Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/subsolidus-reactions-monitored-by-trace-element-partitioning-the-DLZFuVZROc
References (75)
-
F. Frey, M. Prinz (1978)
Ultramafic inclusions from San Carlos, Arizona: Petrologic and geochemical data bearing on their petrogenesisEarth and Planetary Science Letters, 38
-
A. Woodland, J. Kornprobst, B. Wood (1992)
Oxygen Thermobarometry of Orogenic Lherzolite MassifsJournal of Petrology, 33
-
G. Piccardo, E. Rampone, R. Vannucci, N. Shimizu, L. Ottolini, P. Bottazzi (1993)
Mantle processes in the sub-continental lithosphere: the case study of the rifted sp-lherzolites from Zabargad (Red Sea)European Journal of Mineralogy, 5
-
G Braga, R Casnedi, F Giammetti, G Marchetti, G Zerbi (1975)
Elementi di granuliti basiche in livelli clastici associati a masse ofiolitiche ultrafemiche del versante appennino padanoAtti Ist Geol Univ Pavia, 25
-
MA Menzies, CJ Hawkesworth (1987)
Mantle xenoliths -
GB Piccardo (1977)
Le ofioliti dell'areale ligure: petrologia ed ambiente geodinamico di formazioneRend Soc Geol Ital Mineral Petrol, 33
-
V. Salters, S. Hart (1991)
The mantle sources of ocean ridges, islands and arcs: the Hf-isotope connectionEarth and Planetary Science Letters, 104
-
A Nicolas, ED Jackson (1972)
Repartition en deux provinces des peridotites des chaines alpines longeant la Mediterranee: implications geotectoniquesBull Suisse Mineral Petrogr, 52
-
G. Piccardo, E. Rampone, R. Vannucci (1990)
Upper mantle evolution during continental rifting and ocean formation : evidences from peridotite bodies of the western Alpine-northern Apennine system, 156
-
E. Rampone, P. Bottazzi, L. Ottolini (1991)
Complementary Ti and Zr anomalies in orthopyroxene and clinopyroxene from mantle peridotitesNature, 354
-
M. Lemoine, P. Tricart, G. Boillot (1987)
Ultramafic and gabbroic ocean floor of the Ligurian Tethys (Alps, Corsica, Apennines): In search of a genetic imodelGeology, 15
-
R. Vissers, M. Drury, E. Strating, D. Wal (1991)
Shear zones in the upper mantle: A case study in an Alpine Iherzolite massifGeology, 19
-
P. Wyllie (1984)
Constraints imposed by experimental petrology on possible and impossible magma sources and productsPhilosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences, 310
-
F. Henjes‐Kunst, R. Altherr, A. Baumann (1990)
Evolution and composition of the lithospheric mantle underneath the western Arabian peninsula: constraints from Sr−Nd isotope systematics of mantle xenolithsContributions to Mineralogy and Petrology, 105
-
GB Piccardo (1976)
Petrologia del massiccio lherzolitico di Suvero (La Spezia)Ofioliti, 1
-
L. Ottolini, P. Bottazzi, R. Vannucci (1993)
Quantitative SIMS analyses of REEs in silicate minerals: choice of the standard for natural and glassy matrix -
D. Ionov, U. Kramm, H. Stosch (1992)
Evolution of the upper mantle beneath the southern Baikal rift zone: an Sr-Nd isotope study of xenoliths from the Bartoy volcanoesContributions to Mineralogy and Petrology, 111
-
W. McDonough, F. Frey (1989)
Chapter 5. RARE EARTH ELEMENTS IN UPPER MANTLE ROCKS -
A. Hofmann (1988)
Chemical differentiation of the Earth: the relationship between mantle, continental crust, and oceanic crustEarth and Planetary Science Letters, 90
-
V. Salters, N. Shimizu (1988)
World-wide occurrence of HFSE-depleted mantleGeochimica et Cosmochimica Acta, 52
-
R. Grauch (1989)
Rare earth elements in metamorphic rocksReviews in Mineralogy & Geochemistry, 21
-
A. Nicolas, C. Dupuy (1984)
Origin of ophiolitic and oceanic lherzolitesTectonophysics, 110
-
P Bottazzi, L Ottolini, R Vannucci (1991)
Determination of rare earth elements in sixteen silicate reference samples by secondary ion mass spectrometry using conventional energy filtering techniqueGeostand Newsl, 15
-
A. Nicolas (1989)
Structures of Ophiolites and Dynamics of Oceanic Lithosphere -
H. Stosch (1982)
Rare earth element partitioning between minerals from anhydrous spinel peridotite xenolithsGeochimica et Cosmochimica Acta, 46
-
J. Bodinier, C. Dupuy, J. Dostal (1988)
Geochemistry and petrogenesis of Eastern Pyrenean peridotitesGeochimica et Cosmochimica Acta, 52
-
I. Kushiro, H. Yoder (1966)
Anorthite—Forsterite and Anorthite—Enstatite Reactions and their bearing on the Basalt—Eclogite TransformationJournal of Petrology, 7
-
A Bezzi, GB Piccardo (1971)
Structural features of the Ligurian ophiolites: petrologic evidence for the ocean floor of the northern Apennine geosyncline: a contribution to the problem of the Alpine-type gabbro-peridotite associationsMem Soc Geol Ital, 10
-
L. Ottolini, P. Bottazzi, R. Vannucci, M. Oddone (1992)
AN ION PROBE CONTRIBUTION TO RARE EARTH ELEMENT INVESTIGATION OF GABBRO GOG-1 USING SECONDARY ION MASS SPECTROMETRYGeostandards and Geoanalytical Research, 16
-
H. Stosch (1981)
Sc, Cr, Co and Ni partitioning between minerals from spinel peridotite xenolithsContributions to Mineralogy and Petrology, 78
-
P Bottazzi, L Ottolini, R Vannucci (1990)
Secondary ion mass spectrometry, SIMS VII Proceedings -
J. Bodinier, M. Guiraud, J. Fabriès, J. Dostal, C. Dupuy (1987)
Petrogenesis of layered pyroxenites from the Lherz, Freychinéde and Prades ultramafic bodies (Ariége, French Pyrénées)Geochimica et Cosmochimica Acta, 51
-
G. Ottonello, J. Joron, G. Piccardo (1984)
Rare Earth and 3d Transition Element Geochemistry of Peridotitic Rocks: II. Ligurian Peridotites and Associated BasaltsJournal of Petrology, 25
-
W. McDonough, H. Stosch, N. Ware (1992)
Distribution of titanium and the rare earth elements between peridotitic mineralsContributions to Mineralogy and Petrology, 110
-
L. Beccaluva, G. Macciotta, G. Piccardo, O. Zeda (1984)
Petrology of lherzolitic rocks from the Northern Apennine ophiolitesLithos, 17
-
G. Piccardo, B. Messiga, R. Vannucci (1988)
The Zabargad peridotite-pyroxenite association: petrological constraints on its evolutionTectonophysics, 150
-
P. Tricart, M. Lemoine (1983)
Serpentinite oceanic botton in South Queyras ophiolites (French Western Alps): record of the incipient oceanic opening of the Mesozoic Ligurian TethysEclogae Geologicae Helvetiae, 76
-
E Rampone (1987)
Petrology of basaltic dykes from the Mt. Aiona ultramafics (External Ligurides, northern Apennines, Italy)Ofioliti, 12
-
B. Leake (1978)
Nomenclature of AmphibolesMineralogical Magazine, 42
-
P. Bottazzi, L. Ottolini, R. Vannucci (1992)
SIMS analyses of rare earth elements in natural minerals and glasses: An investigation of structural matrix effects on ion yieldsScanning, 14
-
G. Mckay (1989)
Partitioning of rare earth elements between major silicate minerals and basaltic meltsReviews in Mineralogy & Geochemistry, 21
-
W. Ernst, G. Piccardo (1979)
Petrogenesis of some Ligurian peridotites—I. Mineral and bulk-rock chemistryGeochimica et Cosmochimica Acta, 43
-
G Pagani, G Papani, D Rio, L Torelli, G Zanzucchi, M Zerbi (1972)
Osservazioni sulla giacitura delle ofioliti delle alte valli del T. Ceno e del F. TaroMem Soc Geol Ital, 11
-
EH Hoogerduijn Strating, GB Piccardo, E Rampone, M Scambelluri, RLM Vissers (1990)
The structure and petrology of the Erro-Tobbio peridotite (Voltri Massif, Ligurian Alps): a two day excursion with emphasis on processes in the upper mantleOfioliti, 15
-
C. Herzberg (1978)
Pyroxene geothermometry and geobarometry: experimental and thermodynamic evaluation of some subsolidus phase relations involving pyroxenes in the system CaO-MgO-Al2O3-SiO2Geochimica et Cosmochimica Acta, 42
-
J. Kornprobst, A. Tabit (1988)
Plagioclase-Bearing Ultramafic Tectonites from the Galicia Margin (Leg 103, Site 637): Comparison of Their Origin and Evolution with Low-Pressure Ultramafic Bodies in Western Europe -
A. Nicolas (1986)
Structure and Petrology of Peridotites: Clues to Their Geodynamic Environment (Paper 6R0344)Reviews of Geophysics
-
A Nicolas (1986)
Structure and petrology of peridotites: clues to their geodynamic environmentRev Geophys, 24
-
B Lombardo, U Pognante (1982)
Tectonic impications in the evolution of the Western Alps ophiolite metagabbrosOfioliti, 7
-
A. Bence, A. Albee (1968)
Empirical Correction Factors for the Electron Microanalysis of Silicates and OxidesThe Journal of Geology, 76
-
K. Jochum, W. McDonough, H. Palme, B. Spettel (1989)
Compositional constraints on the continental lithospheric mantle from trace elements in spinel peridotite xenolithsNature, 340
-
BE Leake (1978)
Nomenclature of amphibolesBull Mineral, 101
-
S. O’Reilly, W. Griffin, C. Ryan (1991)
Residence of trace elements in metasomatized spinel lherzolite xenoliths: a proton-microprobe studyContributions to Mineralogy and Petrology, 109
-
W. McDonough, F. Frey (1989)
Rare earth elements in upper mantle rocksReviews in Mineralogy & Geochemistry, 21
-
GA McKay (1989)
Geochemistry and mineralogy of rare earth elements -
A Nicolas (1984)
5th Int Kimberlite Conf Proc -
GB Piccardo, E Rampone, R Vannucci (1992)
Ligurian peridotites and ophiolites: from rift to ocean formation in the Jurassic Ligure-Piedmontese basinActa Vulcanol, 2
-
GB Piccardo (1983)
Genesi delle ofioliti dell'Appennino SettentrionaleMem Soc Geol Ital, 25
-
E. Zinner, G. Crozaz (1986)
A method for the quantitative measurement of rare earth elements in the ion microprobeInternational Journal of Mass Spectrometry and Ion Processes, 69
-
R. Grauch (1989)
Chapter 6. RARE EARTH ELEMENTS IN METAMORPHIC ROCKS -
H. Stosch, H. Seck (1980)
Geochemistry and mineralogy of two spinel peridotite suites from Dreiser Weiher, West GermanyGeochimica et Cosmochimica Acta, 44
-
F. Frey, N. Shimizu, A. Leinbach, M. Obata, E. Takazawa (1991)
Compositional Variations within the Lower Layered Zone of the Horoman Peridotite, Hokkaido, Japan: Constraints on Models for Melt-Solid SegregationJournal of Petrology
-
D. Presnall (1976)
Alumina content of enstatite as a geobarometer for plagioclase and spinel lherzolitesAmerican Mineralogist, 61
-
K. Johnson, H. Dick, N. Shimizu (1990)
Melting in the oceanic upper mantle: An ion microprobe study of diopsides in abyssal peridotitesJournal of Geophysical Research, 95
-
E. Anders, M. Ebihara (1982)
Solar-system abundances of the elementsGeochimica et Cosmochimica Acta, 46
-
J. Fabriès, J. Bodinier, C. Dupuy, J. Lorand, Constance Benkerrou (1989)
Evidence for Modal Metasomatism in the Orogenic Spinel Lherzolite Body from Caussou (Northeastern Pyrenees, France)Journal of Petrology, 30
-
FA Decandia, P Elter (1969)
La zona ofiolitifera del Bracco nel settore compreso fra Levanto e la Val Graveglia (Appennino Ligure)Mem Soc Geol Ital, 11
-
L Ottolini, P Bottazzi, R Vannucci (1992)
An ion contribution to rare earth element investigation of gabbro GOG-1 using secondary ion mass spectrometry techniqueGeostand Newsl, 15
-
N. Shimizu, M. Semet, C. Allègre (1978)
Geochemical applications of quantitative ion-microprobe analysis☆Geochimica et Cosmochimica Acta, 42
-
E Jagoutz, H Palme, H Baddenhausen, K Blum, M Cendales, G Dreibus, B Spettel, V Lorenz, H Wanke (1979)
The abundance of major, minor and trace elements in the Earth's mantle derived from ultramafic nodulesProc Lunar Planet Sci Conf, 10th
-
J. Fabriès, J. Lorand, J. Bodinier, C. Dupuy (1991)
Evolution of the Upper Mantle beneath the Pyrenees: Evidence from Orogenic Spinel Lherzolite MassifsJournal of Petrology
-
CT Herzberg (1976)
Progress in experimental petrology -
P. Bottazzi, L. Ottolini, R. Vannucci (1991)
Determination of Rare Earth Elements in Sixteen Silicate Reference Samples by Secondary Ion Mass Spectrometry Using Conventional Energy Filtering TechniqueGeostandards and Geoanalytical Research, 15
-
B. Wernicke (1985)
Uniform-sense normal simple shear of the continental lithosphereCanadian Journal of Earth Sciences, 22
-
A. Nicolas (1984)
Lherzolites of the Western Alps: A Structural ReviewDevelopments in Petrology, 11
- Publisher
- Springer Journals
- Copyright
- Copyright © 1993 by Springer-Verlag
- Subject
- Earth Sciences; Geology; Mineral Resources; Mineralogy
- ISSN
- 0010-7999
- eISSN
- 1432-0967
- DOI
- 10.1007/BF00712974
- Publisher site
- See Article on Publisher Site
Abstract
Mantle peridotites of the External Liguride (EL) Units (Northern Apennines) mainly consist of fertile spinel-lherzolites partially recrystallized to plagioclase-facies assemblages, and are consequently appropriate to investigate the interphase element partitioning related to the transition from spinel- to plagioclase-facies stability field. Evidence for the development of the plagioclase-facies assemblage is mainly given by: (1) large exsolution lamellae of orthopyroxene and plagioclase within spinel-facies clinopyroxene; (2) plagioclase rims around spinel; (3) granoblastic domains made up of olivine+plagioclase±clino-and orthopyroxene. In situ major and trace [REE (rare-earth elements), Ti, Sc, V, Cr, Sr, Y, Zr and Ba] element mineral analyses have been performed, by electron and ion probe, on selected samples which show the progressive development of the plagioclase-bearing assemblage. The main compositional variations observed during the change from spinel- to plagioclase-facies minerals are as follows: (1) clinopyroxenes decrease in Al, Na, Sr, Eu/Eu* and increase in Y, V, Sc, Cr, Zr and Ti; (2) amphiboles decrease in Eu/Eu*, Sr, Ba and increase in Zr and V; (3) spinels decrease in Al and increase in Cr and Ti. The most striking feature is the decoupling in the behaviour of similarly incompatible elements (D about 0.1) in clinopyroxene, e.g. Sr decrease is mirrored by Zr increase. Massbalance calculations indicate that the trace element interphase redistribution documented in the EL peridotites occurred in a closed system and in response to the metamorphic reaction governing the transition from the spinel- to the plagioclase-facies stability field. The observed element partitioning reveals, moreover, that subsolidus re-equilibration processes in the upper mantle produce HFSE (high-field-strength element)/REE fractionation in minerals, which must be evaluated for a reliable determination of mineral-melt distribution coefficients. The results of this study furnish evidence for subsolidus metamorphic evolution during decompression, without concomitant partial melting processes. This is consistent with the interpretation that the EL peridotites represent subcontinental lithospheric mantle emplaced at the surface in response to lithospheric thinning and tectonic denudation mechanisms related to the Triassic-Jurassic rifting of the Ligure-Piedmontese basin.
Journal
Contributions to Mineralogy and Petrology – Springer Journals
Published: Nov 11, 2004