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1.
Rosanna De Rosa Herv Guillou Roberto Mazzuoli Guido Ventura 《Journal of Volcanology and Geothermal Research》2003,120(3-4):161-178
A geochronological study of the Filicudi, Salina, Lipari and Vulcano Islands (Aeolian Archipelago) using the unspiked potassium–argon technique provides new age data which, combined with stratigraphic correlation, better constrain the temporal evolution of volcanism. The unspiked K–Ar age of the oldest exposed lavas on Filicudi, 219±5 ka, is significantly younger than the previous estimation of 1.02 Ma. In the general context of Aeolian volcanism, this new date suggests that the volcanism of the western sector of the Aeolian Archipelago is younger than previously thought. Geochronological data point out on the rapid transition from calc–alkaline to potassic volcanism. The distribution of the K–Ar ages within the Salina–Lipari–Vulcano group shows that the volcanism started on Lipari and propagated over time northward on Salina and southward on Vulcano. Geochronological and geophysical data suggest that the onset of volcanism in the central sector of the Aeolian Arc may be due to a mantle upwelling structure located below Lipari. A change in the style of the eruptions occurred in the Salina–Lipari–Vulcano system at about 100 ka from the present. Low-energy magmatic eruptions occurred between 188 and about 100 ka. From about 100 ka to the present, higher-energy eruptions and low-energy events due to magma–water interaction also occurred. This change in the style of activity, together with the appearance of evolved products (i.e. rhyolites) during the last 50 ka, is consistent with the formation of magmatic reservoirs located at shallower depth with respect to those of the 188–100-ka period. The new geochronological data and available petrological models reveal that a change in the deep source of the primary magmas occurred in a relatively short time interval. 相似文献
2.
The Izmir-Karaburun region is located on the West coast of Turkey. In this area volcanic rocks of the late Miocene-Pliocene age outcrop. On the basis of the collected petrographic and geochemical data it has been possible to subdivide these rocks in to three series:a) calc-alkaline series of Karaburun-Koca dag-Izmir (quantitatively the most important). This series is formed by latite-andesites-dacites-rhyodacites.b) Silicic series of Izmir-Lebedos, mainly constituted by alkali rhyolitic rocks.c) Urla series, formed by alkali trachytes and alkali rhyolites, associated with scarce basic lavas of hawaiitic type. A different genesis is assumed for these series. In a first phase the latite-andesitic magma was formed by a partial melting in the lower crust or in the upper mantle. Afterwards a subcrustal magma with alkali basaltic affinity rose slowly through the crust forming an intermediate reservoir and differentiating predominantly towards alkali trachytic terms. Finally silicic magma of Izmir-Lebedos was formed by an anatectic process. It is possible that the fusion has been favoured by the presence of basic magma in the upper crust. 相似文献
3.
During the lower and middle Miocene the western Anatolia and the eastern Aegean Sea were dominated by a calcalkaline volcanism associated with minor acid and basic volcanics. The basic subcrustal volcanics consist mainly of alkali basalts and hawaiites (9.7–11.9 m.y.), nepheline hawaiites and nepheline trachyandesites (Kula area from 1.1 m.y. to the recent times). The rhyolitic volcanics (12.5 m.y.) derived by a partial melting process in the upper crust (87Sr/86Sr=0.7121). The calcalkaline suite (16.2–21.5 m.y., mean value87Sr/86Sr=0.708) shows a trend from latite-andesites to dacites and rhyodacites; a latite andesite system related to a sinking slab of lithosphere and constituted by a mixing of oceanic crust (tholeiite), oceanic sediments and/or tectonic fragments of sialic crust is envisaged. 相似文献
4.
Mario Boccaletti Roberto Mazzuoli Marco Bonini Teresa Trua Bekele Abebe 《Journal of African Earth Sciences》1999,29(4):315
Deformation and magmatism within the 90 km wide northern Ethiopian Rift system is concentrated along a narrow zone - the Wonji Fault Belt. Two key areas (the Nazret-Dera and Asela-Ziway areas), located along the eastern margin of the north-northeast to northeast trending Main Ethiopian Rift, have been investigated in order to reconstruct the recent tectonomagmatic evolution of the northern branch of the Main Ethiopian Rift. In these areas, Early Pleistocene volcanic products (Wonji Group) overlie Pliocene volcanic rocks (Eastern Margin Unit). Detailed stratigraphical reconstructions have revealed the presence of several tectonomagmatic units which can be correlated between the two study areas. The stratigraphical and petrological study of these units outlined (1) the bimodal composition (basalts-pantellerites) of the oldest and youngest units and the unimodal character (pantellerites) of the products erupted during the intervening period; (2) the mainly fissural origin of the ignimbrites and oldest basalts; and (3) a mafic/felsic volumetric ratio of 1:5.The geological data suggest that, around the Pliocene-Quaternary boundary, a change in the stress field occurred in this Main Ethiopian Rift sector, passing from a direction of extension roughly orthogonal to the rift shoulders, to oblique rifting related to an east-west trending extension. In this framework the change in the style of volcanism observed in the Nazret-Dera and Asela-Ziway areas can be related to the change of the stress field. A new geodynamic model is presented for the Late Pliocene to Recent evolution of this sector of the Main Ethiopian Rift. According to this model, a large volume of rhyolitic products was erupted during an oblique rifting phase, following a previous period of pure extension. The change in the tectonic regime favoured partial melting of the underplated basalts as a decrease in the pressure and an elevation of isotherms occurred. 相似文献
5.
G. M. Crisci R. De Rosa G. Lanzafame R. Mazzuoli M. F. Sheridan G. G. Zuffa 《Bulletin of Volcanology》1981,44(3):241-255
This paper documents a complex sequence of interbedded lapilli-fall, base-surge, and pyroclastic-flow deposits, here named the Monte Guardia sequence, that erupted from volcanic centers in the southern part of Lipari (Aeolian Island Arc). Radiocarbon data from ash-flow tuffs above and below this sequence bracket its eruption between 22,600 and 16,800 years ago. Geologic evidence, however, suggests that this single eruptive cycle had a more restricted duration of years to tens-of-years. The basis for our interpretations comes from data measured at 38 detailed sections located throughout the island. The Monte Guardia sequence rests on a series of lower rhyolitic endogenous domes in the southern part of Lipari and it covers the oldest lavas, lahars, and pyroclastic flows in the north. Only in the northeast part of the island is it covered by younger deposits which there consist of lapilli tuffs and lavas of the Monte Pilato rhyolitic cycle. The deposit ranges in thickness from more than 60 m surrounding the vents in the south to less than a few decimeters at 10 km distance in the north. Throughout most of the island the Monte Guardia sequence overlies a thin andesitic lapilli-fall layer which is a key bed for correlation. This lapilli tuff probably erupted from a volcanic center on another island of the Aeolian Arc (possibly Salina). The principal activity of the Monte Guardia sequence started with an explosion that formed a continuous breccia blanket covering most of the island. Some pumiceous blocks within this breccia are composed of alternating bands of acidic and andesitic composition suggesting that the initiation of pyroclastic activity could have been triggered by magma mixing. Typical Monte Guardia sequence consists of explosive products that grade from magmatic (pumice-fall) to phreatomagmatic (base-surge) character. The eruptive cycle is characterized by a number of energy decreasing megarhythms that start with a lapilli-fall bed and end with a base-surge set that progresses through sand-wave, massive, and planar beds. Isopach maps of the fall and surge deposits indicate that both types were directed to the northwest by prevailing winds. Existing topographic relief was an additional factor that affected the emplacement of surge products. At the end of the cycle andesitic pyroclastic flows and rhyolitic endogenous domes were emplaced above the Monte Guardia deposits near the vent. 相似文献
6.
Radiometric ages and chemical character of the Tertiary and Quaternary volcanics of the Aegean Sea indicate a gap between the Recent calc-alkaline volcanism and the Tertiary one. This latter reached its climax in the Oligocene—Late Miocene. The two calc-alkaline magmatisms are related to distinct subduction processes. 相似文献
7.
M. Boccaletti F. Innocenti P. Manetti R. Mazzuoli A. Motamed G. Pasquare F. Radicati di Brozolo E. Amin Sobhani 《Bulletin of Volcanology》1976,40(2):121-132
In the Bijar region (Western Iran) two distinct volcanic cycles have been recognized. The first, of Upper Miocene age, consists of high-K cale-alkaline volcanic rocks interpreted as final products of the cale-alkaline Tertiary phase of central Iran. The second volcanic cycle, mostly of Pleistocene age (0.5–1.3 m.v.) consists of undersaturated, mainly potassic, alkaline products. As the lavas of this last phase are slightly fractionated, the chemical differences shown by these rocks have been interpreted as primitive features related to the physical conditions governing the partial melting in the mantle and/or the mantle heterogeneity. In a volcanic center (Sarajukh volcano) contemporaneous basic and acid magmas have been found, and interpreted as derived from two different and independent sources. The alkaline basic volcanism is considered as an expression of disjunctive processes that have affected the western margin of the Iranian plate after the Pliocene. 相似文献
8.
Volcanic geomorphology and tectonics of the Aeolian archipelago (Southern Italy) based on integrated DEM data 总被引:1,自引:0,他引:1
Massimiliano FavalliM Dávid Karátson Roberto Mazzuoli Maria Teresa Pareschi Guido Ventura 《Bulletin of Volcanology》2005,68(2):157-170
The geomorphological and morphometric analysis of the sea floor topography surrounding the Aeolian Islands, South Tyrrhenian Sea, Italy, provides insights into the relationships between the volcanological evolution of the islands and their tectonic features. We constructed geomorphological maps of the submarine portions of the seven large edifices constituting the islands on the basis of a DEM with a 5 m resolution step. These maps include constructional and destructional landforms such as submarine volcanic vents located west of Lipari and north of Alicudi, and hummocky surfaces recognised north of Lipari and Salina. The latter landforms, together with the occurrence of large scars affecting the main edifices on land, suggest that sector collapses affected some islands. Geomorphological data indicate that the location of subaerial and submarine vents is strongly controlled by local tectonic structures striking WNW-ESE (Alicudi-Filicudi sector), NNW-SSE (Salina-Lipari-Vulcano sector) and NE-SW (Panarea-Stromboli sector). The islands can be divided into two groups on the basis of some morphometric parameters: a first group with a pancake-like shape, Dp/D (abrasion platform diameter/basal diameter) higher than 0.40 and H/D (total height/basal diameter) lower than 0.13, and a second group with a conical shape, characterised by Dp/D lower than 0.34 and H/D higher than 0.14. These ratios and other morphometric parameters reflect the different volcanological and structural evolution of the Aeolian Islands. The pancake-like shaped complexes have been created, in addition to their submarine stage, by extrusive and highly explosive activity, whereas the cone-shaped edifices have been characterised by effusive or moderate explosive activity.Editorial responsibility: C Kilburn 相似文献
9.
C. M. Crisci G. Ferrara R. Mazzuoli P. M. Rossi 《International Journal of Earth Sciences》1984,73(1):279-292
Summary A widespread volcanism mainly consisting of pyroclastic products and lava flows is found in the Southern Alps of Lombardy. The volcanics are interbedded with Anisian-Ladinian carbonatic sequences and continental terrigenous or transitional deposits of Ladinian-Carnian age. The petrographic and geochemical data for this volcanism indicate a calc-alkaline affinity with characters similar to those of convergent continental margins. In this sector of the Alps the geological evidences show that in the middle Triassic general extensional movements were the dominant deformation event, and do not support the existence of a subduction zone during this period. The apparent contrast between the tectonic environment and the type of magmas erupted in the Anisian-Carnian is tentatively explained by partial melting during the early stage of rifting of an upper mantle deeply modified during the previous Hercynian orogenesis and contaminated by crustal material. This hypothesis is in agreement with the preliminary Sr isotopic ratios (0.705 and 0.709). K/Ar and Rb/Sr ages on biotites date the beginning of the volcanism at around 225 m.y.
Zusammenfassung In den Südalpen der Lombardei befindet sich ein weitverbreiteter Vulkanismus, der hauptsächlich aus pyroklastischen Produkten und Lavaströmen besteht. Vulkanische Produkte sind mit anisisch-ladinischen beckenartigen Karbonat-Schichtfolgen oder mit ladinisch-karnischen kontinental-terrestrischen oder Übergangsablagerungen eingebettet. Die petrographischen und geochemischen Daten für diesen Vulkanismus weisen auf eine den konvergenten Kontinentalschelfen ähnliche kalkalkaline Affinität hin. In diesem Sektor der Alpen zeigen die geologischen Beobachtungen, daß die dominanten Verformungsereignisse der mittleren Trias allgemeine Dehnungsbewegungen waren und weisen nicht auf die Existenz einer Subduktionszone zu dieser Zeit hin. Der scheinbare Widerspruch zwischen dem tektonischen Milieu und dem im Anis bis Karn ausgeworfenen Magmatyp wird versuchsweise mit einer Teilaufschmelzung eines während der vorhergehenden herzynischen Orogenese tief veränderten und mit Krustenmaterial verunreinigten oberen Mantels während der Frühphase einer Grabenbildung erklärt. Diese Hypothese ist im Einklang mit den präliminaren Sr-Isotopenverhältnissen (0.705 und 0.709). K/Ar und Rb/Sr Altersmessungen an Biotiten datieren den Anfang der vulkanischen Tätigkeit um 225 Ma.
Résumé Un volcanisme très répandu constitué surtout par des produits pyroclastiques et par des coulées de lave se trouve dans les Alpes Méridionales en Lombardie. Ces produits volcaniques sont intercalés dans la série carbonatique du bassin d'âge Anisien-Ladinien et dans les dépôts terrigènes continentaux ou transitionnels d'âge Ladinien-Carnien. Les données pétrographiques et géochimiques de ces produits volcaniques montrent une affinité calcoalcaline avec des caractères semblables à ceux des marges continentales convergentes. Dans le Trias moyen de cette partie des Alpes, les données géologiques indiquent que le motif dominant de la déformation est un mouvement d'extension très répandu, tandis qu'il n'y a aucune évidence de l'existence d'une zone de subduction durant cette période. Le contraste entre le style tectonique et le type de magma mis en place dans l'Anisien-Carnien, peut être expliqué par une fusion partielle du manteau supérieur pendant un stade précoce d'effondrement modifié intensément pendant la précédente orogenèse hercynienne et contaminé par des matériaux d'origine crustale. Cette hypothèse est en accord avec des données préliminaires des rapports isotopiques du Sr (0.705 et 0.709). Des âges K/Ar et Rb/Sr sur des biotites donnent 225 m.a. environ pour le début de l'activité volcanique.
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10.
A. Gioncada R. Mazzuoli M. Bisson M. T. Pareschi 《Journal of Volcanology and Geothermal Research》2003,122(3-4):191-220
Over the last 42 ka, volcanic activity at Lipari Island (Aeolian Arc, Italy) produced lava domes, flows and pyroclastic deposits with rhyolitic composition, showing in many cases evidence of magma mixing such as latitic enclaves and banding. In this same period, on nearby Vulcano Island, similar rhyolitic lava domes, pyroclastic products and lava flows, ranging in composition from shoshonite to rhyolite, were erupted. As a whole, the post-42 ka products of Lipari and Vulcano show geochemical variations with time, which are well correlated between the two islands and may correspond to a modification of the primary magmas. The rhyolitic products are similar to each other in their major elements composition, but differ in their trace element abundances (e.g. La ranging from 40 to 78 ppm for SiO2 close to 75 wt%). Their isotopic composition is variable, too. The 87Sr/86Sr (0.704723–0.705992) and 143Nd/144Nd (0.512575–0.512526) ranges partially overlap those of the more mafic products (latites), having 87Sr/86Sr from 0.7044 to 0.7047 and 143Nd/144Nd from 0.512672 to 0.512615. 206Pb/204Pb is 19.390–19.450 in latites and 19.350–19.380 in rhyolites. Crystal fractionation and crustal assimilation processes of andesitic to latitic melts, showing an increasing content in incompatible elements in time, may explain the genesis of the different rhyolitic magmas. The rocks of the local crustal basement assimilated may correspond to lithotypes present in the Calabrian Arc. Mixing and mingling processes between latitic and rhyolitic magmas that are not genetically related occur during most of the eruptions. The alignment of vents related to the volcanic activity of the last 40 ka corresponds to the NNW–SSE Tindari–Letojanni strike-slip fault and to the correlated N–S extensional fault system. The mafic magmas erupted along these different directions display evidence of an evolution at different PH2O conditions. This suggests that the Tindari–Letojanni fault played a relevant role in the ascent, storage and diversification of magmas during the recent volcanic activity. 相似文献