Comparison of melting relationships of some plutonic and volcanic peralkaline undersaturated rocks     

A.D. Edgar  L.M. Parker 《Lithos》1974,7(4):263-273

From previous studies and from results of melting and crystallization sequences determined for four plutonic rocks and for four glass-bearing volcanic rocks all with peralkaline chemistry, the degree of peralkalinity, ZrO₂, TiO₂, F and Cl contents of the plutonic and holocrystalline volcanic rocks can be correlated with their melting intervals. This correlation does not hold for the glassy volcanic rocks. Analyses of whole rock and coexisting glasses suggest that rapidly chilled peralkaline volcanics may behave differently from holocrystalline peralkaline rocks due to different cooling rates causing variations in the distribution of volatiles such as Cl, between liquid and solid phases of the crystallizing melt.  相似文献   

Alkali feldspar liquid equilibrium relationships in peralkaline oversaturated systems and volcanic rocks     

Jacques Roux  Jacques Varet 《Contributions to Mineralogy and Petrology》1975,49(1):67-81

A critical review of both experimental data and natural rock sequences allows a comparison of liquid lines of descent in peralkaline oversaturated systems. Available experimental data have been used to draw the liquidus surfaces and the fractionation curves in various planes including the alkali feldspar join. The thermal valley becomes steeper, the fractionation curves being channeled faster towards the thermal valley with increasing alkali-silica ratio. The slope of the thermal valley varies so that the higher the peralkalinity, the more sodic the most fractionated liquids. Rock series from Easter Island, Gran Canaria, Pantellaria Island, Boina (Afar), Fantale (Ethiopia) and Menengai (Kenya) in which there is good evidence for alkali feldspar fractionation, show that such variations do occur in nature. Factors other than the peralkalinity of the series, such as additional components and changes in the confining pressure are shown to affect the orientation and location of the thermal valley.  相似文献   

Sacred ground; the Maipés necropolis of north‐west Gran Canaria     

Valentin R. Troll  Alejandro Rodriguez‐Gonzalez  Frances M. Deegan  Francisco Jos Perez‐Torrado  Juan Carlos Carracedo  Konstantinos Thomaidis  Harri Geiger  Fiona C. Meade 《Geology Today》2019,35(2):55-62

Gran Canaria, like most of the Canary Islands, shows evidence for young basaltic volcanism in the form of cinder cones and valley‐hugging lava flows. These landforms were of no particular use to the aboriginal population, nor to the subsequent Spanish settlers, and young lava flows and lava fields are still referred to as ‘malpaís’ (badlands) in the Canary Islands. In north‐west Gran Canaria, one such lava flow fills the bottom of a steep‐sided valley, which reaches the sea at the present day village of Agaete. The lava flow erupted c. 3030 ± 90 yr bp and displays a total length of ～ 11 km. At its distal end, just outside Agaete, it hosts one of Europe’s largest and most important pre‐historic burial sites constructed of volcanic rock: the Maipés necropolis. Over 700 pre‐historic tombs (or tumuli) constructed from the aa‐type clinker materials have been identified on top of the valley‐filling lava flow. The up to soccer‐ball sized vesicular clinker fragments are sufficiently low in density to provide abundant, workable basalt blocks for the construction of the tumuli, allowing the pre‐hispanic aboriginal population to create a large and magnificent ‘sacred ground’ in an otherwise barren landscape.  相似文献   

Oxygen isotope composition of xenoliths from the oceanic crust and volcanic edifice beneath Gran Canaria (Canary Islands): consequences for crustal contamination of ascending magmas     

《Chemical Geology》2003,193(3-4):181-193

Xenolith samples of marine terrigenous sediments and altered Jurassic MORB from Gran Canaria (Canary Islands) represent samples of sub-island oceanic crust. These samples are postulated to define end-members for crustal contamination of basaltic and felsic ocean island magmas. The meta-igneous rocks show great heterogeneity in oxygen isotope compositions (δ¹⁸O 3.3–8.6‰), broadly correlating with their stratigraphic position in the oceanic crust. Gabbros interpreted as fragments of oceanic crust layer 3 have δ¹⁸O values of 3.3–5.1‰, which is lower than MORB (5.7–6.0‰). Layer 2 lavas and dykes show a broader range of δ¹⁸O of 4.1–8.6‰. Therefore, high-temperature metamorphism seems to have been the dominant process in layer 3, while both high- and low-temperature alteration have variably affected layer 2 rocks. Siliciclastic sediments have high δ¹⁸O values (14.1–16.4‰), indicating diagenesis and low-temperature interaction with seawater. The oxygen isotope stratigraphy of the crust beneath Gran Canaria is typical for old oceanic crust and resembles that in ophiolites. The lithologic boundary between older oceanic crust and the igneous core complex at 8–10 km depth—as postulated from geophysical data—probably coincides with a main magma stagnation level. There, the Miocene shield phase magmas interacted with preexisting oceanic crust. We suggest that the range in δ¹⁸O values (5.2–6.8‰) [Chem. Geol. 135 (1997) 233] found for shield basalts on Gran Canaria, and those in some Miocene felsic units (6.0–8.5‰), are best explained by assimilation of various amounts and combinations of oceanic and island crustal rocks and do not necessarily reflect mantle source characteristics.  相似文献   

The channel between Gran Canaria and Tenerife: constructive processes and destructive events during the evolution of volcanic islands     

Sebastian Krastel  Hans-Ulrich Schmincke 《International Journal of Earth Sciences》2002,91(4):629-641

Seismic, sidescan sonar, bathymetric multibeam and ODP (Ocean Drilling Program) data obtained in the submarine channel between the volcanic islands of Gran Canaria and Tenerife allow to identify constructive features and destructive events during the evolution of both islands. The most prominent constructive features are the submarine island flanks being the acoustic basement of the seismic images. The build-up of Tenerife started following the submarine stage of Gran Canaria because the submarine island flank of Tenerife onlaps the steeper flank of Gran Canaria. The overlying sediments in the channel between Gran Canaria and Tenerife are chaotic, consisting of slumps, debris flow deposits, syn-ignimbrite turbidites, ash layers, and other volcaniclastic rocks generated by eruptions, erosion, and flank collapse of the volcanoes. Volcanic cones on the submarine island flanks reflect ongoing submarine volcanic activity. The construction of the islands is interrupted by large destructive events, especially by flank collapses resulting in giant landslides. Several Miocene flank collapses (e.g., the formation of the Horgazales basin) were identified by combining seismic and drilling data whereas young giant landslides (e.g., the Güimar debris avalanche) are documented by sidescan, bathymetric and drilling data. Sediments are also transported through numerous submarine canyons from the islands into the volcaniclastic apron. Seismic profiles across the channel do not show a major offset of reflectors. The existence of a repeatedly postulated major NE-SW-trending fault zone between Gran Canaria and Tenerife is thus in doubt. The sporadic earthquake activity in this area may be related to the regional stress field or the submarine volcanic activity in this area. Seismic reflectors cannot be correlated through the channel between the sedimentary basins north and south of Gran Canaria because the channel acts as sediment barrier. The sedimentary basins to the north and south evolved differently following the submarine growth of Gran Canaria and Tenerife in the Miocene.  相似文献   

Geochemical variation trends between the different Canary Islands in relation to their geological position     

A. Hernndez-Pacheco  E. Ibarrola 《Lithos》1973,6(4):389-402

Geochemical variation trends established from 700 chemical analyses of rocks from the Canary Islands, show that the islands can be separated into two distinct groups. One group consists of Gran Canaria, Tenerife and La Palma with alkaline characters and rapid progressive alkalinization trends. The other group of islands (Lanzarote, Fuerteventura, La Gomera and El Hierro), also has an alkaline character but differs from the former in showing slower alkalinization trends. The evolution patterns of the magmas of both groups indicate that each new magmatic cycle is on the whole more alkaline than its immediate predecessor. These differences a are supposed to be connected with the predominance in the one group of magmatism related to ‘African’ tectonic lines and in the other of magmatism related to ‘Atlantic’ tectonic lines.  相似文献   

Strongly undersaturated Tertiary volcanic rocks from the Kangerdlugssuaq area, east Greenland     

C.K. Brooks  J.C. Rucklidge 《Lithos》1974,7(4):239-248

Erratic blocks from the interior of Kangerdlugssuaq fjord are described with chemical analyses and microprobe data for their constituent minerals. A strongly peralkaline phonolite, unlike any previously known from the province, shows that some magmas which precipitated alkali feldspar, nepheline and amphibole (magnesio-katophorite) differentiated along a trend towards increasing peralkalinity, although this trend is unknown in the nearby plutons. Feldspar-free nephelinite and less undersaturated limburgite are also encountered, which apparently provided a petrographic link between the strongly undersatrated ultramafic rocks recently discovered in the area and the alkali basalts of Prinsen af Wales Bjerge.

Recognition of these rock types provides further important analogies with the plume-generated triple junctions of the African Rift and affords samples approximating closely to the compositions of the more unusual magmas of the area.  相似文献   

Multi-stage magma ascent beneath the Canary Islands: evidence from fluid inclusions     

Thor H. Hansteen  Andreas Klügel  Hans-Ulrich Schmincke 《Contributions to Mineralogy and Petrology》1998,132(1):48-64

Gabbroic and ultramafic xenoliths and olivine and clinopyroxene phenocrysts in basaltic rocks from Gran Canaria, La Palma, El Hierro, Lanzarote and La Gomera (Canary Islands) contain abundant CO₂-dominated fluid inclusions. Inclusion densities are strikingly similar on a regional scale. Histogram maxima correspond to one or more of the following pressures: (1) minimum 0.55 to 1.0 GPa (within the upper mantle); (2) between 0.2 and 0.4 GPa (the Moho or the lower crust); (3) at about 0.1 GPa (upper crust). Fluid inclusions in several rocks show a bimodal density distribution, the lower-density maximum comprising both texturally early and late inclusions. This is taken as evidence for an incomplete resetting of inclusion densities, and simultaneous formation of young inclusions, at well-defined magma stagnation levels. For Gran Canaria, pressure estimates for early inclusions in harzburgite and dunite xenoliths and olivine phenocrysts in the host basanites overlap at 0.9 to 1.0 GPa, indicating that such magma reservoir depths coincide with levels of xenolith entrainment into the magmas. Magma chamber pressures within the mantle, inferred to represent levels of mantle xenolith entrainment, are 0.65–0.95 GPa for El Hierro, 0.60–0.68 GPa for La Palma, and 0.55–0.75 GPa for Lanzarote. The highest-density fluid inclusions in many Canary Island mantle xenoliths have probably survived in-situ near-isobaric heating at the depth of xenolith entrainment. Inclusion data from all islands indicate ponding of basaltic magmas at Moho or lower crustal depths, and possibly at an additional higher level, strongly suggestive of two main crustal accumulation levels beneath each island. We emphasize that repeated magmatic underplating of primitive magmas, and therefore intrusive accretion, are important growth mechanisms for the Canary Islands, and by analogy, for other ocean islands. Comparable fluid inclusion data from primitive rocks in other tectonic settings, including Iceland, Etna and continental rift systems (Hungary, South Norway), indicate that magma accumulation close to Moho depths shortly before eruption is not, however, restricted to oceanic intraplate volcanoes. Lower crustal ponding and crystallization prior to eruption may be the rule rather than the exception, independent of the tectonic setting. Received: 30 May 1997 / Accepted: 6 February 1998  相似文献   

Composition and evolution of submarine volcanic rocks from the central and western Canary Islands   总被引：2，自引：0，他引：2  

M.?AbratisEmail author  H.-U.?Schmincke  T.?Hansteen 《International Journal of Earth Sciences》2002,91(4):562-582

Submarine volcanic rocks dredged during RV Meteor cruise M43-1 comprise alkali basalts, basanites, nephelinites and their differentiates representing both basement-shield and young post-shield volcanics of Gran Canaria, Tenerife, La Palma and El Hierro. The primitive lavas vary widely in trace element composition (e.g., Zr/Y=6.6-11.7, (La/Sm)_N=2.3-5.4, and Ba/Yb=71-311), and they are characterized by steep, rare-earth element patterns with mean (La/Yb)_N=16, and by pronounced, positive primitive mantle-normalized Nb and Ta and negative K anomalies similar to HIMU-type basalts. Rocks from the submarine flanks west and north of Gran Canaria are isotopically and geochemically identical to rocks of the subaerial Miocene shield stage, but they are distinct from rocks of the post-shield stages (Zr/Nb=6.3-8.9, ⁸⁷Sr/⁸⁶Sr=0.70327-0.70332, ¹⁴³Nd/¹⁴⁴Nd=0.51289-0.51293, ²⁰⁶Pb/²⁰⁴Pb=19.55-19.88). Most rocks dredged from the submarine flanks of Tenerife are isotopically and geochemically similar to rocks of the adjacent subaerial shield remnants, but a few resemble rocks of the subaerial post-shield stages (total range in Zr/Nb=4.6-6.1, ⁸⁷Sr/⁸⁶Sr=0.70300-0.70329, ¹⁴³Nd/¹⁴⁴Nd=0.51281-0.51292, ²⁰⁶Pb/²⁰⁴Pb=19.51-19.96). Rocks from the southern submarine ridge of La Palma cover the entire compositional range of the subaerial rocks of that ridge. Additionally, they comprise a high Zr/Nb group which resembles rocks of the ca. 1-Ma-old Taburiente shield of northern La Palma (total range in Zr/Nb=3.0-6.4, ⁸⁷Sr/⁸⁶Sr=0.70297-0.70314, ¹⁴³Nd/¹⁴⁴Nd=0.51288-0.51296, ²⁰⁶Pb/²⁰⁴Pb=19.21-19.79). Rocks from the southern submarine ridge of El Hierro compositionally resemble subaerial rocks of the island (Zr/Nb=4.1-6.2, ⁸⁷Sr/⁸⁶Sr=0.70296-0.70314, ¹⁴³Nd/¹⁴⁴Nd=0.51291-0.51297, ²⁰⁶Pb/²⁰⁴Pb=19.25-19.91). The degree of melting in the subcanarian mantle is interpreted to decrease from east to west across the archipelago whereas the proportion of depleted mantle component in the melting anomaly increases, as illustrated by Sr, Nd and Pb isotopes. The isotopic characteristics of the mantle source beneath the Canary Islands represents a mixture of HIMU, DMM and EM I. The overall isotopic signature is intermediate between that of Madeira to the north, which trends towards more depleted compositions, and that of the Cape Verde Islands to the south which shows a pronounced trend towards enriched mantle compositions. A clear trend towards the EM II component is only evident in more evolved rocks dredged from a seamount between Tenerife and Gran Canaria, some of which contain terrigenous sedimentary xenoliths. We propose a genetic model which relates similar mantle source signatures of volcanic archipelagos off West Africa to a common, large-scale lower mantle upwelling which, according to geophysical data, becomes more diffuse in the upper mantle. Narrow plumes or blobs feeding the volcanic centers along the passive margin may rise from this thermal anomaly due to upwelling in small, continent-parallel upper-mantle convection cells.  相似文献   

The Petrology of the Tholeiites through Melilite Nephelinites on Gran Canaria, Canary Islands: Crystal Fractionation, Accumulation, and Depths of Melting   总被引：2，自引：5，他引：2  

HOERNLE  KAJ; SCHMINCKE  HANS-ULRICH 《Journal of Petrology》1993,34(3):573-597

We report major and trace element X-ray fluorescence (XRF) datafor mafic volcanics covering the 15-Ma evolution of Gran Canaria,Canary Islands. The Miocene (12–15 Ma) and Pliocene-Quaternary(0–6 Ma) mafic volcanics on Gran Canaria include picrites,tholeiites, alkali basalts, basanites, nephelinites, and melilitenephelinites. Olivineclinopyroxene are the major fractionatingor accumulating phases in the basalts. Plagioclase, Fe–Tioxide, and apatite fractionation or accumulation may play aminor role in the derivation of the most evolved mafic volcanics.The crystallization of clinopyroxene after olivine and the absenceof phenocrystic plagioclase in the Miocene tholeiites and inthe Pliocene and Quaternary alkali basalts and basanites withMgO>6 suggests that fractionation occurred at moderate pressure,probably within the upper mantle. The presence of plagioclasephenocrysts and chemical evidence for plagioclase fractionationin the Miocene basalts with MgO<6 and in the Pliocene tholeiitesis consistent with cooling and fractionation at shallow depth,probably during storage in lower-crustal reservoirs. Magma generationat pressures in excess of 3•0–3•5 GPa is suggestedby (a) the inferred presence of residual garnet and phlogopiteand (b) comparison of FeO¹ cation mole percentages and the CIPWnormative compositions of the mafic volcanics with results fromhigh-pressure melting experiments. The Gran Canaria mafic magmaswere probably formed by decompression melting in an upwellingcolumn of asthenospheric material, which encountered a mechanicalboundary layer at {small tilde}100-km depth.  相似文献   

Trace-element sanidine/glass distribution coefficients for peralkaline silicic rocks and their implications to peralkaline petrogenesis     

J. W. Drexler  T. J. Bornhorst  D. C. Noble 《Lithos》1983,16(4):265-271

Sanidine/glass distribution coefficients for 11 trace elements have been determined on six peralkaline and two subalkaline silicic rocks. Distribution coefficients for Na, Sc, Fe, Cs, La, Ce, Sm, Tb and Lu from this study and the literature show little variation, within analytical uncertainty, for silicic rocks of peralkaline and subalkaline affinity. Distribution coefficients for Eu and Rb show a marked decrease with increasing peralkalinity. This variation may be the result of the decrease in the degree of polymerization from subalkaline to peralkaline silicic melts. Previous studies involving modelling of peralkaline rocks have selected, incorrectly, Eu and Rb sanidine/glass distribution coefficients determined from subalkaline silicic rocks.  相似文献   

吉林省白头山火山岩的微量元素及其岩石学意义   总被引：2，自引：0，他引：2  

汤德平  田丰 《岩石矿物学杂志》1989,8(1):33-42

白头山火山岩中含有一套粗面岩—钠碱流岩,与下伏的长白山玄武岩组成一个岩石系列。在白头山火山岩中,REE、Zn、Zr等元素十分富集,而过渡元素及Sr、Ba等元素极其贫 化。REE配分具明显的Eu负异常,许多不相容元素在岩石系列中表现出良好的线性关系。依据微量元素行为的数学模式对这些特征进行定性分析和定量模拟,其结果表明白头山火山岩是由长白山玄武岩岩浆经结晶分异形成的。  相似文献   

New tie-points for the geomagnetic polarity time scale during the Middle Miocene from the Mogán Group on Gran Canaria and Ocean Drilling Program Leg 157 site 953     

B.?HerrEmail author  M.?Fuller  M.?Sumita  P.?van den Bogaard  H.-U.?Schmincke  F.?Heider 《International Journal of Earth Sciences》2002,91(4):642-660

A thick sequence of volcaniclastic sediments drilled at site 953 during Ocean Drilling Program (ODP) Leg 157 northeast of Gran Canaria (Canary Islands) contains an almost complete magneto-stratigraphy back to the shield stage of the island 14.8 Ma ago. Onshore, a sequence of reversals has been identified and dated in 19 dominantly peralkaline rhyolitic ignimbrites, one rhyolitic, and one basaltic lava flow of the Mogán Group (13.35-13.95 Ma), which overlie basalt flows of the island's shield stage (>14 Ma). The magneto-stratigraphy of the ignimbrites onshore has been correlated with the marine magneto-stratigraphy at site 953, determined in syn-ignimbritic volcaniclastic turbidites, which were deposited practically synchronously immediately following the entry of the parent pyroclastic flows into the sea around the circumference of the island. The four polarity intervals recorded in the sequence of the Mogán Group ignimbrites correspond to C5ACr, C5ACn, C5ADr and C5ADn. Single crystal ⁴⁰Ar/³⁹Ar-age determinations of the ignimbrites bracketing the polarity changes gave the following ages and uncertainties for the reversals C5AD (t) (13.95ǂ.07 Ma), C5AC(o) (13.89ǂ.08 Ma), and C5AC(t) (13.47ǂ.09 Ma). The newly dated polarity changes fit and refine the Miocene age model proposed in the global polarity time scale.  相似文献   

Characterisation of a Pleistocene debris-avalanche deposit in the Tenteniguada Basin,Gran Canaria Island,Spain     

Alejandro Lomoschitz  Javier Hervás  Jorge Yepes  Joaquín Meco 《Landslides》2008,5(2):227-234

We studied a large debris-avalanche deposit of Pleistocene age in the Tenteniguada Basin, Gran Canaria Island, Spain. This deposit, which is well preserved because it is mostly covered by basanite lava flows, has distinctive matrix and block facies, hummocky topography and internal structures typical of debris avalanches. However, neither syneruptive lavas nor some characteristic features of volcanic debris-avalanche deposits, such as a stratovolcano edifice or a horseshoe-shaped crater, are present. The occurrence of internal features characteristic of volcanic avalanche deposits could be attributed to the volcanic materials involved in the movement rather than to the triggering of the avalanche during a volcanic eruption. The conditioning factors are shown to be associated with specific structural and hydrological conditions, such as the presence of old volcanic domes, strength reduction of the rocks, effective stress decrease, active gully erosion and water table rise during Pleistocene humid episodes. We finally suggest that the possible triggering factor of the avalanche was a neighbouring volcanic or tectonic earthquake.  相似文献   

Trace element evidence for the origin of ocean island basalts: an example from the Austral Islands (French Polynesia)     

C. Dupuy  H. G. Barsczus  J. M. Liotard  J. Dostal 《Contributions to Mineralogy and Petrology》1988,98(3):293-302

The Austral Islands, a volcanic chain in the South-Central Pacific Ocean (French Polynesia) are composed mainly of alkali basalts and basanites with subordinate amounts of olivine tholeiites and strongly undersaturated rocks (phonolite foidites and phonolite tephrites). The basaltic rocks have geochemical features typical of oceanic island suites. The distribution of incompatible trace elements indicate that the lavas were derived from a heterogeneous mantle source. The chondrite-normalized patterns of the incompatible elements in basaltic rocks of the Austral Islands are complementary to those of island arc tholeiites. As supported by isotope data, the observed trace element heterogeneities of the source are probably due to mixing of the upper mantle with subducted oceanic crust from which island arc tholeiitic magma was previously extracted.  相似文献   

Petrology,volume and age relations of alkaline and saturated peralkaline volcanics from Terceira,Azores     

Stephen Self  Bernard M. Gunn 《Contributions to Mineralogy and Petrology》1976,54(4):293-313

Four volcanoes form Terceira, one of the islands of the Azores group; three contain both basaltic and peralkaline and one only peralkaline rocks. A recently active basaltic fissure zone trends NW-SE across the island.The rocks fall into the alkaline olivine basalt suite although some young basalts are of transitional affinity. The geochemistry shows two general basaltic series: 1) undersaturated, found in lavas of the oldest volcano and in some recent fissure zone basalts and hawaiites; 2) saturated, found in the younger basaltic lavas.Since the emergence of Terceira there has been a contemporaneity of basalt and salic peralkaline lavas. The younger rocks show a bimodal composition distribution, the most voluminous compositions being alkali olivine basalt and comendite with negligible volume in the benmoreite-trachyte range. Two processes appear viable for the derivation of voluminous oversaturated peralkaline rocks: 1) partial melting of upper mantle material giving small magma batches of contrasting composition or 2) fractionation from a transitional basaltic parental magma.Now at Department of Geology, Victoria University of Wellington, New Zealand.  相似文献   

广东梅县玉水多金属矿矿床成因探讨   总被引：3，自引：0，他引：3  

汪礼明  杨牧  彭省临 《大地构造与成矿学》1999,23(4):345-352

本文在对比分析矿区火成岩（围岩）及含矿段岩矿石稀土元素、微量元素的基础上,结合矿石稳定同位素及包裹体特征对矿床成因作了探讨。根据本区微量元素性状及其分布特征,指出了含矿段火成岩与矿区内脉状火成岩侵人体（β_μ及γ_π）及上侏罗统火成岩的微量元素特征差异,同时认为：矿床是由局部火山喷气并受中温热液改造而成,含矿段矿化火山岩是由特定火山喷气作用形成的产物,它与区内的脉状火成岩侵人体及上侏罗统火山岩之间没有成因联系,对矿床改造作用的中温热液,主要来自深部隐伏碱性侵人体。  相似文献   

Kinematic model for Tenerife Island (Canary Islands,Spain): Geodynamic interpretation in the Nubian plate context     

《Journal of African Earth Sciences》2011,59(5):721-733

Establishment of a geodetic network in Tenerife is the starting point for the use of GPS and other precise geodetic techniques in the support of the study of kinematics and their relation with island volcanic activity. This paper is focused on the characterization of volcanotectonic activity of Tenerife, to determine the geodynamic framework for volcanic surveillance.TEGETEIDE network, set up in 2005 and re-observed each year, is composed of seven GNSS–GPS stations scattered throughout the island. A horizontal deformation model is presented in order to explain the observed island displacement pattern in the geodynamic context of the Nubian plate.According to the models obtained, the most important geologic structures, such as the volcanic rifts and the caldera, determine the current deformation pattern of Tenerife. The geodynamics of the most stable areas of the island behave similarly to that observed from the permanent GNSS–GPS reference stations located in La Palma and Gran Canaria Islands.Anomalous geodynamic behaviour has been detected in two zones of Tenerife, which configure an NW–SE axis crossing the central sector of the island, related with the volcanotectonic activity of the island and its surroundings.  相似文献   

Strontium isotopic composition of some recent basic volcanites of the Southern Tyrrhenian Sea and Sicily Channel     

F. Barberi  S. Borsi  G. Ferrara  F. Innocenti 《Contributions to Mineralogy and Petrology》1969,23(2):157-172

The ⁸⁷Sr/⁸⁶Sr ratios have been determined on the volcanic rocks of Ustica, Linosa and Pantelleria Islands. The petrology of these islands is typical of volcanic products belonging to the alkalic suite. The volcanites of Ustica and Linosa Islands are mainly represented by basic terms (alkalibasalts and hawaiites), with minor mugearitic and trachytic differentiates. In addition to alkali-basalts and hawaiites, also some alkaline and peralkaline rocks of Pantelleria have been isotopically analysed. The ⁸⁷Sr/⁸⁶Sr ratios are consistent with a subcrustal origin for all the volcanic products of these islands. Some differences in the ⁸⁷Sr/⁸⁶Sr ratios have been found and tentatively related to an inhomogeneous Rb/Sr distribution in the mantle source material. The genetic relationships of these rocks with some products of the recent Tyrrhenian volcanism are also briefly discussed.  相似文献   

The Holocene volcanic history of Gran Canaria island: implications for volcanic hazards     

Alejandro Rodriguez‐Gonzalez  Jose L. Fernandez‐Turiel  Francisco J. Perez‐Torrado  Alex Hansen  Meritxell Aulinas  Juan C. Carracedo  Domingo Gimeno  Hervé Guillou  Raphaël Paris  Martine Paterne 《第四纪科学杂志》2009,24(7):697-709

Previous published data, combined with our results of 13 new radiocarbon ages and extensive geological fieldwork, indicate that during the past 11 ka 24 monogenetic basaltic eruptions occurred in the north sector of Gran Canaria. These eruptions can be grouped into three periods of eruptive activity: 1900–3200 ¹⁴C a BP; 5700–6000 ¹⁴C a BP; and an older period represented by only one eruption, El Draguillo, dated at 10 610 ± 190 ¹⁴C a BP. Archaeological studies have shown that the more recent eruptions affected prehistoric human settlements on the island. Field studies demonstrate that the eruptions typically built strombolian cones (30–250 m in height) and associated relatively long lava flows (100–10 350 m in length); a few eruptions also produced tephra fall deposits. The total erupted volume of these eruptions is about 0.388 km³ (46.1% as tephra fall, 41.8% as cinder cone deposits and 12.1% as lava flows). The relatively low eruption rate (～0.04 km³ ka^?1) during the past 11 ka is consistent with Gran Canaria's stage of evolution in the regional volcano‐tectonic setting of the Canary Archipelago. The results of our study were used to construct a volcanic hazards map that clearly delimits two sectors in the NE sector of Gran Canaria, where potential future eruptions would pose a substantial risk for densely populated areas. Copyright © 2009 John Wiley & Sons, Ltd.  相似文献