Un nouveau gisement de granite orbiculaire dans le Massif Central français: le granite du Signal de Randon (Lozère)     

Jean -Pierre Couturié 《Contributions to Mineralogy and Petrology》1973,42(4):305-312

This orbicular granite contains ovoïds of an exceptional composition, comprising a core of biotite, surrounded by an envelope of plagioclase, enclosed in turn by an envelope of potassium feldspar. The latter also occurs as isolated idiomorphic megacristals between the ovoïds.Because of the spectacularly clear mineralogical relationships of the rock, it is possible to work out the order of crystallization of the minerals, the magmatic differentiation of syenitic orbicules and that of the leucogranitic groundmass with an aplito-pegmatitic texture.A magmatic process is proposed to explain the origin of the rock.

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Les déterminations de l'indice de triclinicité des feldspaths potassiques ont été effectuées par Yves Blanc, Clermont-Ferrand (diffractométrie X, d'après G. Sabatier, 1963).  相似文献   

Contribution to the crystal chemistry of beryl     

H. de Almeida Sampaio Filho  G. P. Sighinolfi  E. Galli 《Contributions to Mineralogy and Petrology》1973,38(4):279-290

Chemical analyses and crystallographic and some optical data have been obtained for 28 samples of beryl from Bahia State, Brazil. The larger range of variability in the chemical composition is shown by Mg, Fe and Li. Sodium is the more diffuse alkali element. Potassium is always very limited. Calcium appears in noticeable amounts only in three samples. The Ti, Cr, Rb, and Cs elements were also tested. The samples studied here can be defined as sodium-potassium beryls with low alkali content. Unit cell parameters show the following ranges: a=9.210–9.245 and c=9.190–9.220 Å. From a statistical analysis of these data it may be seen that: an increase of Fe and (Fe+Mn+Mg) percentage has a positive correlation with a, but no influence on c, which in turn has a close positive correlation with Li and is negatively correlated with Be. Less negative correlations also exist between the pairs {Be, Li}, {a,Al}, {Al, Fe} and {Al, (Fe+Mn+Mg)}. A positive correlation also exists between sodium and the parameter a.  相似文献   

Major-element vapor fractionation on the lunar surface: An unusual lithic fragment from the Luna 20 fines     

Eric Dowty  Klaus Keil  Martin Prinz 《Earth and Planetary Science Letters》1973,21(1):91-96

A 250-μm fragment in the Luna 20 fines has a very fine-grained “igneous” texture and has the composition (wt.%): SiO₂, 41.1; TiO₂, 0.35; Al₂O₃, 27.2; Cr₂O₃, 0.14; FeO, 4.2; MnO, 0.06; MgO, 8.5; CaO, 17.8; Na₂O, 0.05; and K₂O < 0.02. It contains ～ 65% plagioclase An_99–100, ～ 15% olivine Fo₉₀, ～ 2% Mg-Al spinel and the remainder an unusual interstitial phase with composition SiO₂, 34.8; TiO₂, 1.78; Al₂O₃, 18.3; Cr₂O₃, 0.04; FeO, 14.1; MnO, 0.22; MgO, 5.0; CaO, 24.1; Na₂O, 0.34; K₂O < 0.02. This fragment probably represents a portion of a normal highland rock (anorthositic norite) which was heated to a very high temperature by impact, lost volatiles including SiO₂, and then partially crystallized. The observed phases and their inferred crystallization sequence are consistent with experimental results in the system CaOMgOAl₂O₃SiO₂ (Schairer and Yoder, 1969), assuming the unusual phase to be a residual glass. This type of internal fractionation, leading to silica depletion in the residuum, is different from that normally observed in lunar rocks and is attributed to slightly lower bulk SiO₂ resulting from vapor fractionation due to impact (which also results in lower Na₂O and other volatiles). Because differentiation of the type shown by this fragment is rare in lunar materials, we infer that such major-element vapor fractionation is uncommon on the surface of the moon. The experimental CaOMgOAl₂O₃SiO₂ phase relations also have a bearing on the lunar model proposed by D.L. Anderson in 1973: his “refractory” original lunar composition would differentiate to produce silica deficient liquids, like the unusual phase in our fragment, rather than the normal lunar crustal rocks.  相似文献   

The elemental composition of plankton     

John H. Martin  George A. Knauer 《Geochimica et cosmochimica acta》1973,37(7):1639-1653

Phytoplankton samples, collected in Monterey Bay, California, were analyzed for their Pb, Hg, Cd, Co, Ag, Cr, Ti, V, Mn, Ni, Cu, Fe, Zn, AI, Mo, Ba, Sr, K, Ca, Mg, Na and SiO₂ content. The results of these analyses were categorized on a chemical basis and the sample data were placed in three groups: Group I, Ti not detected; Group II, Ti detected; and Group III, Sr concentrators present. Levels of most elements were higher in Groups II and III for a variety of reasons that are discussed in the text. The siliceous frustules, remaining after organic-matter digestion, were also analyzed for the elements listed above. Significant amounts of Al, Ti, Fe, Mn, Cu and Zn were found.Zooplankton and microplankton samples, collected in Monterey Bay, California; off the coast of Oregon; and on a transect between Hawaii and Monterey, were also analyzed for the elements listed above (except Si). In general, element levels in the inshore and offshore zoo-plankton were similar; however, the microplankton samples, in which strontium was highly concentrated, were almost always higher in Pb, Hg, Cu, Fe and Zn.  相似文献   

Oxide minerals in lithic fragments from Luna 20 fines     

Robin Brett  R.C Gooley  Eric Dowty  Martin Prinz  Klaus Keil 《Geochimica et cosmochimica acta》1973,37(4):761-773

One hundred and seventy-six oxide mineral grains in the Luna 20 samples were analyzed by electron microprobe. Spinel is the most abundant oxide, occurring in troctolite fragments. Next most abundant is ilmenite, which occurs in all rock types except those containing spinel. Chromite also occurs in all rock types except those containing spinel. Minor amounts of ulvöspinel, armalcolite, zirkelite, baddeleyite and an unidentified TiO₂-rich phase were also found.Spinel grains are predominantly spinel-hercynite solid solutions, commonly with very minor chromite. The $\text{Fe}\text{(Fe + Mg)}$ ratio is generally lower than in spinel from Apollo 14 rocks. Chromites in non-mare rocks are similar to those from mare rocks. Ilmenite of mare origin is Mg-poor and Zr-rich compared to non-mare ilmenite; these elements may therefore be useful in determining the origin of ilmenite grains.Phase equilibria considerations suggest that spinel troctolite crystallized from a melt high in alumina; a likely candidate is the high-alumina basalt of Prinzet al. (1973a).Sub-micron wide rods of metallic Fe occur in plagioclase grains and may have formed by sub-solidus reduction processes.  相似文献   

Chemical composition of Luna 20 soil and rock fragments     

Dominique Y. Jérome  Jean-Claude Philippot 《Geochimica et cosmochimica acta》1973,37(4):909-914

Abundances of 22 elements, including 9 rare earth elements (REE), have been determined by ‘monostandard’ instrumental neutron activation analysis of samples from the Luna 20 soil and in 6 rock fragments, including a crystalline rock of highland origin, a breccia of similar composition, a glass and a feldspar grain. The soil appears to have been contaminated with W and Mo. The REE content of the soil is very low, being close to 2.3 times below the level in the Luna 16 soil. Sampling errors, for most elements, are negligible in the case of analyses performed on one or several tens of mg of soil, but they become significant on crystalline rock fragments in the 1–2 mg range.  相似文献   

Mineralogy,petrology and chemistry of lithic fragments from Luna 20 fines: origin of the cumulate ANT suite and its relationship to high-alumina and mare basalts     

Martin Prinz  Eric Dowty  Klaus Keil  T.E Bunch 《Geochimica et cosmochimica acta》1973,37(4):979-1006

Bulk analyses of 157 lithic fragments of igneous origin and analyses of their constituent minerals (plagioclase, pyroxene, olivine, Mg-Al spinel, chromite, ilmenite, armalcolite, baddeleyite, zirkelite, K-feldspar, interstitial glass high in SiO₂ and K₂O) have been used to characterize the lunar highland rock suites at the Luna 20 site. The predominant suite is composed of ANT (anorthositic-noritic-troctolitic) rocks, as found at previous Apollo and Luna sites. This suite consists of an early cumulate member, spinel troctolite, and later cumulate rocks which are gradational from anorthosite to noritic and troctolitic anorthosite to anorthositic norite and troctolite; anorthositic norite is the most abundant rock type and its composition is close to the average composition for the highland rocks at this site. Spinel troctolite is a distinctive member of this suite and is characterized by the presence of Mg-Al spinel, magnesian olivine (average, Fo₈₃), and plagioclase. High-alumina basalt with low alkali content is another important rock type and melt of this composition may be parental to the cumulate ANT suite. Alkalic high-alumina basalt (KREEP) was not found in our sample, but may be genetically related to the ANT suite in that it may have formed by partial melting of rocks similar to those of the ANT suite. Fractional crystallization of low alkali, high-alumina basalt probably cannot produce alkalic high-alumina basalt because the enrichment in KREEP component is many times greater than the simultaneous change in major element components. Formation of alkalic high-alumina basalt by mechanical mixing of ANT rocks with very KREEP-rich components is not likely because the high-alumina basalt suite falls on a cotectic in the anorthiteolivine-silica system. Mare basalts may also be genetically related in that they may have been derived by remelting of rocks formed from residual liquids of fractional crystallization of parental low-alkali, high-alumina basalt, plus mafic cumulate crystals; the resultant melt would have a negative Eu anomaly and high $\text{Fe}\text{Mg}$ and $\text{pyroxene}\text{plagioclase}$ ratios.  相似文献   

On the disturbance due to a spherical distortional pulse in an elastic medium     

Sarva Jit Singh  Martin Rosenman 《Pure and Applied Geophysics》1973,110(1):1946-1954

Summary Theoretical expressions are derived for the displacement, velocity and stress in the time domain induced by an axially symmetric shearing stress applied at the inner surface of a spherical cavity in a hornogeneous, isotropic, elastic medium of infinite extent. Theoretical seismograms are computed for a step source and for three sources with exponential decay in time. A satisfactory time-dependence of the source can be obtained by combining the step source with one or more exponentially decaying sources.  相似文献   

Bacterial Movement Through Fractured Bedrock   总被引：1，自引：0，他引：1  

Martin J. Allen  S. M. Morrison 《Ground water》1973,11(2):6-10

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Precambrian geology of the Adirondack highlands,a reinterpretation     

Prof. Dr. D. de Waard  Dr. M. Walton 《International Journal of Earth Sciences》1967,56(1):596-629

The Precambrian geology of the Adirondack highlands was previously interpreted as a sedimentary terrane repeatedly invaded during the Grenville orogenic cycle by igneous intrusions to form successively the large anorthosite massif and satellites, numerous olivine gabbro and dolerite bodies, gneisses of the quartz-syenite and charnockite series, and granites. A reinterpretation is suggested.In two representative areas major bodies of anorthosite and gneisses of the quartz-syenite and charnockite series are shown to occupy cores of mantled domes and nappes. They are parts of an older basement complex formed during an earlier, pre-Grenville orogenic cycle. Most of the now-recognizable Grenville metasediments were supracrustal rocks deposited on the denuded surface of this basement terrane. Olivine-basaltic magma invaded both the basement and the supracrustal rocks, forming gabbro and ophitic dolerite bodies. The Grenville orogenic cycle (ca. 1100 m.y. B.P.) deformed and metamorphosed all these rocks to a complex of mantled domes, folds, and nappes. The geology of the older basement rocks is heavily masked by the Grenville orogeny.The pre-Grenville basement consists of relatively homogenous masses of metaanorthosite, metanorite, charnockite, and gneisses of granitic composition. The supracrustal rocks occur in well-defined stratigraphic sequences of varied metasediments, gneisses, and charnockites. Conglomerates, arkoses, and acidic volcanics may all metamorphose to foliated rocks of granitic composition. Charnockites formed by high-grade metamorphism of initially dry, pre-existing quartzofeldspathic rocks including metamorphic and plutonic igneous rocks in the basement complex and acidic volcanics in the supracrustal sequence. Water content of rocks also controlled the extent of magmatism during the Grenville orogenic period. Anatectic granite is mainly limited to small, nebulite-bordered granite bodies, and to the presence of venitic migmatites in metamorphosed rocks with granitic components.

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Zusammenfassung Die Gesteinsserien des Präkambriums in den Adirondack-Highlands wurde früher als Sedimente gedeutet, in welche während des Grenville-Orogenzyklus mehrfach Eruptiv-Intrusionen eindrangen. Dadurch sollen nacheinander das große Anorthosit-Massiv mit seinen Satelliten, zahlreiche Olivingabbro- und Dolerit-Körper, die Gneise der Quarz-Syenit- und Charnockit-Serie und die Granite entstanden sein. Eine andere Erklärung wird hier vorgeschlagen.In zwei typischen Gebieten werden größere Körper von Anorthosit und von Gneisen der Quarz-Syenit- und Charnockit-Serie beschrieben, welche die Kerne der ummantelten Gneisdome und der Decken einnehmen. Sie sind Teile eines älteren Grundgebirges, das in einem früheren Prä-Grenville-Zyklus entstanden ist. Die meisten der heute bekannten Grenville metasediments bestanden aus suprakrustalen Gesteinen, die auf der heute abgetragenen Oberfläche dieses Grundgebirges abgelagert wurden. Olivin-basaltisches Magma drang sowohl in das Grundgebirge als auch in die suprakrustalen Gesteine ein, wodurch Gabbro- und ophitische Doleritkörper entstanden. Der Grenville-Orogenzyklus (vor etwa 1,1×10⁹ Jahren) metamorphisierte diese Gesteine zu dem Komplex der ummantelten Gneisdome, Falten und Decken. Die Geologie des älteren Grundgebirges ist durch die Grenville-Orogenese stark verändert worden.Das Prä-Grenville-Grundgebirge besteht aus verhältnismäßig homogenen Meta-Anorthositen, Metanoriten, Charnockiten und Gneisen mit granitischer Zusammensetzung. Die suprakrustalen Gesteine kommen in gut bestimmten, stratigraphischen Abfolgen von verschiedenen Metasedimenten, Gneisen und Charnockiten vor. Konglomerate, Arkosen und saure Vulkanite dürften durch Metamorphose in geschieferte Gesteine granitischer Zusammensetzung übergegangen sein. Charnockite entstanden durch intensive Metamorphose der anfangs trockenen, vormals quarz- und feldspatreichen Gesteine, welche Metamorphite und Plutonite des Grundgebirges und saure Vulkanite der suprakrustalen Serie einschließen. Auch der Wassergehalt der Gesteine beeinflußte den Grad des Magmatismus während des Grenville-Orogenzyklus. Anatektischer Granit ist hauptsächlich an kleine, von Nebulit umgebene Granit-Körper und an die Anwesenheit von Venit-Migmatiten in metamorphen Gesteinen granitischer Zusammensetzung gebunden.

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Résumé L'interprétation géologique Précambrienne des plateaux de l'Adirondack était considérée jusqu'à ce jour comme un terrain sédimentaire envahi à plusieurs reprises pendant le cycle orogénique de Grenville par des intrusions ignées pour former successivement le grand massif anorthosite et ses satellites, de nombreux corps gabbro-olivines et dolérites, des gneiss de séries quartzsyénites et charnockites, et des granites. Nous suggérons une réinterprétation.Dans deux domaines représentatifs, les corps principaux d'anorthosite et les gneiss de séries quartz-syénite et charnockite se révèlent comme occupant les noyaux de dômes recouvertes et de nappes. Ce sont des parties d'un fond complexe plus ancien formé pendant un cycle orogénique pré-Grenville antérieur. La plupart des «métasédiments Grenville» maintenant reconnaissables étaient des roches sédimentaires et volcaniques, déposées sur la surface dénudée de ce terrain de fond. Le magma olivine-basaltique a envahi à la fois le fond et les roches sédimentaires et volcaniques, formant du gabbro et des corps ophitiques et dolérites.Le cycle orogénique de Grenville (ca. 1100 m. y. B. P.) a déformé et métamorphosé toutes ces roches en une completié de dômes recouvertes, de plis et de nappes. La géologie des roches de fond plus anciennes est lourdement masquée par l'orogénie de Grenville.Le fond pré-Grenville consiste en masses relativement homogènes de métaanorthosite, métanorite, charnockite et en gneiss de composition granitique. Les roches sédimentaires et volcaniques apparaissent en séries stratigraphiques bien définie d'une variété de métasédiments, de gneiss et de charnockite. Des conglomérates, des arkoses et des roches volcaniques acides peuvent toutes se métamorphoser en roches foliacées de composition granitique. Des charnockites ont dû leur formation à un métamorphisme à haut degré de roches quartzofeldspathiques pré-existantes, initialement sèches, y compris les roches ignées métamorphiques et plutoniques dans le système du fond et acidovolcaniques dans la roche sédimentaire et volcanique subséquente. Le contenu aqueux des roches contrôlait également l'importance du magmatisme pendant la période orogénique de Grenville. Le granite anatectique se réduit principalement à des corpuscules granitiques bordés de nébulite et à la présence de migmatites vénétiques dans des roches métamorphosées aux composants granitiques.

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Adirondack Highland'a (CACIII). .

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