A K-Ar and 40Ar/39Ar study on white micas from the Brixen Quartzphyllite,Southern Alps

The Brixen Quartzphyllite, basement of the Southern Alps (Italy), consists of metasediments which had suffered progressive deformation and low grade metamorphism (p _max4 kbar, T _max375±25° C) during the Palaeozoic. It has been excavated by pre-Permian erosion, buried again beneath a pile of Permo-mesozoic to Cainozoic sediments (estimated T _max150° C), and is now exposed anew due to late Alpine uplift and erosion. The behavior of the K-Ar system of white micas is investigated, taking advantage of the narrow constraints on their thermal history imposed by the geological/stratigraphic reference systems.The six structurally and petrographically differing samples come from a single outcrop, whose position is roughly two kilometers beneath the Permian land-surface. White mica concentrates from five grain size fractions (<2 , 2–6 , 6–20 , 20–60 , 60–75 ) of each sample have been analyzed by the conventional K-Ar method, four selected concentrates additionally by the ⁴⁰Ar/³⁹Ar stepwise heating technique; furthermore, Ar content and isotopic composition of vein quartz were determined.The conventional ages of the natural grain size fractions (20–60 , 60–75) are in the range 316±8 Ma, which corresponds to the ⁴⁰Ar/³⁹Ar plateau age of 319.0±5.5 Ma within the error limits. The finer grain size fractions yield significantly lower ages, down to 233 Ma for fractions <2 . Likewise low apparent ages (down to 83 Ma) are obtained for the low temperature ⁴⁰Ar/³⁹Ar degassing steps.There is no correlation between microstructural generation of white mica prevailing in the sample and apparent age. This favours an interpretation of the 316±8 Ma values as cooling age; progressive deformation and metamorphism must be respectively older and their timing cannot be resolved by these methods. The data preclude any significant influence of a detrital mica component as well as of excess argon.The lower ages found for the fine grain-size fractions (respectively the low-T degassing steps) correspond to a near-surface period (p-T-minimum); the values are geologically meaningless. The effect is interpreted to result from partial Ar loss due to reheating during Mesozoic-Cainozoic reburial. A model based on diffusion parameters derived from the outgassing experiments and Dodson's (1979) equation yields a closure temperature of 284±40 °C for a cooling rate of 18° C/Ma. Furthermore, this model suggests that the observed argon loss of up to 5% may in fact have been induced by reheating to 150 °C for 50 Ma.     

Radioelement (U,Th, Rn) concentrations in Norwegian bedrock groundwaters

Twenty-eight samples of groundwater from bedrock boreholes in three distinct Norwegian geological provinces have been taken and analyzed for content of Rn, U, and Th, together with a wide variety of minor and major species. Median values of 290 Bq/1, 7.6 g/1, and 0.02 g/1 were obtained for Rn, U, and Th respectively, while maximum values were 8500 Bq/1, 170 g/1, and 2.2 g/1. Commonly suggested drinking water limits range from 8 to 1000 Bq/1 for radon and 14 to 160 g/1 for uranium. Radioelement content was closely related to lithology, the lowest concentrations being derived from the largely Caledonian rocks of the Trøndelag area, and the highest from the Precambrian Iddefjord Granite of southeast Norway (11 boreholes) where median values of 2500 Bq/1, 15 g/1 and 0.38 g/1, respectively, were obtained. The Iddefjord Granite is not believed to be unique in Norway in yielding high dissolved radionuclide contents in groundwaters, and several other granitic aquifers warrant further investigation in this respect.     

Messung des Ultrarot-Pleochroismus von Mineralen. X. Der Pleochroismus der OH-Streckfrequenz in Zoisit

Zusammenfassung Der Pleochroismus der OH-Streckfrequenz (=3,16 ±0,02 ) zeigt sowohl für -Zoisit als auch für -Zoisit, daß die OH-Dipole paralel [001] orientiert sind.

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Measurement of the infrared-pleochroism in minerals. X. The pleochroism of the OH-stretching frequency in zoisite

Summary The pleochroism of the OH-stretching frequency (=3.16 ±0.02 ) proves for - and -zoisite that the OH-dipoles are oriented parallel [001].

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Mit 1 Abbildung     

Lake Suwa — Eutrophication and its partial recent recovery

Lake Suwa, located in the center of the largest Japanese island of Honshu was a typical hypertrophic lake with a dense scum Microcystis species in summer during the 1970's. However, due to the introduction of a sewage treatment plant and the awareness of environmental pollution by local residents, a decrease in the concentration of nutrients in lake water since 1981 has been observed (from 1600 g l^–1 and 160 g l^–1 in 1977 to 990 g l^–1 and 110 g l^–1 in 1984 for total nitrogen and phosphorus respectively).     

Oxyanion Concentrations in Eastern Sierra Nevada Rivers – 2. Arsenic and Phosphate

Water samples were collected from the Truckee River-Pyramid Lake system, the Walker River-Walker Lake system, and the Carson River, all located in eastern California and western Nevada, U.S.A., at three different times (i.e., summer 1991, spring 1992, and autumn 1992) over a two year period. The concentrations of As, Na, Cl, PO4, and pH were measured in these river samples and the associated terminal lakes. Arsenic values ranged from below 13 nmol/kg near Truckee, California to 160 nmol/kg at Nixon, Nevada in the Truckee River, from 40 nmol/kg in the headwaters of both West and East Walker Rivers to 270 nmol/kg below Weber Reservoir on the main branch of the Walker River, and from <27 nmol/kg to 234 nmol/kg for the lower Carson River system. Arsenic concentrations in Steamboat Creek (0.91 mol/kg–1.80 mol/kg) in the Truckee River catchment are above the U.S. EPA drinking water maximum contaminant level of 0.67 mol/kg, as are the As concentrations in both Pyramid Lake (1.33 mol/kg–1.57 mol/kg ) and Walker Lake (13.7 mol/kg–18.7 mol/kg). Sources of As for all three rivers include weathering of As-rich rocks and/or regolith and input of high-As geothermal spring waters, both processes primarily, although not exclusively, adding As to the headwater regions of these rivers. Steamboat Hot Springs (29 mol/kg As 54.5 mol/kg), for example, is identified as a source of As to the Truckee River via Steamboat Creek. The high As concentrations in Pyramid and Walker Lakes are likely due to (1) desorption of arsenate from aquatic particulate matter in these high pH waters (9.0 pH 9.5), (2) limited biologic uptake of arsenate, and (3) evaporative concentration of the lake waters. Evaluation of molar PO4}/As ratios of river waters and geothermal spring waters (e.g., Steamboat Hot Springs), indicates that phosphate is substantially enriched in Steamboat Creek as well as the mid to lower reaches of the Walker and Carson Rivers. These regions of each river are dominated by agricultural interests and, additionally, in the case of Steamboat Creek, residential areas and golf courses. Our data strongly imply that phosphate-rich agricultural return flow has likely added P to these streams and, consequently, increased their respective P:As ratios.     

Trace elements in the shallow ground water of The Netherlands. A geochemical and statistical interpretation of the national monitoring network data

Concentration levels of the trace elements Al, As, B, Ba, Be, Cd, Co, Cr, Cu, Li, Mo, Ni, Pb, Sr, V, Y, and Zn in the shallow Dutch ground water were studied. Data were extracted from the data base of the Dutch National Ground Water Quality Monitoring Network, a network set up to monitor the diffuse contamination. The network contains over 350 sites at a low density of about 1 per 100 km². The sites are sampled once a year at two depths (approx. 10 and 25 m below surface). A two-step multivariate statistical approach was used, in which the major element chemistry was used to define water types. Within each water type, trace element behavior could be coupled to distinct geochemical processes: dilution, acidification and weathering, carbonate dissolution, oxidation/reduction, and ion exchange. In recently infiltrated acid rain water in low buffering capacity sands, the anthropogenic influence indirectly caused mobilization of Al (median 430 g/l), Cd (0.6 g/l), Co (14 g/l), Cu (2.7 g/l), Ni (16 g/l), Y (11 g/l), and Zn (50 mg/l). In carbonate bearing sediments the acidification is neutralized, and the mentioned trace elements remain immobile. Arsenic and Cr have higher concentrations levels in ground waters with a slightly reducing character and are possibly governed by the dissolution of iron-manganese hydroxides. Boron, Li, and Sr have high concentrations (respectively 875, 80, 2700 g/l) in the water type related to a seawater source. Strontium is related to carbonate dissolution in all other water types (medians ranging from 100 to 1000 g/l). Barium shows a complex behaviour. It is concluded that the high Al, Cd, Co, Cr, Ni, and Zn concentrations are anthropogenically induced. High Ba and Cr concentrations are inferred to be due to natural processes.     

Cathodoluminescence studies and U/Pb dating of zircons in pre-Mesozoic gneisses of the Tauern Window: Implications for the Penninic basement evolution

The pre-Mesozoic basement in the eastern and central part of the Tauern Window (Eastern Alps) consists mainly of anatectic plagioclase gneisses and amphibolites intruded and migmatized by Carboniferous granitoids. The gneisses are geochemically similar to calcalkaline dacites of modern primitive island arcs. Cathodoluminescence investigations and U/Pb-data on zircons indicate an uppermost Proterozoic or Cambrian extrusion age of the dacitic protoliths and a Carboniferous syngranitoid anatexis around 320 Ma. High-K calcalkaline meta-rhyolites in the north central Tauern Window form a separate part of the basement not affected by Carboniferous anatexis and plutonism. Their protoliths extruded in the Lower Carboniferous. In the Permian, high-K granitoids intruded the anatectic basement.Results are consistent with an island-arc system evolving from a Late Proterozoic and Early Paleozoic primitive stage to a Lower Carboniferous mature stage represented by K-rich rhyolite volcanism. An Upper Carboniferous collisional event caused anatexis, affecting mainly the K-rich calcalkaline rocks. The last calcalkaline magmas intruded in a Permian post-collisional setting.

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Zusammenfassung Das prä-mesozoische Grundgebirge des östlichen und zentralen Tauernfensters (Ostalpen) besteht größtenteils aus anatektischen Plagioklasgneisen und Amphiboliten, welche von karbonischen Granitoiden intrudiert und migmatisiert werden. Die Plagioklasgneise entsprechen geochemisch kalkalkalischen Daziten primitiver Inselbögen. Die anhand von Kathodolumineszenzaufnahmen ausgewerteten U/Pb-Daten der Zirkone weisen auf ein jüngst-proterozoisches oder kambrisches Extrusionsalter der dazitischen Protolithe und auf eine karbonische syn-granitoide Anatexis um 320 Ma. High-K kalkalkalische Metarhyolithe im nördlichen Teil des zentralen Tauernfensters bilden einen separaten Teil des Grundgebirges, der von karbonischer Anatexis und Plutonismus nicht berührt wurde. Ihre Protolithe extrudierten im unteren Karbon. Das anatektisch überprägte Grundgebirge aus Plagioklasgneisen und Amphiboliten wurde im Perm von high-K Granitoiden intrudiert.Die Ergebnisse sind konsistent mit der Entwicklung von einem jung-proterozoischen und alt-paläozoischen primitiven Inselbogen zu einem unter-karbonischen reifen Inselbogen mit K-reichen Rhyolith-Vulkanismus. Ein ober-karbonisches Kollisions-Ereignis führte zur Anatexis insbesondere der K-reichen kalkalkalischen Gesteine. Die letzten kalkalkalischen Magmen intrudierten postkollisional im Perm.

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Résumé Le socle pré-Mésozoïque du centre et de l'est de la Fenêtre des Tauern (Alpes orientales), est principalement composé de gneiss plagioclasiques anatectiques et d'amphibolites. Des granitoïdes carbonifères sont intrusifs dans ce socle et le migmatitisent. Les gneiss sont géochimiquement comparables à des dacites calco-alcalines d'arc insulaire immature. Des études sur zircons par cathodoluminescence et datation U-Pb indiquent, pour les dacites, un âge d'extrusion protérozoïque supérieur ou cambrien. L'anatexie contemporaine de la mise en place des granitoïdes est datée aux alentours de 320 Ma. Dans le nord de la partie centrale de la fenêtre, des méta-rhyolites calco-alcalines riches en potassium forment une zone distincte du socle et ne sont pas affectées par l'anatexie et le plutonisme carbonifère. Leur extrusion date du Carbonifère inférieur. Au Permien, des granitoïdes riches en potassium ont recoupé le socle anatectique.Les résultats sont en accord avec une évolution d'arc insulaire depuis un stade primitif d'âge protérozoïque supérieur ou paléozoïque inférieur jusqu'à un stade de maturité d'âge carbonifère inférieur représenté par les rhyolites riches en potassium. Au Carbonifère supérieur, un événement de collision a provoqué l'anatexie qui affecte principalement les roches calco-alcalines riches en potassium. Les derniers magmas calco-alcalins se sont intrudés dans le contexte post-collisionnel Permien.

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Study of the distribution of Trace elements in soils in and around Mysore city,Karnataka

Soil samples collected from various places in and around Mysore were analyzed for the total trace elements such as Fe, Mn, Cu, Zn, Pb, and Cd. The results of the analysis indicate that the concentration of lead and cadmium in soils is below 2.5 g ml^–1 and 0.2 g ml^–1, respectively, which are the minimum detection levels, whereas the concentration of iron, manganese, copper, and zinc in most of the samples is within the global average ranges of 3%, 500–1000 g g^–1, 15–40 g g^–1, and 50–100 g g^–1, respectively. The investigated area has the presence of gneisses and schists, in which partly there are igneous intrusions and pegmatitic intrusions. There are amphibolite enclaves in gneisses that account for the higher concentration of trace elements. The lower concentration may be attributed to the presence of silicic type of rock.     

Thermobarometric and40Ar/39Ar geochronologic constraints on Eohimalayan metamorphism in the Dinggyê area,southern Tibet

Mineral assemblages in the Dinggyê area of southern Tibet (28°N; 88°E) provide new insights regarding the poorly understood Eohimalayan metamorphic event in the eastern Himalayan orogen. Major element partitioning thermobarometry of pelitic rocks indicates temperatures of 750–830 K at depths of 14±3 km, consistent with the presence of kyanite, sillimanite, and andalusite schists in the area. Laser and resistance furnace⁴⁰Ar/³⁹Ar analyses of hornblendes from intercalated amphibolites yield closure ages of 25 Ma. Overlap between the probable range of Ar closure temperatures for these hornblendes and the metamorphic temperatures estimated through thermobarometry suggests that Eohimalayan metamorphism in the Dinggyê area occurred in Late Oligocene time, no more than about 10 million years before the main or Neohimalayan phase of metamorphism in Early to Middle Miocene time. Muscovite, biotite, and K-feldspar⁴⁰Ar/³⁹Ar ages indicate an important episode of rapid cooling between 16 and 13 Ma, which is interpreted as a signature of tectonic denudation related to movement on N-dipping extensional structures of the South Tibetan detachment system.     

Relationship of Water Chemistry to Serum ThyroidHormones in Captive Sharks with Goitres

Captive whitetip reef sharks, Triaenodon obesus,at Sea Life Park (SLP) Hawaii, Waimanalo, Hawaii develop goitre, whereas, T. obesus at the Waikiki Aquarium (WAQ), Honolulu,Hawaii do not develop goitre. To determine theeffects of natural concentrations of iodine on thereduction of goitre, two sharks from SLP with goitrewere placed in an enclosed coastal lagoon with naturalseawater. Using ultrasound measurements the twogoitres were initially 11.4 cm and 14.6 cm in depthand after 3 months decreased to 4.7 cm and 5.7 cm. Radioimmunoassay analysis of the thyroid hormoneT3 sera concentrations were initially 0.22 ng/mland 0.33 ng/ml and increased to 1.84 ng/ml after beingplaced in the lagoon. Sera T4 were initially0.93 ng/ml and 0.99 ng/ml and increased dramaticallyto 17 ng/ml and 56 ng/ml. Over the six month samplingperiod, two resident sharks in the lagoon with normalthyroids had sera T3 concentrations from 0.89ng/ml to 1.1 ng/ml, and sera T4 concentrationsfrom 3.1 ng/ml to 7.9 ng/ml. The hypothyroidcondition in the SLP goitred-sharks is likely linkedto the low environmental iodide (<0.005 M), andhigh nitrate (111 M) of SLP water. The WAQwell-water facility was characterized by anoxic waterwith high iodide (0.60 M), total iodine (1.90M), and typical nitrate (24.6 M)concentrations of interstitial groundwater. Thedifference of iodide concentration of SLP and WAQ tankwater (<0.005 M versus 0.60 M) wasdirectly related to the hydrogeology of the well-watersources. To avoid goitre in marine aquarium systems,we recommend maintaining iodide concentrations of atleast 0.15 M.     

Argon diffusion domains in K-feldspar I: microstructures in MH-10

Samples of MH-10, a K-feldspar thought to contain discrete diffusion domains for argon, have been examined by light and TEM microsopy to search for domain boudaries. We examined both unheated K-feldspar separates and samples heated in vacuum between 750 and 1150°C in order to characterize the initial microstructure as well as any changes resulting from laboratory heating. The MH-10 rock shows almost no evidence of plastic deformation, and the K-feldspar does not possess networks of dislocations which might define a subgrain structure derived from external stresses. Three classes of substructure are present in the K-feldspar, but only the third appears to have been affected by laboratory heating: (1) Cross-hatched extinction in light microscope is common but variably developed. TEM reveals almost no albite/pericline twinning but tweed microstructure is ubiquitous. (2) Turbid zones occur with about 5 volume % abundance. Micropores, <1 to 2m in diameter, characterize these regions, which often also contain bleds of albite, up to 40 m indiameter, TEM shows these turbid zones to be very complex with intricate twin and tweed structures at the sub-micron scale and numerous dislocation and strain features. (3) Albitic exsolution lamellae (<1 m thick, 20 m long and separated by 1 m) are rarely seen in the light microscope but TEM shows that 0.01 m thick by 0.2–1 m long lamellae, separated by 0.1 to 0.5 m, occur in about 20% of the sample. These lamellae are disk-shaped, have a semi-coherent or coherent relationship to the host K-feldspar, and seem to disappear upon heating to 750°C. Extensive diffusion studies have been conducted on HM-10, and the results analyzed in terms of distribution of sizes of diffusion domains. The preferred result of the analyses was a distribution consisting of three distinct sizes. The largest domain size identified in this way is approximately 50 to 100 m, and this corresponds to blocks of K-feldspar defined by the network of fractured/turbid zones. The smallest domain size inferred from diffusion analysis is 0.1 m which corresponds to the spacing between albite exsolution lamellae that may represent fast diffusion pathways. Alternatively, the modulated argon distribution accompanying the lamellar variation in feldspar composition may result in an overestimation of the initial diffusion coefficients. Even though a promising agreement exists between domain analyses based upon diffusional and microstructural analyses, at least two questions remain unanswered. Firstly, no clear candidate has been identified for a domain of intermediate size. Secondly, the diffusion analysis has been formulated with independent gas release from all domains, whereas the observed structures are likely to be nested (i.e., small domains exist inside bigger domains) with the network of semi-coherent lamellar boundaries having connectivity and permeability which can provide only a modest increase in argon diffusivity over bulk values.     

Implications of K-Ar ages of whole-rock and grain-size fractions of metapelites and intercalated metatuffs within an anchizonal terrane

White mica bearing fractions ranging in grain size from 0.4 m to 6.3–20 m were separated from metapelites and intercalated metatuffs of the eastern Rheinisches Schiefergebirge (FRG). The stratigraphic age of these rocks is Middle Devonian (Eifelian), and they contain detrital material of northwestern provenance (Old Red Continent, probably mainly derived from the Caledonian Orogen). Folding in the Carboniferous was associated with cleavage formation and an apparently synkinematic anchizonal metamorphism. Apparent K-Ar ages of metapelite fractions display a marked positive correlation with grain size illustrating the detrital influence which is diminished with decreasing grain size and increasing metamorphism (determined by illite crystallinity). Contrasting grain morphologies observed by SEM enable the interpretation of apparent age/ grain size relationship for coarse fractions. The anticipated lack of detrital mica in metatuffs is confirmed by the fairly consistent apparent K-Ar ages determined for the coarser than 0.63 m size fractions which date the anchizonal metamorphism at ca. 330 Ma. Comparison of metatuff and metapelite apparent ages suggests that the extent of rejuvenation in the latter was largely dependent on grain size. Rejuvenation was also somewhat controlled by the degree of anchizonal metamorphism as suggested by differences in K-Ar results of metapelites which were metamorphosed at variable anchizonal conditions. Fractions <0.63 m from upper anchizonal metapelites record ca. 330 Ma ages similar to those of the 0.63–20 m sizes in metatuffs. Together those results confirm the limited applicability of conventional K-Ar dating on bulk clay fractions (<2 m) of very-low grade (anchizonal) metamorphic rocks in dating metamorphic events and concomitant cleavage formation.     

The effects of sub-blocking temperature metamorphism on the K/Ar systematics of hornblendes: 40Ar/39Ar dating of polymetamorphic garnet amphibolite from the Franciscan Complex,California

The effects of sub-blocking temperature metamorphism on the K/Ar system in hornblende, as revealed by ⁴⁰Ar/³⁹Ar release spectra, have been studied in a polymetamorphic knocker from the Franciscan Complex (FC), California. A primary amphibolite assemblage of horn-blende +rutile+epidote+apatite±garnet±sphene is variably overprinted by a blueschist facies assemblage of blue amphibole +lawsonite+chlorite+white mica+pumpellyite±sphene. The secondary assemblage formed at a temperature of 370° C, below that at which rapid Ar diffusion is expected in hornblende. Hornblendes from three, variably-altered samples of garnet amphibolite yield total gas ages of 147 to 161 Ma, but the corresponding plateau ages of 163.0±2.8, 160.6±2.2, and 161.8±2.2 Ma are identical within error. Hornblende separates with lower total gas ages come from more highly overprinted rocks, have excess K compared to that expected on the basis of electron probe analyses, and exhibit anomalously high K/Ca ratios in the low-temperature fractions of their incremental heating spectra. The reduced total gas ages result from the presence of thin (2 m) sheets of younger white mica in hornblendes from the moderately and highly altered amphibolites. The secondary micas are difficult to detect because of their small size and low abundance (2%), but because their K content is 50 to 100 times that of the host hornblende, they contribute significantly to the K and Ar budgets of the sample. The mica intergrowths are not removed by normal sample preparation, but because the mica inclusions degas at lower temperatures than hornblende during vacuum extraction, incremental heating analyses can provide precise cooling ages for the hornblendes as well as useful estimates of the age of the mica inclusions. The hornblende separate from the most altered sample contained 20±10% younger blue amphibole replacing hornblende, but its plateau age was not significantly affected. This is consistent with a replacement process in which K and Ar loss from the hornblende are coupled, leaving the K/Ar system undisturbed in relict primary grains. The K and Ar budgets of the sample are not strongly affected by the blue amphibole because of its very low K content. Because partial replacement of primary amphibole by high-K phyllosilicates occurs in many geological environments, effects like those described here could be widespread.     

Metamictization and U-PB isotopic discordance in single zircons: a combined Raman microprobe and SHRIMP ion probe study

Summary We report results of a combined SHRIMP ion microprobe and Raman microprobe study of the correlation between metamictization and U-Pb isotopic discordance of zircon. The spatial resolution of the SHRIMP and Raman probe used are about 200 m³ and 80 m³, respectively. This allows a direct comparison of U-Pb isotopic discordance and metamictization of small areas within zircon crystals. We show that the impact of the oxygen ion beam on the zircon during the SHRIMP analysis does not cause significant amorphization or recrystallization in the remaining zircon on a scale of 1 m. Consequently, it is possible to determine the initial degree of metamictization of zircon within and adjacent to a SHRIMP analytical spot by Raman microprobe measurements after performing SHRIMP analyses. A combination of the two microprobe techniques gives information on the concentration and distribution of radionuclides as well as the degree of metamictization and its heterogeneity and the lateral age distribution within the grain. We found that the degree of U-Pb isotopic discordance correlates closely with the degree of metamictization within single zircon grains, on a scale of 15 m, which is consistent with previous results on the scale of single and multiple zircon grains showing that metamictization enhances the relative potential for secondary loss of radiogenic lead in zircon.

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Metamiktisierung und U-Pb-Isotopendiskordanz in Einzelzirkonen: eine komplexe Untersuchung mittels Ramanmikrosonde und SHRIMP Ionensonde

Zusammenfassung Wir präsentieren die Ergebnisse einer Untersuchung des Zussammenhangs von Metamiktisierung und U-Pb Isotopendiskordanz in Zirkonen mittles kombinierter SHRIMP-Ionenmikrosonden- und Ramanmikrosondenanalysen. Die räumliche Auflösung der verwendeten Analysensysteme, experimentell mit 200 m³ (SHRIMP) und 80 m³ (Ramansonde) bestimmt, gestattet den direkten Vergleich der in Mikrobereichen innerhalb von Zirkon-Einkristallen gemessenen Isotopendiskordanzen und Metamiktisierungsgrade. Wir zeigen, daß der während der SHRIMP-Analyse auf den Zirkon einwirkende Sauerstoffionenstrahl weder signifikante Amorphisierung noch Rekristallisation des benachbarten Zirkonmaterials im 1 m-Bereich hervorruft. Es ist deshalb möglich, den Grad der Metamiktisierung eines Zirkon-Mikrobereiches auch in den SHRIMP-Analysengrübchen, d.h. erst nach dem Analysieren dieses Bereiches mit der Ionensonde, mittels hochauflösender Ramanmessungen unverfälscht zu bestimmen. Der Einsatz beider Mikromethoden liefert kombinierte Informationen zu den Gehalten und Verteilungen radioaktiver Elemente, zum Grad der Metamiktisierung und seiner Heterogenität und zur lateralen Altersverteilung innerhalb von Einzelkörnern. Wir weisen eine deutliche Korrelation des Grades der U-Pb-Isotopendiskordanz mit dem Grad der Metamiktisierung im Mikrobereich (15 m Auflösung) nach. Dies stimmt mit früheren, an Einzelzirkonen und Populationen getätigten Beobachtungen überein, daß die Metamiktisierung von Zirkon dessen Potential zu sekundären Bleiverlusten erhöht.

     

Thermodynamic data from redox reactions at high temperatures. V. Thermodynamic properties of NiO−MnO solid solutions from emf measurements

Divariant oxide plus metal assemblages potentially make useful redox sensors for use in hydrothermal and other high pressure experiments. Here we report the calibration of the (Ni, Mn)O/Ni redox sensor in which the Ni/NiO (NNO) oxygen buffer is displaced to lower oxygen chemical potentials (O₂), by the solid solution of MnO in the oxide phase. This assemblage was chosen because: (1) it covers a useful range of O₂; (2) the system can be calibrated very accurately. Values of O₂ defined by the (Ni, Mn)O/Ni assemblage were determined electrochemically, from 900 to 1300 K, using calcia-stabilized zirconia solid electrolytes. The oxide compositions (8 in total, ranging from 0.1X _NiO0.8) were analysed afterwards by electron microprobe, and were checked for internal consistency by measuring the lattice parameters (a₀), using powder XRD. The accuracies of the measurements, both assessed theoretically and established empirically, are (1): ±80J/mol in O₂, ±0.0002 Å in a₀ and ±0.002 to 0.005 in X _NiO. Activity-composition relations were fitted to the Redlich-Kister formalism. There is a slight asymmetry (corresponding to a subregular model) across the solution with A ₀ ^G =9577(±45) J/mol, and A ₁ ^G =–477(±80) J/mol. The experimental data were also used to derive the parameters V^ex, H^ex and S^ex. There is no obvious relationship between excess volumes and enthalpies of mixing, nor between excess volumes and excess entropies. The experimental data from this study have been used to formulate the (Ni, Mn)O/Ni redox sensor expression: O₂ = ₂(NNO) + 2RTlnX _NiO + 2(1 – X _NiO)²[11483 – 1.697T] – 477(4X _NiO – 1)(900 < T(K) < 1300) where O₂(NNO)=–478967+248.514T–9.7961 T In T, from O'Neill and Pownceby(1993a).     

Schwefelisotope im marinen Kreislauf und das δ34 S der früheren Meere

Zusammenfassung Durch Isotopenfraktionierung bei der bakteriellen Reduktion marinen Sulfats enthalten die Sedimente im Mittel einen Überschuß an³²S (³⁴S s – 5), während³²S im marinen Sulfat angereichert ist. Der ³⁴S-Wert im heutigen Meerwasser beträgt etwa + 20 . Evaporit-³⁴S-Messungen zeigen, daß dieser Wert im Cambrium, Silur und Devon höher war, bis zum Perm dann auf etwa + 11 abnahm und anschließend wieder zum heutigen Wert anstieg.Der hohe ⁴³S-Wert in der geologischen Frühzeit wird mit extremer Anreicherung biogener Sulfide in den Schwarzschiefern erklärt, der Abfall zum Perm mit Rückführung großer Mengen von Sediment-Schwefel im Laufe der caledonischen und varistischen Orogenesen und der Wiederanstieg im Erdmittelalter mit erneuter Anhäufung toniger Sedimente.Aufgrund modellmäßiger Abschätzungen und der Gesamtheit aller verfügbaren Meßwerte (etwa 800) wird versucht, die Entwicklungslinie des Meerwasser-³⁴S-Wertes zeichnerisch darzustellen.Hinweis auf praktische Bedeutung: Informationen über Stoffbilanz geologischer Vorgänge, Interpretation von ³⁴S-Meßwerten an normalen Gesteinen und Erzen, Zuordnung von Proben unbekannten Alters.

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Summary Due to an isotope fractionation involved in the bacterial reduction of marine sulfate the sediments as a whole contain an excess of³²S (³⁴S – 5), while marine sulfate is enriched in³⁴S. Recent seawater has ³⁴S + 20. Evaporite measurements indicate a still higher value in Cambrian, Silurian and Devonian time. Then the ³⁴S decreased to about + 11 in the Upper Permian and later on increased once more to the modern value.The accumulation of abnormally large quantities of biogenic sulfides in the slates of that era accounts for the high ³⁴S value in the early Palaeozoic. A considerable fraction of light sulfur has been brought back to the oceans by weathering solutions of the Caledonian and Variscan orogenies, and in Mesozoic times another accumulation of slates has taken place.From a synopsis of the data available (some 800) and from model estimations an attempt has been made to construct the marine sulfur gd³⁴S evolution curve. Some practical consequences are lined out: informations on material balance of geological processes, interpretation of ³⁴S-data of normal rocks and ores, sample dating in the case of doubtful age.

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Résumé Un fractionnement isotopique pendant la réduction bactérienne du sulfate marin a pour conséquence un excédent de³²S dans la masse totale des sédiments (³⁴S – 5) et un enrichissement de³⁴S dans le sulfate marin. Dans les océans actuels le ³⁴S est + 20 ; nous pouvons conclure des ³⁴S des échantillons de sulfates d'évaporites, qu'aux temps cambrien, silurien et dévonien cette valeur fut plus élevée. Puis elle a diminué jusqu'à + 11 au Permien supérieur pour remonter ensuite à la valeur actuelle.La valeur élevée de ³⁴S au Paléozoïque inférieur doit être expliquée par une accumulation extraordinaire de sulfures biogènes dans les ardoises noires de cette époque. La décomposition d'une fraction considérable de ces roches pendant les orogenèses calédonienne et varisque entraînait à l'océan du soufre léger. Au Mésozoïque une autre accumulation d'ardoises commençait. Par l'examen de toutes valeurs disponibles (environ 800) et par certaines estimations on a tenté de tracer la courbe de l'évolution de la valeur du ³⁴S marin.Quelques conséquences pratiques sont indiquées: informations sur le bilan matériel des procès sus-géologiques, interprétation des ³⁴S de roches et minerais normaux, datation d'échantillons d'âge problématique.

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. S³⁴ , , ( 2%); 1,1%. .

     

Trace elements in the Singhbhum granite,India

A study of the trace elements in the Singhbhum granite from its northern borders (Saraikela) and the central mass (Chaibasa) reveals that there are differences not only in the limit of concentration but also in their behaviour. It is found that while correlating with the petrographic and also the major elements behaviour, the trace elements always do not mark an increase or decrease during the various stages of the evolution of the Singhbhum granite. The behaviour of the trace-elements as revealed from the previous studies relating to both igneous and metamorphic rocks, is significant in working out the physico-chemical factors involved in the genesis of rocks. In the magmatic rocks, the trace elements obviously follow a trend and go in accordance withGoldschmidt's principles of camouflage, capture and admission. In the present study such uniformities are not found. The present study reveals firstly, the different nature of chemical gradients formed by these elements during different geological environments; secondly, the mutual relationships and the ratio of certain traceelements in the different associations, indicating the original heterogeneity of these rocks and their formation under different geological as well as physico-chemical conditions. It has been concluded (Roonwal, 1968) that the rocks studied here as representing parts of Singhbhum granite do not form one granite series as referred to byRead. In fact they represent rocks formed from material having originally different lithological composition.The trace elements determined for the present study are Va, Cr, Ga, Y, In, Sc, Co, Ni, Cu, Ba, Sr, Sn, Pb and Zr. Among these Ga, Y, In and Sc do not show the normal behaviour viz., Ga should be more in granites but is found to be more in the basic representatives. Y is also more in the basic parts than in the granites. The present granites are very poor in In. Similarly whilst the granites should not normally be rich in Sc, in the present case the distribution of Sc in basic representatives as well as the true granitic parts is more or less uniform. The behaviour of Cu limits the application ofGoldschmidt's rule to magmatic rocks. The behaviour of other elements is normal. Pb shows an antipathic relationship with K⁺ and Ca⁺² and indicates that it has not changed the position due to granitization. An inverse relationship between Zr⁺⁴ and Si⁺⁴ is observed which indicates the formation of zircon and has been in conformity with mineralogy of the rocks.

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Zusammenfassung Eine Untersuchung der Spurenelemente in Gesteinen aus den nördlichen Randgebieten (Saraikela) und der zentralen Masse (Chaibasa) des Singhbhum-Granites zeigte, daß Unterschiede nicht nur hinsichtlich der Konzentrationsgrenzen, sondern auch im Verhalten der Spurenelemente bestehen. Bei einer Korrelation des petrographischen Verhaltens mit dem der Hauptelemente wurde festgestellt, daß die Spurenelemente im allgemeinen keine Zu- oder Abnahme während der verschiedenen Evolutionsstadien aufweisen. Das Verhalten der Spurenelemente, ersichtlich aus früheren Untersuchungen von Intrusiv- und metamorphen Gesteinen, ist bedeutsam für die Feststellung der physiko-chemischen Faktoren, welche bei der Genese der Gesteine mitwirkten. In magmatischen Gesteinen folgen die Spurenelemente offensichtlich dem Trend vonGoldschmidts Regel der Camouflage, capture and admission. Bei der vorliegenden Untersuchung wurde eine solche Übereinstimmung nicht festgestellt. Die Untersuchung enthüllt erstens eine durch diese Elemente während verschiedener geologischer Umweltverhältnisse hervorgerufene verschiedene Natur der chemischen Gradienten und ließ zweitens ein gegenseitiges Verhältnis und das Verhältnis gewisser Spurenelemente in verschiedenen Gesteinsgesellschaften erkennen, was auf die ursprüngliche Heterogenität dieser Gesteine und deren Bildung unter verschiedenen geologischen sowie physiko-chemischen Bedingungen hinweist. Es wurde daraus geschlossen (Roonwal, 1968), daß die untersuchten Gesteine, welche den typischen Singhbhum-Granit repräsentieren sollen, nicht nachRead eine einzige Granitserie bilden, sondern daß sie Gesteine darstellen, welche ursprünglich aus Material verschiedener lithologischer Zusammensetzung stammen.Für diese Untersuchung wurden die folgenden Spurenelemente bestimmt: Va, Cr, Ga, Y, In, Sc, Co, Ni, Cu, Ba, Sr, Sn, Pb, Zr. Von diesen zeigen Ga, In und Sc nicht das normale Verhalten, da Ga eigentlich in größeren Mengen in Graniten auftreten sollte, was jedoch im vorliegenden Falle für die basischen Gesteinsvertreter zutrifft. Ebenfalls ist Y zahlreicher in den letzteren Vertretern vorhanden. Die vorliegenden Granite sind sehr arm an In, während sie andererseits normalerweise auch nicht reich an Sc sein sollten. Hier ist die Verteilung von Sc in den basischen Vertretern sowie auch in den wirklichen Granitanteilen mehr oder weniger gleichmäßig. Das Verhalten von Cu schränkt die Anwendung vonGoldchmidts Regel in bezug auf magmatische Gesteine ein. Das Verhalten anderer Elemente ist normal; Pb zeigt eine antipathische Beziehung zu K⁺¹ und Ca⁺², was darauf hinweist, daß es als Folge der Granitisation seine Position nicht geändert hat. Es wurde ein umgekehrtes Verhältnis zwischen Zr⁺⁴ und Sr⁺⁴ beobachtet, was auch die Bildung von Zirkon beweist und was durchaus der Mineralogie dieser Gesteine entspricht.

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Résumé L'étude des éléments mineurs (traces) des roches de la région septentrionale aux environs de Saraikela et des massifs centraux de Chaibasa révèle une différence, non seulement dans le mode de concentration des éléments, mais également dans leurs caractères. Il apparaît, d'après la corrélation des études pétrographiques et les éléments principaux (major), que les éléments mineurs n'ont subit aucune augmentation ou diminution pendant les différentes phases de l'évolution.Le comportement des éléments mineurs, selon des études antérieurs de roches éruptives et de roches métamorphiques, est significatif dans la détermination des facteurs physico-chimiques qui contribuèrent à la génèse de ces gisements. Quant aux roches d'origine magmatique, les éléments mineurs suivent apparemment la tendance au principe deGoldschmidt « camouflage, envahissement et admission ». Mais l'étude actuelle n'a pas permis d'établir une telle conformité.L'étude de ces éléments révèle: premièrement, les différents caractères d'ordre chimique pendant les époques géologiques; deuxièmement les relations mutuelles et les rapports de certains éléments mineurs dans différentes associations; ceci indique l'hétérogénéité primordiale de ces roches et leur formation sous diverses conditions d'ordre géologique et physico-chimique.En conclusion (Roonwal, 1968), les roches étudiées figurant le granite-type de Singhbhum, ne forment pas la moindre série de granite — comme le ditRead — mais constituent des roches engendrées par les matériaux de différentes compositions lithologiques.De par ces études, il a été déterminé les éléments suivants: Va, Cr, Ga, Y, In, Sc, Co, Ni, Cu, Ba, Sr, Sn, Pb et Zr. Parmi ces éléments, Ga, In et Sc ne se rencontrent pas de façon normale puisque Ga devrait en réalité être plus répandu dans les roches granitiques ce qui pourtant s'avère dans le cas du substitut basique. De même, y se trouve en plus grande quantité dans les derniers substituts. Les granites de la région sont pauvres en In et riches en Sc — bien que le contraire soit attendu en ce qui concerne le Sc. Ici, la distribution de Sc, aussi bien dans les substituts basiques que dans les roches granitiques est plus ou moins régulière. Le comportement du Cu suit l'application de la loi deGoldschmidt sur les roches magnétiques; celui des autres éléments est normal; le plomb montre de l'antipathie pour les ions K⁺ et Ca⁺², ceci indique qu'il n'a pas changé sa position par suite de la granitisation du magma. On observe une relation inverse entre Zr⁺⁴ et Sr⁺⁴, relation indiquant la formation de zircon en concordance avec la minéralogie de ces roches.

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Sakaikela Chaibasa Singhbum , , . , , , . , , - , . : Camoflage, capture and admission. . , , -, , , , - , , , - . (Roonwal, 1968), , Singhbum, Read'a , , , . : V, Cr, Ga, Y, In, Sc, Co, Ni, Cu, Ba, Sr, Pb, Zr. Ga, In Sc. , Ga , . . In, , . , , . . — . Pb K Ca, , Pb . Zr⁴⁺ Sr⁴⁺, , .

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For a preliminary account, seeRoonwal (1968). The details of petrology and the major elements are being published elsewhere.     

Permian-Triassic of the Tethys: Carbon isotope studies

Profiles of carbon isotopes were studied in marine limestones of Late Permian and Early Triassic age of the Tethyan region from 20 sections in Yugoslavia, Greece, Turkey, Armenian SSR, Iran, Pakistan, India, Nepal, and China. The Upper Permian sections continue the high positive values of ¹³C previously found in Upper Permian basins in NW Europe and western USA. In the more complete sections of Tethys it can now be demonstrated that the values of ¹³C drop from the Murgabian to the Dzhulfian Stages of the Upper Permian, then sharply to values near zero during the last two biozones of the Dorashamian. These levels of ¹³C sample the Tethys Sea and the world ocean, and equal values from deep-water sediments at Salamis Greece indicate that they apply to the whole water column. We hypothesize that the high values of ¹³C are a consequence of Late Paleozoic storage of organic carbon, and that the declines represent an episodic cessation of this organic deposition, and partial oxidation of the organic reservoir, extending over a period of several million years. The carbon isotope profile may reflect parallel complexity in the pattern of mass extinction in Late Permian time.

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Zusammenfassung Untersucht wurden Profiie von Kohlenstoff-Isotopen mariner Karbonate aus dem Oberperm und der Untertrias der Tethys-Region aus 20 Lokalitäten in Jugoslawien, Griechenland, der Türkei, der Sowjet-Republik Armenien, dem Iran, Pakistan, Indien, Nepal und China. Die oberpermischen Proben zeigen dieselben hohen positiven gd¹³C Werte, wie sie vorher auch aus den oberpermischen Becken NW-Europas und dem Westen der USA berichtet wurden. Anhand von vollständigeren Abschnitten der Tethys kann dargelegt werden, daß die ¹³C Werte von der Murgabium- bis zur Dzhulfium-Phase des Oberperms abnehmen und dann innerhalb der letzten zwei Biozonen des Dorashamiums abrupt gegen Null verlaufen. Diese ¹³C Niveaus sind repräsentativ für die Tethys und den Weltozean. Sie gelten außerdem für alle Wassertiefen, wie durch ähnliche Werte aus Tiefsee-Sedimenten von Salamis (Griechenland) bestätigt wird. Unsere Annahme ist, daß die hohen ¹³C Werte auf spätpaläozoische Speicherung organischen Kohlenstoffs zurückzuführen ist. Die Abnahme stellt episodische Sedimentationsschwankungen des organischen Materials dar, während der die organischen Substanzen über einen Zeitraum von mehreren Millionen Jahren zum Teil aufoxidiert wurden. Das Kohlenstoff-Isotop Profil entspricht parallelisiert in etwa dem Muster des Massen-Aussterbens während des Oberperms.

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Résumé Des profils isotopiques du carbone ont été établis dans des calcaires marins d'âge tardi-permien à éo-triasique répartis dans 20 endroits du domaine téthysien: Yougoslavie, Grèce, Turquie, République Socialiste dArménie, Iran, Pakistan, Inde, Népal et Chine. Les profils établis dans le Permien supérieur montrent les mêmes valeurs positives de ¹³C observées antérieurement dans des bassins de même âge en Europe occidentale et dans l'ouest des USA. Dans les profils les plus complets de la Téthys, il est maintenant établi que les valeurs de ¹³C décroissent depuis le Murgabien jusqu'au Dzhulfien (Permien supérieur) pour devenir proches de zéro dans les deux dernières biozones du Dorasharmen. Ces valeurs de ¹³C sont caractéristiques de la Téthys et de l'Océan mondial; elles s'appliquent à toutes les profondeurs d'eau, comme en témoignent les valeurs fournies par des sédiments de mer profonde à Salamis (Grèce). Nous formulons l'hypothèse que les hautes valeurs de ¹³C sont la conséquence du stockage du carbone organique au Paléozoïque supérieur et que leur décroissance traduit un arrêt épisodique de cette sédimentation organique, accompagné d'une oxydation partielle de la matière organique s'étendant sur une période de plusieurs Ma. L'influence parallèle des phénomènes d'extinction massive à le fin du Permien se refléterait également dans les profils isotopiques du carbone.

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, 20 /, , , , , , / . ¹³, - . , ¹³ Murgabium'a Dzhulfium'a . ¹³ . , , / /. , ¹³ . , . / , , , .

     

Form und Schichtungsgefüge periodischer Sandkörper im Strömungsfeld des Außenelbewatts

Zusammenfassung Periodisch gescharte Sandkörper auf den Sandwattflächen (große Rippeln und- hier besonders - Sandwellen) geben durch ihre im Luftbild erkennbare Asymmetrie Indizien für den Sandtransport. Diese Sandwellen sind, im Gegensatz zu Groß- und Riesenrippeln, aus einer Kreuzschichtung aufgebaut, die durch wandernde Kleinrippeln entstanden ist. Dadurch entsteht auch die Asymmetrie der Großformen. Die aus der Luftbildanalyse resultierende Richtungsverteilung stimmt mit einer Stromvektorenkarte (Göhren), die von normalen Tideverhältnissen abgeleitet ist, gut überein.Die Gesamtheit der auftretenden Strömungen spiegelt sich in der Schichtung nicht wider, sondern es dominiert diejenige Strömung, die am häufigsten mit einer relativ großen Geschwindigkeit eintritt. Extreme Bedingungen haben so geringere Chancen, im Sediment dokumentiert zu werden.

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The asymmetric character of periodic sedimentary sand bodies found on tidal flats (largescale ripples and here particularly sand waves) can be mapped on aerial photographs to give an indication of sand transport directions. These sand waves, in contrast to largescale and giant ripples, exhibit cross-lamination which formed from migrating smallscale ripples. The asymmetry of the large form is established through the migration of the smallscale ripples. The vector distributions obtained from aerial photograph analyses show good agreement with a map of current vectors (Göhren) based on normal tidal conditions.Not every current is reflected in the sediment; dominant are the frequently occurring currents having a moderately high velocity. Extreme conditions (which are infrequent) have a smaller chance to be recorded in the sediment.

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Résumé Dans la zone intertidale, on trouve des mégarides et d'autres crêtes sableuses, groupées periodiquement, qui sont appelées ici «Sandwellen» (vagues de sable). L'asymmetrie de ces formes, bien reconnaissable sur les photographies aériennes, donne des indications sur le mouvement du sable. Les vagues de sable montrent, au contraire des mégarides ordinaires, une stratification croisée de rides à l'intérieur. La migration de ces rides cause l'asymmetrie. La distribution des directions concorde avec une carte des vecteurs de courants (Göhren) dérivée des conditions ordinaires de marée.La totalité des courants présents dans la zone intertidale n'est pas réflétée dans la stratification, mais ce sont les courants, qui ont lieu le plus fréquemment avec des vélocités relativement fortes qui dominent. Les conditions extrêmes n'ont pas une grande chance d'être fossilisées.

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, . , , , . - . — , , . .

     

U-Pb zircon age and Nd isotopic composition of granitoids,charnockites and supracrustal rocks from Heimefrontfjella,Antarctica

Heimefrontfjella and Mannefallknausane, in Dronning Maud Land, Antarctica, comprise an amphibolite-facies terrain and a granulite terrain, separated by a major mylonite zone. The amphibolite terrain is made up of mafic to felsic metavolcanics and metasediments, intruded by granitoid plutons: the granulite terrain has supracrustal rocks with similar lithologies, intruded by felsic plutonic rocks that crystallized as charnockites.U-Pb zircon ages (conventional and ion microprobe) demonstrate that magmatic activity was confined to a relatively short interval between 1130 and 1045 Ma and was followed in the amphibolite terrain by metamorphism around 1060 Ma. Specific ages are as follows: metarhyolite in the amphibolite terrain, 1093 ± 38 Ma; granitoids in the amphibolite terrain, 1045 ± 9 Ma to 1107 ± 16 Ma, charnockites in the granulite terrain, 1073 ± 8 Ma to 1135 ± 8 Ma, metamorphic zircons in garnet amphibolite and a post-metamorphic pegmatite, both 1060 ± 8 Ma. Older zircons were found only in a metasediment which yielded discordant zircon fractions with²⁰⁷Pb/²⁰⁶Pb ages between 1250 and 1450 Ma, and in a granulite facies metaquartzite, which contained concordant zircons with the following ages: 1104 ± 5 Ma, 1215 ± 15 Ma, 1400 Ma, 1700 Ma, 2000 Ma. The youngest age is interpreted as the age of granulite metamorphism, the older ages as those of detrital zircons.A Sm-Nd mineral isochron age of the garnet amphibolite (960 ± 120 Ma) agrees within error with the U-Pb age of metamorphic zircons (1060 ± 8 Ma). Initial _Nd values (T = 1.1 Ga) for 15 samples range from +4 to–4. The highest came from a metabasalt and two granitoids from Milorgfjella, the northern area; the lowest from the granulite-facies metasediment and from a charnockite, both from Vardeklettane, a nunatak in the south. The positive but subdued values preclude generation directly from depleted MORB-type mantle _Nd + 6 to + 7 at 1.1 Ga) and indicate generation from a source containing older crustal material.

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Zusammenfassung Die Gebiete um Heimefrontfjella und Mannefallknausane in Dronning Maud Land, Antarktis, bestehen aus amphibolith- und granulitfaziellen Grundgebirgskomplexen, die durch eine große Mylonitzone voneinander getrennt sind. Der amphibolithfazielle Komplex besteht aus mafisch bis felsischen Metavulkaniten und Metasedimenten, die von Granitplutonen intrudiert werden. Der Granulitkomplex enthält Suprakrustalgesteine ähnlicher Art, die von Charnockiten intrudiert werden.U-Pb-Alter, die mit der konventionellen Multikorn-Methode und an der Ionen-Mikrosonde an Einzelkörner bestimmt wurden, engen die magmatische Aktivität zwischen 1130 und 1045 Ma ein. Auf diese Periode folgte in dem amphibolithfaziellen Gebiet eine Regionalmetamorphose um 1060 Ma. Die Einzelalter sind wie folgt: in dem amphibolithfaziellen Komplex ergab ein Metarhyolith 1039 ± 38 Ma, während die Granitoide zwischen 1045 ± 9 Ma und 1107 ± 16 Ma variieren. In dem Granulitkomplex wurden die Charnockite auf 1073 ± 8 Ma bis 1135 ± 8 Ma datiert, während metamorphe Zirkone aus einem Granatamphibolith sowie aus einem posttektonischen Pegmatit identische Alter von 1060 ± 8 Ma ergaben. Ältere Komponenten wurden lediglich in einer Metasediment-Probe gefunden, die diskordante Zirkone mit²⁰⁷Pb/²⁰⁶Pb Altern zwischen ca. 1250 und 1450 Ma enthielt, sowie in einem granulitfaziellen Metaquarzit, in dem konkordante Zirkone die folgenden Alter ergaben: 1104 ± 5 Ma, 1215 ± 15 Ma, 1400 Ma, 1700 Ma, 2000 Ma. Das jüngste Zirkonalter aus dem Metaquarzit interpretieren wir als Zeitpunkt der Granulitmetamorphose, während die höheren Alter detritische Komponenten repräsentieren.Eine Sm-Nd Mineralisochrone für einen Granatamphibolith hat ein Alter von 960 ± 120 Ma, das innerhalb der experimentellen Fehler mit einem U-Pb-Alter von 1060 ± 8 Ma für metamorphe Zirkone übereinstimmt. Initiale _Nd-Werte (T = l.1 Ga) für 15 Proben variieren zwischen +4 und -4. Die höchsten Werte wurden für einen Metabasalt und zwei Granitoide von Milorgfjella im nördlichen Arbeitsgebiet bestimmt. Die niedrigsten Werte stammen aus dem granulitfaziellen Metaquarzit und von einem Charnockit, beide aus Vardeklettane, einem Nunatak im Süden. Die leicht positiven Werte lassen eine juvenile Bildung der Wirtsgesteine aus einem MORB-ähnlichen Mantel (_Nd + 6 bis + 7 um 1.1 Ga) nicht zu und deuten ein Ausgangsmaterial mit Komponenten älterer kontinentaler Kruste an.

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Résumé Les régions de Heimefrontfjella et Mannefallknausane situées dans le Dronning Maud Land en Antartique sont formées par deux zones principales à degrés métamorphiques différents: une à faciès amphibolitique et une autre à faciès granulitiques, séparées par une zone mylonitique. Des roches métavolcaniques à composition variant de basique à felsique ainsi que des roches d'origine sédimentaire composent la zone amphibolitique. Elles sont recoupées par des plutons granitiques. La zone granulitique est formée également par des roches d'origine volcanique et sedimentaire qui sont, elles, recoupées par des charnockites.Les mesures d'U-Pb sur zircons (utilisant la méthode conventionnelle et la microsonde ionique) montrent que l'activité magmatique s'est confinée à une période relativement courte entre 1130 Ma et 1045 Ma. Elle a été suivie par un métamorphisme, il y a 1060 Ma, dans la zone amphibolitique. De façon plus détaillée, les âges sont les suivants: dans la zone amphibolitique, rhyolite datée à 1093 ± 38 Ma, granitoïdes datés à 1045 ± 9 Ma et 1107 ± 16 Ma; dans la zone granulitique, charnockites datées entre 1073 ± 8 Ma et 1135 ± 8 Ma, zircons métamorphiques provenant d'une amphibolite à grenat datés à 1060 ± 8 Ma et pegmatite postmétamorphique datée à 1060 ± 8 Ma. Deux roches ont fourni des zircons donnant des âges plus anciens: un sédiment métamorphisé et un metaquartzite. Les âges²⁰⁷Pb/²⁰⁶Pb obtenus pour les fractions discordantes des zircons du metasediment varient entre 1250 et 1450 Ma alors que le metaquartzite contient des zircons concordants avec les âges suivants: 1104±5 Ma, 1215±15Ma, 1400 Ma, 1700 Ma et 2000 Ma. L'âge le plus jeune obtenu pour le métaquartzite est interprété comme représentant l'âge du métamorphisme granulitique alors que les âges plus anciens représentent les âges de zircons détritiques.Une isochrone Sm-Nd sur minéraux a été obtenue sur une amphibolite à grenat. Elle définit un âge de 960 ± 120 Ma qui correspond, aux erreurs près, à l'âge U-Pb des zircons métamorphiques (1060 ± 8 Ma). Les _Ndinitiaux (T = 1,l Ga) obtenus pour 15 échantillons varient entre +4 et –4. Les valeurs les plus élevées ont été obtenues pour un basalte et deux granitoïdes de Milorgfjella situés dans la partie nord; les valeur _Nd les plus faibles proviennent du métasédiment dans la zone granulitique et d'une charnockite. Ces deux échantillons se situent dans le nunatak Vardeklettane dans le Sud. Les _Nd étant positifs mais toutefois plus faibles que la valeur du manteau appauvri à cette période (entre +6 et +7 à 1,1 Ma), une extraction directe du manteau ne peut être retenue et nous suggérons que la région source contenait du matériau crustal plus ancien.

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Heimfreontfjella Mannefallknausane Dronning Maud, , , . , . , ., , 1130 1045 Ma. 1060 . : — 1093±38 Ma, 1045±9 Ma 1107±16 Ma. 1073±8 Ma 1135±8 Ma, - 1060±8 Ma. , , 1250 1450 Ma. : 1104±5 Ma, 1215±15 Ma, 1400 Ma, 1700 Ma 2000 Ma. , , , . Sm-Nd, -, 960±120 Ma, , - 1060±8 Ma. Nd (T=1,1 ) 15 + 4 — 4. Milogrfjella . , Vardeklettane . , MORB (Nd + 6 + 7, 1,1 ); .