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Santorini volcanic field

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Journal Article
Journal: Elements
Published: 01 June 2019
Elements (2019) 15 (3): 171-176.
...Paraskevi Nomikou; Christian Hübscher; Steven Carey The Christiana–Santorini–Kolumbo volcanic field in the South Aegean Sea (Greece) is one of the most important in Europe, having produced more than 100 explosive eruptions in the last 400,000 years. Its volcanic centers include the extinct...
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Series: Geological Society, London, Special Publications
Published: 01 January 2007
DOI: 10.1144/SP291.5
EISBN: 9781862395398
... Abstract Seismic reflection profiles from the marine areas around Santorini in the south Aegean arc show the distribution of active faults and the occurrence of submarine volcanic rocks interfingering with stratified basinal sediment. Santorini is located at the intersection of fault sets...
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Journal Article
Journal: Geosphere
Published: 01 August 2006
Geosphere (2006) 2 (5): 253-268.
... (DEM) for the intracaldera Kameni Islands, Santorini, Greece, which reveals the potential of high-resolution imaging (at ∼1 m per pixel) of lava-flow fields by airborne light detection and ranging laser radar (LiDAR). The new DEM has an order-of-magnitude better resolution than earlier models...
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Journal Article
Journal: Geology
Published: 01 January 2016
Geology (2016) 44 (1): 23-26.
.... ., 2006 , Marine investigations of Greece’s Santorini Volcanic Field : Eos (Transactions, American Geophysical Union) , v. 87 , p. 337 – 342 , doi:10.1029/2006EO340001. Taisne B. Tait S. Jaupart C. , 2011 , Conditions for the arrest of a vertical propagating dyke : Bulletin...
FIGURES
Journal Article
Journal: Elements
Published: 01 June 2019
Elements (2019) 15 (3): 177-184.
... renowned laboratory for arc volcanism. It is also a volcano of great historical interest. The classic study of Santorini by Ferdinand Fouqué ( Fouqué 1879 ) was one of the first to show that calderas form largely by vertical collapse, not explosive evacuation. More recently, field mapping and radiometric...
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Journal Article
Published: 09 June 2014
Journal of the Geological Society (2014) 171 (4): 583-590.
... and the Aegean World III: Volume 2 Earth Sciences . Thera Foundation , London , 100 – 112 . Sigurdsson H. Carey S. 2006 . Marine investigations of Greece’s Santorini volcanic field . EOS Transactions, American Geophysical Union , 87 , 337 – 348 . Sparks R.S.J. Huang T...
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Journal Article
Published: 01 May 2000
Geological Magazine (2000) 137 (3): 335-336.
...Clive Oppenheimer © 2000 Cambridge University Press 2000 Few volcanic events have elicited as much interest from as diverse quarters as the paroxysmal ‘Minoan’ eruption of Santorini, some 3600 years ago. Volcanologists, Bronze Age archaeologists, oceanographers, dendrochronologists, and ice...
Journal Article
Published: 01 November 2005
Geological Magazine (2005) 142 (6): 637-649.
... of the Santorini volcanic field, Greece . In Proceedings of the second workshop, Santorini, Greece, 2 to 4 May 1996 (eds R. Casale , M. Fytikas , G. Sigvaldasson and G. Vougioukalakis ), pp. 175 – 86 . Brussels : European Commission . Georgalas , G. C. 1962 . Catalogue...
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Journal Article
Journal: Elements
Published: 01 June 2019
Elements (2019) 15 (3): 185-190.
... society through impact on coastal towns, shipping, maritime trade, crop production and public health. Early reconstructions of Santorini prior to the eruption envisaged the existence of a tall volcanic cone. But more recent field data have ruled this out. We now know that a caldera, smaller than...
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Journal Article
Published: 01 February 1976
Journal of the Geological Society (1976) 132 (1): 1-16.
... solfatara fields 12 , 40 Napoli. Günther von D. Pichler H. Die Obere and Untere Bimsstein-Folge auf Santorin N Jb Geol Paläont, Mh 1973 7 394 415 Herdervari P. Volcanophysical investigations on the energetics of the Minoan eruption of Volcano Santorini Bull Volcan 1968 32...
Series: Geological Society, London, Special Publications
Published: 01 January 2000
DOI: 10.1144/GSL.SP.2000.171.01.07
EISBN: 9781862394193
... been an important factor deciding the location of the Bronze Age settlement. The volcanic island of Santorini (36.40°N, 25.40°E) (Fig. 1 ) in the Aegean Sea is of considerable interest for both geology and archaeology, as a flourishing Late Bronze Age settlement was buried under...
Journal Article
Journal: Geology
Published: 01 October 2009
Geology (2009) 37 (10): 943-946.
... of Santorini, Greece. The sheet-like deposit was found as a layer as much as 40 cm thick in four cores collected from 10 to 20 m water depths. Particle-size distribution, planar bedding, shell taphoecoensis, dating (radiocarbon, optically stimulated luminescence, and pottery), and comparison of the horizon...
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Series: Geological Society, London, Special Publications
Published: 01 January 2000
DOI: 10.1144/GSL.SP.2000.171.01.08
EISBN: 9781862394193
.... Volcanic tremors may have caused yet more damage to buildings, although we should not expect evidence for a pan-Cretan volcanic earthquake. The abandonment and/or partial destruction of many Late Minoan IA sites could be an immediate consequence of the Santorini eruption, although it seems to us preferable...
FIGURES
Image
Major tectonic features of the Christiana–<b>Santorini</b>–Kolumbo (CSK) <b>volcanic</b> ...
in > Elements
Published: 01 June 2019
Figure 1. Major tectonic features of the Christiana–Santorini–Kolumbo (CSK) volcanic field and the Santorini–Amorgos Tectonic Zone. The profiles A–A', B–B' and C–C' are shown as seismic profiles on F igures 2 , 4 and 5 . Note bathymetry legend at lower right. M odified from N omikou et al
Series: GSA Special Papers
Published: 01 January 2007
DOI: 10.1130/2007.2418(03)
... are involved in the genesis of Santorini magmas, whereas the highest are involved in the magma genesis at Milos and Nisyros volcanic fields. The aqueous fluids should derive from subducted oceanic crust, at least in the central and eastern sectors of the arc. Most of the geochemical characteristics...
Journal Article
Journal: Elements
Published: 01 June 2019
Elements (2019) 15 (3): 165-170.
... the Aegean microplate ( Papazachos 2019 this issue). The arc consists of five volcanic fields (4.7 Ma to present), from NW to SE: Susaki; Aegina–Poros–Methana; Milos; Christiana–Santorini–Kolumbo; and Kos–Nisyros–Yali ( F ig . 2 ) ( Vougioukalakis et al. 2019 this issue). For brevity, and using...
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Journal Article
Journal: Elements
Published: 01 June 2019
Elements (2019) 15 (3): 159-164.
... magmatism of the modern volcanic arc began 4.7 Ma ( F igs . 1 and 2 ). It includes, from west to east, five distinct volcanic fields: Sousaki; Aegina–Methana–Poros (also called Saronikos); Milos; Christiana–Santorini–Kolumbo; and Kos–Nisyros–Yali ( Fytikas and Vougioukalakis 2005 ) ( F ig . 1A...
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Journal Article
Journal: Geology
Published: 01 May 2016
Geology (2016) 44 (5): 367-370.
... of the upwelling SSEM source. Figure 3. Pb-Nd isotope variation of Nisyros and Santorini. See Figure 2 for symbols. EMS—eastern Mediterranean sea sediments; DIV—Pliocene to Quaternary Denizli-Isparta volcanism; KVP—Kula volcanic field (Quaternary alkali basalts); N-MORB—normal mid-oceanic ridge basalt...
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Image
( A ) Combined topographic map of <b>Santorini</b> Volcano based on onshore and of...
in > Elements
Published: 01 June 2019
). The largest mound is several meters in diameter. ( C ) A remotely operated vehicle photo of the CO 2 -rich subsea “Kallisti pools” within the Santorini caldera ( Camilli et al. 2015 ). The meandering stream of CO2-rich water is 1-2 m across VF = volcanic field.
Image
( A ) Aerial photograph of <b>Santorini</b> caldera (Greece) from the north. ( B )...
in > Elements
Published: 01 June 2019
(mainly silicic magmas), and the products of inter-Plinian periods in brown, five of which are named. The two earliest products of the volcanic field are shown in green. Asterisk labels are as follows: * = historically dated; ** = dated by radiometric methods, principally K–Ar and 40 Ar/ 39 Ar