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Jean Bernard-Griffiths Jean -Jacques Peucat Serge Fourcade Jean -Robert Kienast Khadidja Ouzegane 《Contributions to Mineralogy and Petrology》1988,100(3):339-348
Associated syenitic rocks and carbonatites from Ihouhaouene, Algeria, have been investigated for their Sr and Nd isotope and trace element geochemistry. A zircon U-Pb emplacement age (1994 +22 -17 Ma) has been obtained from the carbonatites. The REE characteristics, among which the significant and approximately constant negative Eu anomaly and the evolution of (La/Ce)N and (Yb/Lu)N ratios which increase sympathetically with total REE abundances, are considered to be of purely magmatic origin. They are used to constrain the genetic links between syenites and carbonatites. Sr and Nd isotopes suggest a similar source for carbonatites and syenites, which is enriched compared to a chondritic reference: Nd(T)=-6.4 to -8.6 and ISr(T)=0.7097. These features are interpreted as evidence of contamination of a mantle-derived magmatic precursor by continental crust, occurring in a magmatic chamber. 相似文献
2.
J.J. Peucat P. Jegouzo P. Vidal J. Bernard-Griffiths 《Earth and Planetary Science Letters》1988,88(1-2)
The isotopic compositions of Sr, Nd and Pb in leucogranites which are intercorrelated (Bernard-Griffiths et al., 1985 [1]) may be explained by the mixing of ancient basement (1800 Ma) with juvenile crust (late Precambrian or early Palaeozoic). This hypothesis does not involve the existence of Mid-Proterozoic crust, as apparently indicated by theTDM model ages of the leucogranites (ranging between 1600 and 1100 Ma). The Nd isotopes reveal the crustal reworking while Sr isotopes mainly record juvenile crust formation. This paradox is explained by the geochemical heterogeneity of the sources involved. 相似文献
3.
D. Gebauer J. Bernard-Griffiths M. Grünenfelder 《Contributions to Mineralogy and Petrology》1981,76(3):292-300
U-Pb data on zircons from the largest mafic-ultramafic body (6×2 km) of the French Central Massif (Sauviat-sur-Vige) yield the following age results: Primary magmatic crystallization of the gabbroic and peridotitic protoliths took place in the Cambro-Ordovician (496±25/17 m.y.). Variable transformation under eclogite facies conditions was Hercynian (320±29/36 m.y.). The same age pattern, derived by U-Pb monazite analyses, was found also for the immediate country rocks, i.e. kyanite bearing, coarse-grained metagranites occurring to the W and N of the Sauviat massif. Due to the fact that there is no regional Hercynian high-grade metamorphism in this part of the French Central Massif (e.g. Duthou 1977; Bernard-Griffiths 1975), both mafic-ultramafic complex as well as immediate felsic country rocks must have been emplaced tectonically into pre-Hercynian (Acadian±Caledonian) crustal rocks. The cause for such a Hercynian tectonism is thought to be due to continent-continent collision of the Spanish with the Armorican plate. Preliminary U-Pb zircon results on one eclogite sample taken about 50 km S of the Sauviat complex indicate also an Early Palaeozoic age for the magmatic protolith and a Hercynian transformation into eclogite, combined with and/or followed by tectonic emplacement. However, opposite to the continental Sauviat massif, we are probably dealing here with oceanic material, possibly deposited in an Early Palaeozoic marginal sea basin. Thus, subduction and tectonic emplacement of oceanic crust into continental crust terminated in this area also in the Hercynian. Concerning U-Pb systematics of zircon and monazite the following conclusions can be drawn:
- U-Pb systems of primary magmatic zircons of mafic and ultramafic rocks are only weakly disturbed during static eclogite facies metamorphism (T>820° C; P> 15 kbar);
- New- and overgrowth of zircon during eclogite facies metamorphism seems to be the major cause for the degree of discordance;
- Amphibolitization of metagabbros and eclogites had no effect on the degree of discordance of zircon;
- U-Pb systems of monazites remained undisturbed during intense weathering of the mother rock.
4.
Representative samples of metagabbros, eclogites and a garnet peridotite from the Massif de Sauviat-sur-Vige (West Massif Central) have been analyzed for major and trace elements (including REE). The LREE enriched patterns are distinct from those of modern MORB but resemble those of continental or ocean island tholeiites. An intraplate tectoning setting is thus inferred. Geochemical modeling using REE and major element contents suggests that all the rock types might be related genetically by fractional crystallization, and, in some instances, by mixing of cumulates and differentiated liquid as in the case of the garnet peridotite. P, T estimates from microprobe analyses of coexisting garnet-clinopyroxene pairs yield about 820°C, and P > 15 kb for the eclogite facies metamorphism. 相似文献
5.
Jean Bernard-Griffiths Jean-Marie Cantagrel Jean-Louis Duthou 《Contributions to Mineralogy and Petrology》1977,61(2):199-212
Systematic Rb-Sr determinations on granites and orthogneisses in the Western part of Massif Central Français (Limousin) permit us to say that metamorphism and associated folding occured in this area during the Devonian (between 400 and 350 m.y.) with anatexis stated at 360 m.y. Two premetamorphic magmatic episodes are located in the upper Cambrian-early Ordovician (520-490 m.y.) and in the Ordovician (460-450 m.y.). This should be compared with very similar radiometric results from Rouergue to South Brittany; thus a South Brittany-Limousin-Rouergue axis may be easily related to the acadian part from Appalachian belt. 相似文献
6.
Within the Caledonian complexes of northwestern Spitsbergen, high PT formations provide U---Pb zircon ages of 965±1 Ma of a metagranite and 955±1 Ma of a corona gabbro, indicating the influence of Grenvillian activity in the area. Various isotopic systems suggest that these rocks were partially derived by reworking of ancient crust (as old as Archaean). Eclogites and felsic agmatite indicate latest Proterozoic magmatic or metamorphic events (625−5+2 and 661±2 Ma, respectively) by U---Pb zircon dating. The eclogitic metamorphism age is not fully constrained and ranges between 540 and 620 Ma; this occurred prior to the superimposed Caledonian metamorphism, indicated by a part of the K---Ar and Rb---Sr mineral cooling ages. The new data and other evidence of Precambrian tectonothermal activity on Svalbard suggest that the Early Palaeozoic and Late Proterozoic successions exposed elsewhere on Svalbard may also be underlain by Grenvillian or older basement rocks. Relationships to other Grenvillian and older terrains in the Arctic are reviewed. 相似文献
7.
Continental Lithospheric Contribution to Alkaline Magmatism: Isotopic (Nd, Sr, Pb) and Geochemical (REE) Evidence from Serra de Monchique and Mount Ormonde Complexes 总被引:3,自引:1,他引:2 
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下载免费PDF全文 Bernard-Griffiths Jean; Gruau Gerard; Cornen Guy; Azambre Bernard; Mace Joel 《Journal of Petrology》1997,38(1):115-132
Isotopic results (Sr, Nd, Pb), as well as concentrations ofmajor and trace elements (REE) are reported for whole-rock samplesand mineral separates from the onland alkaline complex of Serrade Monchique (South Portugal) and the offshore alkali basaltvolcanic suite of Mount Ormonde (Gorringe Bank). These two geneticallyrelated alkaline complexes were emplaced at the east Atlanticcontinent–ocean boundary during the Upper Cretaceous,i.e. 66–72 m.y. ago. Taken together, Serra de Monchiqueand Mount Ormonde may be seen as one of the few examples ofwithin-plate magmatism that straddles the continent–oceanboundary. Major and trace element compositions fail to revealany significant differences between onland and offshore complexes.This is particularly true regarding less differentiated samples(mg-number 0.40) which show the same progressive and continuousenrichment of their trace element patterns, with no specificanomaly (e.g. negative Nb anomaly) being present in samplesfrom the onland complex. Initial Pb and Sr isotopic compositionsalso do not allow any distinction to be made between Serra deMonchique and Mount Ormonde samples. Initial Pb isotope ratiosare moderately high (19.1 < 206Pb/204Pb < 19.8; 207Pb/204Pb= 15.6) in both cases. Moreover, once the effects of Sr contaminationby seawater are taken into account and the most contaminatedsamples discarded using data from fresh clinopyroxene separatesand results of leaching experiments, the initial Sr isotopiccompositions of Mount Ormonde samples are found to be unradiogenic(87Sr/86Sr = 0.7031±1) and identical to those obtainedat Serra de Monchique (87Sr/86Sr = 0.7032±1). In contrast,a systematic mean difference of 2 Nd units is observed betweenSerra de Monchique [Nd(T) = +4.8] and Mount Ormonde [Nd(T) =+6.6] whole-rock samples. Surprisingly, a variation is alsoobserved at Mount Ormonde between the whole-rock samples andone of the two analysed clinopyroxene separates. Whereas MountOrmonde whole-rock samples invariably yielded Nd(T) = +6.6 (meanvalue), a value of +0.5 is obtained for one clinopyroxene separate,whereas another gives +6.0. The above geochemical and isotopicresults make it possible to assign respective roles to the asthenosphere,lithosphere and crust in the petrogenesis of Serra de Monchiqueand Mount Ormonde complexes. We propose that both complexesshare a common mantle source whose isotopic characteristicsare very similar to the source of oceanic island basalts. Continentalmantle lithosphere, already characterized isotopically by studiesof peridotite massifs within the Iberian peninsula, acts asa contaminant which is evident onland on the whole-rock scale,and also present offshore as discrete clinopyroxene xenocrysts.The continental crust appears to play no role in the petrogenesisof the Serra de Monchique alkaline rocks. KEY WORDS: alkaline complexes; continental lithosphere; isotope geochemistry; passive continental margin; within-plate volcanics 相似文献
8.
G. Gruau J. Bernard-Griffiths C. Lécuyer O. Henin J. Macé M. Cannat 《Contributions to Mineralogy and Petrology》1995,121(4):337-350
Peridotites, dykes and gabbros from the 470–420 Ma Trinity Ophiolite Complex of northern California exhibit large geochemical
rare earth element (REE) and Nd isotopic variations on the small scales which are indicative of a complex history. The Trinity
Ophiolite, which covers an area of ≈1600 km2, consists of three distinct units: (1) a ∼2–4 km-thick sheet of plastically deformed peridotites, including various ultrabasic
lithologies (plagioclase and spinel lherzolite, harzburgite, wherlite and dunite); the peridotite unit is a fragment of mantle
lithosphere of oceanic affinity; (2) a series of small (∼1 km diameter) undeformed gabbroic massifs; (3) several generations
of basic dykes. The peridotites display the largest geochemical and isotopic variations, with ɛNd(T) values ranging from +10 down to 0. In the gabbroic massifs and intrusive dykes, the variation in model ɛNd(T) values is reduced to 7 ɛNd units: 0 to +7. As a general rule, peridotites, gabbros and dykes with ɛNd(T) values around 0 or +3 give less depleted L(light)REE patterns than do those with ɛNd(T) values in the range +7 to +10. In the peridotites, the Nd isotopic variations take place over very short distances, with
jumps as large as 7 ɛNd units occurring on scales of less than 20 m. Comparison with available age data indicates that the peridotites with ɛNd(T)≈+10 could be slightly older than the intrusive gabbro massifs and basic dykes (470 Ma vs. 420 Ma). Strontium isotopic data
used in connection with Sm-Nd results demonstrate that the 10 ɛNd units variation displayed by the Trinity Peridotite is a primary feature and not an artefact due to REE mobility during seawater
interaction. The variable Nd isotopic signatures and variable LREE patterns in the Trinity Peridotite cannot represent mantle
source characteristics as there is evidence that this unit was partially melted when it rose as part of the upwelling convecting
mantle. Field, petrographic, geochemical and isotopic data rather suggest that the observed heterogeneity is due to local
reactions between a 470 Ma proto-peridotite with ɛNd(T)=+10 and younger (420 Ma) basaltic melts with lower ɛNd(T) values (i.e. the gabbroic massifs and the dykes). The gabbros and basic dykes of the Trinity Complex have geochemical and
isotopic compositions similar to the arc basalts from the adjacent Copley Formation, so it is proposed that the younger melts
are related to arc magmatism.
Received: 13 January 1995/Accepted 5 May 1995 相似文献
9.
Nine samples of blueschist facies metabasic rocks and four samples of associated metasedimentary lithologies were analysed for REE contents and Nd isotopic composition. Sampling includes the main rock types exposed on Groix, concentrating on those metabasic rocks with least dispersed Rb---Sr systems. The REE abundance patterns appear not to have suffered significant alteration since emplacement of the protolith magma despite subsequent blueschist facies metamorphism. The data, when integrated into a wider geochemical data-base, allow the identification and characterization of both tholeiitic and alkaline magma-types in the original igneous suite which was differentiated from depleted mantle sources. The basalts probably originated in an oceanic context. Some sediments are predominantly volcaniclastic, in which a continental crustal component may be recognized. Other sediments are closer in composition to continental crust with variable additions of tholeiitic or alkali-basalt debris. The volcanic-sedimentary assemblage on Groix is suggestive of ocean-island magmatic activity associated with a sedimentary sequence derived from a nearby continent. 相似文献
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