Petrology and geochemistry of Rodrigues Island,Indian Ocean

Rodrigues Island is composed of a differentiated series of transitional-mildly alkaline olivine basalts. The lavas contain phenocrysts of olivine (Fo_88–68)±plagioclase (An_73–50), together with a megacryst suite involving olivine, plagioclase, kaersutite, clinopyroxene, apatite, magnetite and hercynite-rich spinels. Troctolitic-anorthositic gabbro xenoliths are widely dispersed throughout the lavas and are probably derived from the upper parts of an underlying layered complex: the megacrysts may originate from coarse, easily disaggregated differentiates near the top of this body.Modelling of major and trace element data suggests that the majority of chemical variation in the lavas results from up to 45% fractionation of olivine, clinopyroxene, plagioclase and magnetite at low pressures, in the ratio 2035396. The clinopyroxene-rich nature of this extract assemblage is significantly different to that of the xenoliths, and suggests that clinopyroxene-rich gabbros and/or ultrabasic rocks may lie at greater depth.Sr and Nd isotopic data (⁸⁷Sr/⁸⁶Sr 0.70357–070406,¹⁴³Nd/¹⁴⁴Nd 0.51283–0.51289) indicate a mantle source with relative LREE depletion, and emphasise an unusual degree of uniformity in Indian Ocean island sources. A small group of lavas with strong HREE enrichment suggest a garnet-poor source for these, while high overall Al₂O₃/ CaO ratios imply high clinopyroxene/garnet ratios in refractory residua.     

Petrology and geochemistry of komatiites and tholeiites from Gorgona Island,Colombia

Komatiitic rocks from Gorgona Island, Colombia, in contrast to their Archaean counterparts, occur as rather structureless flows. In addition, textural and mineralogical features indicate that the Gorgona komatiites may have crystallized from superheated liquids. Komatiitic rocks have MgO contents which range from 24 to 11 wt.% and plot on well-defined olivine (Fo₉₀) control lines. Calculations show that potential evolved liquids (MgO<11 wt%) will be SiO₂-poor. Komatiites, in this case, cannot be regarded as parental to the associated tholeiitic basalt sequence.On the basis of REE concentrations and Sr, Nd isotopic compositions, the associated basalts are found to be of two types. One type (K-tholeiite) is characterized by noticeably fractionated REE patterns and relatively primitive isotopic compositions similar to those of the komatiites. K-tholeiites, together with komatiites, are regarded as comprising a distinctive komatiitic suite. REE patterns within this suite show progressive depletion in the LREE from K-tholeiites to komatiites, and represent increasingly higher degrees of melting of the same mantle source region. The other type (T-tholeiite), representative of the bulk of the exposed basalt sequence, has flat REE patterns and relatively evolved isotopic compositions. This tholeiitic suite is clearly genetically unrelated to the komatiitic suite.     

Petrology and geochemistry of the Banks Peninsula volcanoes,South Island,New Zealand

Within the volcanic sequence of the twin volcanoes of Lyttelton and Akaroa, Banks Peninsula, New Zealand a number of different magma series have been distinguished.An early series of hawaiites (McQueens Valley Formation) was erupted about 32 m.y. ago and is of transitional or mildly tholeiitic chemistry. Stratigraphically above the McQueens Valley Formation, but unconformably overlain by the main volcanic dome sequence, is a unit of rhyolite (Gebbies Pass Rhyolites) which is not directly related to the earlier or later basaltic volcanism. The rhyolite was probably formed during intracrustal melting which was related to the rise of basaltic magma into the crust.Between 12 and 9.7 m.y. a large volcanic dome, composed mainly of hawaiite, was built at Lyttelton. Dykes, which intrude the Lyttelton volcanic sequence, range in composition from basalt to trachyte. Late, mildly alkalic, basaltic flank flows (7.5–5.8 m.y.) occur in several areas and they, and the differentiated rocks of the dyke swarm can be related by a crystal fractionation model which has been quantitatively tested.Following construction of the Lyttelton dome a second larger dome was built at Akaroa between 9 and 7.5 m.y. The rocks of the Akaroa Volcano are principally hawaiites but rocks ranging in composition through to trachyte also occur. The differentiated rocks of the Akaroa volcano have derived from the basaltic rocks by a crystal fractionation controlled process, operating during ascent through the crust.None of the Banks Peninsula basalts appear to have derived from primitive (pyrolitic) mantle material, but progressive changes in the chemistry of the basalts with time implies that the mantle source regions were evolving geochemically as partial melting proceeded. Later lavas tend to be more alkalic and to have lower MgO/FeO ratios than earlier lavas. The volcanic rocks of the Banks Peninsula volcanoes were derived by fractional removal of olivine, plagioclase, clinopyroxene, magnetite and apatite from ascending basaltic magma batches. Variations between the suites reflect differences between the parental magma batches.     

Archaeological stone of Easter Island

With the scarcity of other resources, stone assumed great importance in the culture of Easter Island. The volcanic rocks display a compositional continuum paralleled by changes in physical characteristics. The most abundant rock type, porphyritic hawaiite, was the least useful as it is poorly jointed and difficult to work. Mugearites and benmoreites usually have a flaggy structure and were used as dressed stone in the early ahu, in the houses of Orongo and in stone implements. Rhyolitic obsidian was used for scrapers, knives, and a variety of weapons, especially the tanged mataa. Statue carving reached its zenith on Easter Island largely because of the availability of a suitable rock type, the Rano Raraku tuff. The tuff was not erupted from the present Rano Raraku crater but from another vent southeast of the surviving portion of the cone. Red scoria from Puna Pau was quarried for the topknots. © 1993 John Wiley & Sons, Inc.     

Petrology and geochemistry of peridotites and associated vein rocks of Zabargad Island,Red Sea,Egypt

Summary Zabargad (St. John's) Island in the Red Sea contains three ultramafic bodies, one of which bas produced the famous gem olivine (peridot). The ultramafic rock types consist of two major groups—the peridotites and the vein rocks within them. The peridotites are divided into three groups: primitive, depleted and metasomatized. The primitive peridotites are the most abundant and are represented by mainly pristine spinellherzolites which have chemical compositions representative of the subcontinental upper mantle. The depleted peridotites are mainly harzburgites and nome dunites and both are similar to worldwide occurrences. The most depleted peridotites also appear to have the greatest metasomatic additions of incompatible elements, as has been noted at other localities. Metasomatic additions were clearly accompanied by tectonic shearing. Metasomatism included infiltration of incompatible elements and the formation of porphyroblasts of clinopyroxene, amphibole, Al-spinel and plagioclase; il took place under a variety of p-T conditions and with fluids of differing compositions.The vein rocks are mainly monomineralic and comprise olivinites, orthopyroxenites, clinopyroxenites, websterites, hornblendites and plagioclasites. These rocks are believed to have formed from fluids similar to that which metasomatized the host rock, rather than by some kind of igneous process. The fluids were derived from peridotite reservoirs (fertile and depleted) and apparently were in equilibrium with these reservoirs. Highly abundant fluid inclusions document the hypersaline and CO₂-dominated character of these fluids. Monomineralic vein rocks are closely associated with metasomatic and tectonic processes, and there is a complete transition between metasomatic impregnation and formation of vein rocks. These processes may have also been active in other peridotite bodies of the world, as was earlier recognized and documented in the Seiad Ultramafic Complex, California. Metasomatism is evident along clinopyroxenite and hornblendite veins, whereas orthopyroxenites, olivinites and plagioclasites do not show any interaction with the wall rocks. Olivinites are probably the latest (lowest p-T) vein rock type, and the latest olivine which formed within their open cavities became the gem peridot.Zabargad ultramafic rocks preserve relic phases indicating an initial depth of origin greater than 85 km. Clinopyroxenites preserve the memories of the highest p-T conditions and they may be the first vein rock type formed in the peridotites. The p-T path of uplift coincides with the oceanic geotherm at great depth but deviates systematically from it with falling pressure in a series of tectonic stages accompanied by metasomatism and recrystallization. The p-T and petrologic history indicates rapid uplift, a feature which is supported by extensive contact metamorphism of the associated metasediments.

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Petrologie und Geochemie der Peridotite und der mit diesen vergesellschafteten Ganggesteine der Insel Zabargad, Rotes Meer, Ägypten

Zusammenfassung Auf der Insel Zabargad (St.John's Island) im Roten Meer befinden sich drei Peridotit-Körper von denen einer seit Jahrtausenden den berühmten Peridot (Edelolivin) geliefert hat. Die ultramafischen Gesteine von Zabargad gliedern sich in zwei Hauptgruppen: die Peridotite und die mit diesen vergesellschafteten Ganggesteine. Die Peridotite können in drei Gruppen gegliedert werden: die primitiven, die verarmten und die metasomatisch veränderten Peridotite. Am meisten verbreitet auf Zabargad sind die primitiven Peridotite. Diese sind meist Spinell-Lherzolithe mit einer chemischen Zusammensetzung, welche dem subkontinentalen Oberen Erdmantel entspricht. Die verarmten Peridotite werden hauptsächlich von Harzburgiten und einigen wenigen Duniten repräsentiert. Beide sind jenen aus anderen Vorkommen der Welt sehr ähnlich. Die am stärksten verarmten Peridotite scheinen auch die stärksten metasomatischen Veränderungen erfahren zu haben—ein Trend, der auch schon an anderen ultramafischen Komplexen erkannt wurde. Metasomatische Anreicherungen inkompatibler Spurenelemente sind häufig direkt mit tektonischer Verformung und Kataklase gekoppelt. Die Metasomatose ist als Infiltration inkompatibler Elemente erkennbar und führte auch zur Bildung von Porphyroblasten von Klinopyroxen, Amphibol, Al-Spinell und Plagioklas. Diese Bildungen fanden unter verschiedenen p-T-Bedingungen statt und erfolgten durch Fluide mit unterschiedlichen Zusammensetzungen.Die (meist ultramafischen) Ganggesteine sind häufig monomineralisch und umfassen Olivinite, Orthopyroxenite, Klinopyroxenite, Websterite, Hornblendite und Plagioklasite. Wir glauben, daß diese Gesteine von Fluiden gebildet wurden, welche ähnlich jenen waren, die die Metasomatosen der Peridotite verursachten. Diese Genese wird von uns der magmatischen vorgezogen. Die Fluide stammten aus peridotitischen Reservoiren (fertilen und verarmten) und waren mit diesen offenbar im Gleichgewicht. Die Ganggesteine sind sehr reich an fluid inclusions, welche allerdings keine Flüssigkeit enthalten, sondern nur Festkörper (Salze) und CO₂ (± N₂), also einen trockenen, hypersalinen Charakter haben. Auch die monomineralischen Ganggesteine sind eng mit tektonischen Prozessen verknüpft und somit auch mit metasomatischen Prozessen. Es existieren vollkommene Übergänge von metasomatischen Imprägnationen bis zu echten Ganggesteinen. Solche Prozesse waren offensichtlich auch weltweit in anderen ultramafschen Komplexen aktiv und wurden schon im Seiad Ultramafc Complex in Kalifornien erkannt und beschrieben. Metasomatismus begleitet überlicherweise die Klinopyroxenit- und Hornblendit-Gänge. Orthopyroxenite, Olivinite und auch Plagioklasite zeigen jedoch keine Wechselwirkung mit den Wirtgesteinen. Olivinite sind wahrscheinlich die zuletzt gebildeten Ganggesteine. Der zuletzt sich bildende Olivin wurde der schönste und zum gesuchten Peridot.Alle ultramafschen Gesteine von Zabargad enthalten Minerale aus verschiedenen Bildungsepochen. Einige Relikte erinnern an eine Herkunft aus einer Tiefe von mehr als 85 km. Klinopyroxenite konservierten die höchsten p-T-Bedingungen. Sie waren daher wahrscheinlich die ersten (noch erhaltenen) Ganggesteine, welche sich im peridotitischen Erdmantel unterhalb des heutigen Roten Meeres bildeten. Der p-T-Pfad der Zabargad Ultramafitite deckt sich in großer Tiefe mit der ozeanischen Geotherme. Mit abnehmender Tiefe entfernt sich dieser Pfad allerdings zunehmend von der Geotherme und läßt eine Reihe von tektonischen Aktivitäten verbunden mit Metasomatose und Rekristallisation erkennen. Die p-T-Geschichte der Zabargad Ultramaftite deuten auf einen raschen Aufstieg aus dem Erdmantel hin. Diese Daten werden durch die weitverbreitete und intensive Kontaktmetamorphose der mit den Peridotiten assoziierten Metasedimenten unterstützt.

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Dedicated to Prof. Josef Zemann on the occasion of his 70th birthday

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With 12 Figures     

Discovery tablemount basalt: Petrology and geochemistry

Dredged porphyritic basalt from the Discovery Tablemount, South Atlantic Ocean, has been described and analysed, and the rare earths determined. The basalt is a quartznormative tholeiite but mineralogically and chemically (including trace elements) has affinities with alkali basalt; the pyroxene trend falls between those of alkali basalts and Hawaiian tholeiites. In addition to reverse zoned labradorite phenocrysts, corroded feldspar xenocrysts are present, ascribed to pressure fluctuations. The basalt has an alteration rind showing chemical variations which in general agree with other published data; surprisingly, however, the rind shows a loss of potash. There is noticeable enrichment in the lighter rare earth elements and an unusually high [La/Sm]_E.F ratio; when taken together with the tablemount's position near known hotspots, this evidence leads to the suggestion that the basalt derived from a small mantle plume. The age of the basalt capping is 25 m.y., compared with 67 m.y. for the nearest magnetic anomaly. It is suggested that, unless the tablemount was intrusive, it may have drifted to its present postion from a point over a fixed mantle hotspot with which, however, it remained in contact through a thermal and hydrodynamical channel.     

南秦岭富钠长石岩石的岩石学和地球化学研究

钠长石岩是秦岭造山带中的一类特色岩石,主要分布于南秦岭凤-太、山-柞和镇-旬盆地的泥盆纪和志留纪地层中,与秦岭众多大中型铅锌矿、金矿成矿关系密切。钠长石岩呈层状、似层状产于碎屑岩或碳酸盐岩岩系中,与区域地层整合产出,渐变过渡。具有条带状、块状、角砾状构造;XRF分析数据显示钠长石岩化学成分以富Na2O、Al2O3、SiO2等常量元素及Pb、Zn、Au、Ag、Cu等微量元素为特征;富含元素Ba和Fe-Mn-(Co+Cu+Ni)×10分布图投影表明钠长石岩具有热水沉积的特征。而TiO2与Al2O3关系图解又反映出钠长石岩中有陆源碎屑物混入的特点,其Ti、Al可能来自水成沉积物中的粘土;ICP-MS分析所得稀土元素数据显示,钠长石岩与地层稀土元素在稀土总量、轻重稀土量和配分模式均十分相似,其较高∑REE就是成岩过程中水成沉积物混入造成的。富钠长石岩石在形成时间上发生在沉积和早期成岩阶段,与正常沉积岩同时形成。兼具有正常沉积岩石和热水沉积岩石的特点,是一种有别于二者的混合型非典型热水沉积岩石。研究认为钠长石岩是由一种富钠和金属元素的热水通过对地层元素的萃取并与海底未固结沉积物混合而成的混合热液经沉积成岩作用形成的。     

Petrology,geochemistry and genesis of Kuiqi granite batholith

The Kuiqi granite batholith outcrops in the vicinity of Fuzhou City, Fujian Province and constitutes one of the typical alkali granitic complexes in the “Belt of Miarolitic Granites” extending along the southeast coast of China. The complex is believed to have been emplaced at higher levels of the crust in a tensional fault environment. Petrographically it is composed mainly of aegirine-arfvedsonite granites with early biotite granites scattered. Miarolitic structure and granophyric texture are commonly observed. The Rb-Sr isochron age of the complex is 107.65 m.y. Both petrological and petrochemical studies show that the Kuiqi granite is of A-type. Data on chemical composition, REE pattern and transition elements reveal that there is a close genetic connection between granites and associated volcanic rocks. Thus, syntexistype (I-type) granite, A-type granite and volcanic rocks form a cogenetic “trinity”, in which the A-type granite is usually the latest member of the volcanic-intrusive series.     

The Late Quaternary vegetational and climatic history of Easter Island

Easter Island occupies an exceptionally isolated position in the south Pacific Ocean. It is entirely volcanic, and is famous for its giant statues. Late Quaternary sediments have been investigated in three craters: Rano Raraku, Rano Aroi and Rano Kao, giving a continuous record over the past 30 Ka. Pollen records indicate that the island was formerly forested. Palynological and sedimentological evidence suggests a Late Pleistocene climate slightly cooler and drier than the present. Deforestation by people occurred mainly between 1200 and 800 yr BP. This may have led to an ecological disaster and to the decline of the megalithic civilization. The depauperation of the present native flora owes more to human activity than to isolation.     

Petrology and geochemistry of the Fishguard Volcanic Complex,Wales

The Fishguard Volcanic Complex represents an important volcanic episode which occurred within the Welsh sector of the British Caledonide region during early Ordovkian times. A variety of extrusive and contemporaneous intrusive rocks are present, ranging in composition from basic, through intermediate to acidic. Mineral and whole-rock chemical analyses have been determined on a representative suite of rocks from the complex and, despite secondary alteration effects, the original tholeiitic characteristics of the suite can be discerned. The variation observed is considered to result largely from low-pressure crystal fractionation, although the origin of the acidic magma remains speculative in view of subsequent extensive recrystallization. The rocks of the Fishguard Volcanic Complex formed in the Welsh Basin, which has been likened by earlier workers to a marginal basin. Comparison of the geochemical characteristics of the Fishguard Volcanic Complex with that of documented marginal basin rocks appears to favour this contention.     

Petrology and trace element geochemistry of the Papuan Ultramafic Belt

New petrologic and geochemical data are presented for a suite of rocks from the Papuan Ultramafic Belt (PUB), Papua New Guinea. Tectonite harzburgites at the base of the ophiolite have extremely refractory, uniform mineralogy, and are exceptionally depleted in lithophile elements. These features are consistent with the proposed origin of these rocks as depleted upper mantle, residual after extraction of a basaltic melt. The tectonite peridotites are overlain by a thick sequence of layered ultramafic and mafic cumulates containing olivine, orthopyroxene, clinopyroxene and plagioclase as the major cumulus phases. Early cumulates are characterized by magnesian olivine Mg₉₀, orthopyroxene Mg₉₀ and calcic plagioclase An₈₆, and exhibit cryptic variation towards more iron-rich and sodic compositions. Abundances of incompatible elements in the cumulates are extremely low which, together with the nature of the cumulus phases, points to a magnesian olivine-poor tholeiite or magnesian quartz tholeiite parent magma(s) strongly depleted in incompatible elements. Highly fractionated iron-rich products of this parent magma type are represented by the LREE-depleted lavas in the overlying basalt sequence which, although resembling the most depleted mid-ocean ridge basalts (MORB) in terms of their low abundances of incompatible elements, have higher abundances of transition metals and lower abundances of Ti, HREE and other high valence cations compared to common MORB of similar Mg/(Mg+Fe) ratio.Eocene tonalites intruding the PUB are genetically unrelated to the ophiolites, and appear to be related to the Ti-poor high-Mg andesites of Cape Vogel and similar andesites and dacites at the northern end of the PUB. These rocks are considered to represent the early stages of island-arc magmatism associated with a northeastward-dipping subduction zone in the early Eocene immediately prior to emplacement of the PUB.     

俄罗斯贝加尔裂谷带中呼兰霍博克火山岩岩石学及地球化学研究

位于贝加尔裂谷带通京盆地中的呼兰霍博克火山火山锥由火山弹、火山灰等火山碎屑岩和基性熔岩(橄榄玄武岩)组成.橄榄玄武岩中橄榄石可分为具有较高Mg#值的捕虏晶和Mg#值相对较低的斑晶.部分斜长石斑晶具有核.幔.边结构,且幔部发生减压分解,一些单斜辉石晶体(俘虏晶)边部发生了减压分解.根据岩石的化学成分,该玄武岩属于橄榄粗玄岩系列,轻稀土强烈富集,重稀土相对亏损,轻重稀土之间分异较大,具有与OIB相似的微量元素和同位素地球化学特征.岩石学和元素地球化学研究表明,该橄榄玄武岩的源区和岩浆的形成可能与地幔柱活动有关;岩浆演化经历了压力骤减的过程,在岩浆快速上升过程中,深部形成的矿物(可能是地幔矿物的俘虏晶)减压分解.快速上升的岩浆几乎未受大陆地壳的混染,仅捕获了少量流纹质熔体.     

纳米比亚欢乐谷地区白岗岩岩石学及地球化学特征

对纳米比亚欢乐谷地区的白岗岩进行了详细的岩石学和地球化学特征研究,初步讨论了白岗岩成因。研究结果表明,欢乐谷地区白岗岩的矿物组成和化学成分显示了较大的变化范围,白岗岩岩性主要为正长花岗岩和二长花岗岩,部分为碱长花岗岩、英云闪长岩和花岗闪长岩等。根据岩石和矿物的颜色、结构、矿物学特征、矿化特点等,可将其划分为A、B、C、D、E、F 6种类型,并且从A类至F类,白岗岩的形成时间顺序为由早到晚。白岗岩具有高硅、高碱和低锰、镁、钠、磷、钙的特点,为高钾钙碱性系列钾玄岩系列的准铝质过铝质岩石。不同类型的白岗岩主量元素特征未显示出它们是同源岩浆演化的产物,而可能是达马拉造山运动晚期构造演化不同阶段的产物。     

Petrology and geochemistry of hawaiite lavas from Crater Flat,Nevada

Hawaiite-type lavas were erupted in three cycles (3.7, 1.2, and 0.3 M.y.) at Crater Flat, Nevada. The compositions of all three cycles, considered together, form a straddling alkalic series as defined by Miyashiro, in which the less evolved basalts plot near the normative olivine-diopside divide and the more evolved basalts project into hypersthene or nepheline fields. Fractionation modeling based on the oldest cycle allows the removal of olivine, clinopyroxene, and amphibole to arrive at the more evolved hawaiite compositions. In general, fractionation of phlogo-pite or feldspar is limited by the fractionation modeling and by Eu/REE relations. In detail, all hawaiites within one cycle (3.7 M.y.) need not be derived from a single parent magma. Varied parentage is more evident between cycles although all cycles are consistently of hawaiite composition. Basalts of the youngest two cycles are generally enriched in trace elements. Superimposed on this enrichment is a lack of Rb variation, leading to Rb/Sr ratios far lower than required to generate the high ⁸⁷Sr/⁸⁶Sr ratio (0.707) typical of basalts in this region. The very low Rb/Sr ratios limit processes that may lead to trace-element enrichment during magma evolution (cyclic recharge of a fractionating magma chamber). Decreased fractions of mantle melting leaving phlogopite in the residuum or an earlier event of metasomatic transport from phlogopite-bearing mantle rocks into a phlogopite-absent mantle assemblage might explain the observed trace-element enrichment with low Rb/Sr.     

Petrology, geochemistry and genesis of rift-related carbonatites of Ambadungar, India

Summary The Ambadungar (Amba Dongar) alkaline carbonatite complex is emplaced in the Deccan traps igneous province. A wide range of carbonatites and alkaline rocks are exposed around Ambadungar. The alkaline rocks have been classified as tinguaite, phonolite and/or phononephelinite, melanephelinite, and syenite and/or nepheline syenite whereas carbonatites vary from calcio-carbonatites to ferro- and silicocarbonatites. The enrichment in large-ion lithophile elements (LILE), P, and rare-earth elements (REE) in carbonatites is considered to result from fractionation of a mantle derived magmatic liquid, i.e. nephelinitic magma, by liquid immiscibility which also produced melanephelinite and/or phononephelinite with high field strength elements (HFSE) such as Ca, Mg, Fe, and Mn in the alkaline silicate liquid fraction. The La:Lu ratios of the carbonatites are typical of igneous rocks and vary between 590 and 1945, similar to many known magmatic carbonatites. The ¹³C concentration varies between –2 and –8 whereas ¹⁸O-values vary between 7.7 and 26.8. The ¹³C concentration is typical of primary igneous carbonatites but ¹⁸O enrichment is thought to be the result of post-magmatic processes such as interaction with meteoric water and re-equilibration with hydrous fluids at low temperatures.

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Petrologie, Geochemie und Genese der riftgebundenen Karbonatite von Ambadungar, Indien

Zusammenfassung Der Ambadungar (Amba Dongar) Alkalikarbonatit-Komplex liegt in der magmatischen Deccan Provinz. Er umfaßt eine Vielzahl von karbonatitischen und alkalischen Gesteinen, die in der Umgebung von Ambadungar aufgeschlossen sind. Die Alkaligesteine sind als Tinguaite, Phonolite und/oder Phononephelinite, Melanephelinite, Syenite und/oder Nephelinsyenite zu klassifizieren, die Karbonatite als Calcio-, bis Ferro- and Silicokarbonatite. Die Anreicherung an LIL-Elementen und Seltenen Erden in den Karbonatiten werden als das Ergebnis der Fraktionierung von Mantelschmelzen, i.e. eines nephelinitisches Magmas, infolge von Nichtmischbarkeit interpretiert. Melanephelinite und/oder Phononephelinite and hohe Gehalte an HFS-Elementen (Ca, Mg, Fe and Mn) in der alkalisch-silikatischen Schmelzfraktion sind ebenfalls das Ergebnis dieser Prozesse. Die La/Lu-Verhältnisse sind typisch für magmatische Karbonatite and variieren zwischen 590 and 1945. Die ¹³C Konzentrationen variieren zwischen -2 and -8 %o, die ¹⁸O Werte zwischen 7.7 and 26.8 %0. Während die ¹³C Konzentration typisch für primär magmatische Karbonatite ist, ist die ¹⁸O-Anreicherung mit postmagmatischen Prozessen, wie etwa die Interaktion mit meteorischen Wässern and die Reequilibration mit niedrig temperierten wäßrigen Fluiden, erklärbar.

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with 11 figures     

Kimberlites and lamproites of the East European Platform: Petrology and geochemistry

Several episodes of kimberlite magmatism occurred in the East European Province (EEP) during a long (about 1.5 Gyr) time period, from the Late Paleoproterozoic (ca. 1.8 Ga) in the Archean Ukrainian and Baltic shields to the Middle Paleozoic (ca. 0.36 Ga) mainly in the Arkhangelsk, Timan, and adjacent regions. Based on the analysis of data on 16 kimberlite occurrences and four lamproite occurrences within the EEP, five time stages can be distinguished; one of them, the Middle Paleozoic stage (Middle Ordovician and Devonian), is the most productive epoch for diamond in the northern hemisphere (EEP, Siberian Craton, and part of the China Craton). The analysis of petrological and geochemical characteristics of kimberlites (lamproites were studied less thoroughly) revealed variations in rock composition and their correlation with a number of factors, including the spatial confinement to the northern or southern Archean blocks of the craton, time of formation of the source of kimberlite melts, contents of volatiles and autoliths, etc. Three petrogeochemical types of kimberlites were distinguished: high-, medium-, and low-Ti (TiO₂ > 3 wt %, 1–3 wt %, and <1 wt %, respectively). There are two time intervals of the formation of kimberlite and lamproite sources in the EEP, corresponding to T_Nd(DM) values of about 2 Ga (up to 2.9 Ga in the Por’ya Guba occurrence) and 1 Ga. The latter interval includes two groups of occurrences with model source ages of about 1 Ga (low-and medium-Ti kimberlites of the Zolotitsa and Verkhotina occurrences) and about 0.8 Ga (high-Ti kimberlites of the Kepino and a number of other occurrences); i.e., there seems to be an evolutionary trend in the composition of kimberlites. Concentric zoning patterns were recognized. The role of the crust in kimberlite sources is discussed; it is assumed that buried remnants of the oceanic lithosphere (megaliths) may underlie whole continents. A unique feature of the composition of low-Ti kimberlites, for instance, kimberlites of the Zolotitsa occurrence (to a smaller extent, medium-Ti kimberlites of the V. Grib pipe) is the distinct depletion of highly charged elements and pronounced negative anomalies of Ti, Zr, Th, U, Nb, and Ta in trace-element distribution patterns, which indicates a contribution of crustal material to the source of these kimberlites. It was shown that autoliths exert a significant influence on the differentiation of kimberlite material, resulting in the enrichment of rocks in the whole spectrum of incompatible elements. It was argued that geochemical criteria can be used together with traditional criteria (including those based on indicator minerals) for the assessment of diamond potential in EEP occurrences. We hope that such a combined approach will yield important outcomes in the future.     

Petrology and geochemistry of Camiguin Island, southern Philippines: insights to the source of adakites and other lavas in a complex arc setting

Camiguin is a small volcanic island located 12 km north of Mindanao Island in southern Philippines. The island consists of four volcanic centers which have erupted basaltic to rhyolitic calcalkaline lavas during the last ∼400 ka. Major element, trace element and Sr, Nd and Pb isotopic data indicate that the volcanic centers have produced a single lava series from a common mantle source. Modeling results indicate that Camiguin lavas were produced by periodic injection of a parental magma into shallow magma chambers allowing assimilation and fractional crystallization (AFC) processes to take place. The chemical and isotopic composition of Camiguin lavas bears strong resemblance to the majority of lavas from the central Mindanao volcanic field confirming that Camiguin is an extension of the tectonically complex Central Mindanao Arc (CMA). The most likely source of Camiguin and most CMA magmas is the mantle wedge metasomatized by fluids dehydrated from a subducted slab. Some Camiguin high-silica lavas are similar to high-silica lavas from Mindanao, which have been identified as “adakites” derived from direct melting of a subducted basaltic crust. More detailed comparison of Camiguin and Mindanao adakites with silicic slab-derived melts and magnesian andesites from the western Aleutians, southernmost Chile and Batan Island in northern Philippines indicates that the Mindanao adakites are not pure slab melts. Rather, the CMA adakites are similar to Camiguin high-silica lavas which are products of an AFC process and have negligible connection to melting of subducted basaltic crust. Received: 27 February 1998 / Accepted: 27 August 1998