. Sulfate concentrations in the ice increase slightly during late summer and fall of 1783 and
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Dawson, Alastair G., Martin P. Kirkbride, and Harriet Cole. "Atmospheric effects in Scotland of the AD 1783–84 Laki eruption in Iceland." Holocene 31, no. 5 (2021): 830–43. http://dx.doi.org/10.1177/0959683620988052.

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Daily weather diaries and meteorological records from Scotland reveal complex weather patterns following the 1783–84 fissure eruption of the Laki volcano, Iceland. Four diarists in eastern and northern Scotland describe the near-simultaneous occurrence of discrete groups of days characterised by ‘foggy’, ‘gloomy’ and ‘hazy’ conditions during June and July 1783. The weather records suggest that an ash-rich portion of the initial plume may have arrived synchronously across eastern Scotland on June 15th, 5 days after the first eruption in Iceland, and lingered for between 5 and 7 days. Following
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Niedziela, Rafał. "Wybuch wulkanu Laki i jego skutki dla Francji (1783-1784) w świetle wybranych doniesień prasowych." Studia Historyczne 60, no. 1 (237) (2018): 5–24. http://dx.doi.org/10.12797/sh.60.2017.01.01.

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The Eruption of the Laki Volcano and Its Impact on France (1783-1784) in Selected Press Accounts This article is devoted to the phenomenon of the eruption of Laki volcano in Iceland in 1783 and the impact this eruption had on France in the form of toxic fog and chilling of climate. This account is based on contemporary French press, in particular such titles as „Gazette de France”, „Journal de Paris”, „Le Courrier”, as well as the Polish „Pamiętnik Historyczno-Polityczny”.
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Kleemann, Katrin. "Active Volcanoes, Active Imaginations: Fire-Spitting Mountains and Subterraneous Roars in the German Territories in the Summer of 1783." Global Environment 15, no. 3 (2022): 456–89. http://dx.doi.org/10.3197/ge.2022.150302.

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In the summer of 1783, a sulphuric, dry fog that lasted for several weeks covered much of Europe. As a result, the sun, moon and other celestial objects appeared 'blood-red'. Speculation in Europe was rife as to the cause of this unusual weather. In Iceland, the Laki fissure had erupted; from June 1783 to February 1784, it released the greatest volume of lava of any eruption on planet Earth in the last millennium. The ejected gases travelled to Europe and beyond via the jet stream. Unaware of the Icelandic eruption, some contemporaries from the German Territories hypothesised that the dry fog
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Yiou, P., M. Boichu, R. Vautard, et al. "Ensemble meteorological reconstruction using circulation analogues of 1781–1785." Climate of the Past 10, no. 2 (2014): 797–809. http://dx.doi.org/10.5194/cp-10-797-2014.

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Abstract. This paper uses a method of atmospheric flow analogues to reconstruct an ensemble of atmospheric variables (namely sea-level pressure, surface temperature and wind speed) between 1781 and 1785. The properties of this ensemble are investigated and tested against observations of temperature. The goal of the paper is to assess whether the atmospheric circulation during the Laki volcanic eruption (in 1783) and the subsequent winter were similar to the conditions that prevailed in the winter 2009/2010 and during spring 2010. We find that the 3 months following the Laki eruption in June 17
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Stevenson, D. S., C. E. Johnson, E. J. Highwood, V. Gauci, W. J. Collins, and R. G. Derwent. "Atmospheric impact of the 1783–1784 Laki eruption: Part I Chemistry modelling." Atmospheric Chemistry and Physics Discussions 3, no. 1 (2003): 551–96. http://dx.doi.org/10.5194/acpd-3-551-2003.

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Abstract. Results from the first chemistry-transport model study of the impact of the 1783–1784 Laki fissure eruption (Iceland: 64° N, 17° W) upon atmospheric composition are presented. The eruption released an estimated 122 Tg(SO2) into the troposphere and lower stratosphere. The model has a high resolution tropopause region, and detailed sulphur chemistry. The simulated SO2 plume spreads over much of the Northern Hemisphere, polewards of ~40° N. About 70% of the SO2 gas is directly deposited to the surface before it can be oxidised to sulphuric acid aerosol. The main SO2 oxidants, OH and H2O
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10

Schmidt, A., K. S. Carslaw, G. W. Mann, et al. "The impact of the 1783–1784 AD Laki eruption on global aerosol formation processes and cloud condensation nuclei." Atmospheric Chemistry and Physics Discussions 10, no. 2 (2010): 3189–228. http://dx.doi.org/10.5194/acpd-10-3189-2010.

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Abstract. The 1783–1784 AD Laki flood lava eruption commenced on 8 June 1783 and released 122 Tg of sulphur dioxide gas over the course of 8 months into the upper troposphere and lower stratosphere above Iceland. Previous studies have examined the impact of the Laki eruption on sulphate aerosol and climate using general circulation models. Here, we study the impact on aerosol microphysical processes, including the nucleation of new particles and their growth to cloud condensation nuclei (CCN) using a comprehensive Global Model of Aerosol Processes (GLOMAP). Total particle concentrations in the
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Libros sobre el tema "Eruption, 1783-1784"

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Þórðarson, Þorvald. Skaftáreldar 1783-1785: Gjóskan og framvindu gossins. Háskóli Íslands og Raunvísindadeild, Jarðfræðiskor, 1991.

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Gestsdóttir, Hildur. Fluorine poisoning in victims of the 1783-84 eruption of the Laki fissure, Iceland: Eystri Ásar & Búland : pilot study excavation report. Fornleifastofnun Íslands, 2006.

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3

1953-, Kanipe Jeff, ed. Island on fire: The extraordinary story of Laki, the forgotten volcano that turned eighteenth-century Europe dark. Profile Books, 2014.

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(Translator), Keneva Kunz, ed. Fires of the Earth: The Laki Eruption 1783-1784. Univ of Iceland Pr, 1998.

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Th, Thordarson, and United States. National Aeronautics and Space Administration., eds. Sulfur, chlorine, and fluorine degassing and atmospheric loading by the 1783-1784 AD Laki (Skaftár Fires) eruption in Iceland. National Aeronautics and Space Administration, 1996.

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Th, Thordarson, and United States. National Aeronautics and Space Administration., eds. Sulfur, chlorine, and flourine degassing and atmospheric loading by the 1783-1784 AD Laki (Skaftár Fires) eruption in Iceland. National Aeronautics and Space Administration, 1996.

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author, Kanipe Jeff 1953, ed. Island on fire: The extraordinary story of a forgotten volcano that changed the world. Pegasus Books, 2015.

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Island on Fire: The Extraordinary Story of Laki, the Volcano That Turned Eighteenth-Century Europe Dark. Profile Books Limited, 2017.

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Witze, Alexandra. Island on Fire. Pegasus Books, 2015.

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Island on Fire. Pegasus Books, 2017.

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Capítulos de libros sobre el tema "Eruption, 1783-1784"

1

Demarée, G. R., and A. E. J. Ogilvie. "Bons Baisers d’Islande: Climatic, Environmental, and Human Dimensions Impacts of the Lakagígar Eruption (1783–1784) in Iceland." In History and Climate. Springer US, 2001. http://dx.doi.org/10.1007/978-1-4757-3365-5_11.

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Schmidt, Anja. "Impact of the 1783–1784 AD Laki Eruption on Global Aerosol Formation Processes and Cloud Condensation Nuclei." In Modelling Tropospheric Volcanic Aerosol. Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-34839-6_4.

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Schmidt, Anja. "Impact of the 1783–1784 AD Laki Eruption on Cloud Drop Number Concentrations and the First Aerosol Indirect Effect." In Modelling Tropospheric Volcanic Aerosol. Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-34839-6_5.

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Gilbertson, David, and Michael Durand. "Human Sickness and Mortality Rates in Relation to the Distant Eruption of Volcanic Gases: Rural England and the 1783 Eruption of the Laid Fissure, Iceland." In Geology and Health. Oxford University Press, 2003. http://dx.doi.org/10.1093/oso/9780195162042.003.0008.

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Chapter 3 explores an apparent relationship between human mortality in England and exposure to acid volatiles derived from the Laki fissure eruption of 1783. It has long been known that volcanic tephra and gases may be transported great distances (Thórarinsson 1981). Research into their impacts on human health and the environment has typically focused on populations and environments relatively close to the eruption (e.g. Oskarsson 1980, Rose 1977, Thórarinsson 1979). However, recent investigations of documentary sources such as diaries and newspapers have suggested that in particular meteorological situations, and where air masses are stable, profound health and environmental consequences may have occurred in the British Isles and elsewhere in Europe, at great distances from the volcanic source in Iceland (Brayshay and Grattan 1999, Dodgshon et al. 2000, Durand 2000, Durand and Grattan 1999, Grattan 1998 a and b, Grattan and Brayshay 1995, Grattan and Charman 1994, Grattan and Pyatt 1994, 1999, Grattan et al. 1998, Stothers 1996). This chapter presents and examines documentary evidence for human illness, which may have been induced by volcanogenic air pollution, and mortality in several widely dispersed villages in rural England in the late eighteenth century. Burial records for these settlements point to a singular peak in mortality in the summer of 1783, a period that is coincident with the peak concentration of volcanic gases from the Laki fissure in the European environment. The Laki fissure eruption took place between June 1783 and February 1784. It produced large quantities of acid volatiles — approximately ~120 Mt SO2, 6.8 Mt HC1, and 15.1 Mt HF plus H2S and NH3. Of the total compounds emitted, approximately 60% were emitted during the first few months of activity and the majority of these emissions were confined to the troposphere (Sparks et al. 1997,Thordarson et al. 1996, Thordarson and Self 1993). The eruption therefore generated the largest known air pollution event of the last two millennia (Stothers 1996) and, moreover, one that was entirely natural in origin. A series of stable high-pressure air masses were stationed over northwest Europe throughout the summer of 1783 (Kington 1988).
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