scholarly article | Q13442814 |
P819 | ADS bibcode | 2015JPet...56..193M |
P356 | DOI | 10.1093/PETROLOGY/EGU075 |
P50 | author | Catherine McCammon | Q87265457 |
Richard Price | Q111242153 | ||
P2093 | author name string | Alan F. Cooper | |
Adam P. Martin | |||
P2860 | cites work | Mineralogy and Composition of the Oceanic Mantle | Q111242292 |
Origin and significance of spinel and garnet pyroxenites in the shallow lithospheric mantle: Ultramafic massifs in orogenic belts in Western Europe and NW Africa | Q111242293 | ||
Metasomatised Xenoliths from Foster Crater, Antarctica: Implications for Lithospheric Structure and Processes beneath the Transantarctic Mountain Front | Q111242295 | ||
Mineralogical and geochemical constraints on the shallow origin, ancient veining, and multi-stage modification of the Lherz peridotite | Q111242296 | ||
Early Cambrian carbonatite in Antarctica | Q111242297 | ||
Proterozoic lithosphere in Marie Byrd Land, West Antarctica: Re–Os systematics of spinel peridotite xenoliths | Q111242298 | ||
Rock Nomenclature with Particular Relation to Deformation and Recrystallisation Textures in Olivine-Bearing Xenoliths | Q111242299 | ||
Geodynamic Information in Peridotite Petrology | Q111242300 | ||
Metasomatized ancient lithospheric mantle beneath the young Zealandia microcontinent and its role in HIMU-like intraplate magmatism | Q111242302 | ||
Melting in the oceanic upper mantle: An ion microprobe study of diopsides in abyssal peridotites | Q111242303 | ||
Experimental determination of partition coefficients for rare earth and high-field-strength elements between clinopyroxene, garnet, and basaltic melt at high pressures | Q111242304 | ||
Origin and significance of spinel–pyroxene symplectite in lherzolite xenoliths from Tallante, SE Spain | Q111242305 | ||
A refined solution to Earth’s hidden niobium: implications for evolution of continental crust and mode of core formation | Q111242306 | ||
A new estimate for the composition of weathered young upper continental crust from alluvial sediments, Queensland, Australia | Q111242307 | ||
Relative depletion of niobium in some arc magmas and the continental crust: partitioning of K, Nb, La and Ce during melt/rock reaction in the upper mantle | Q111242309 | ||
Thermobarometric evolution and metasomatic processes of upper mantle in different tectonic settings: evidence from spinel peridotite xenoliths | Q111242310 | ||
Melting of mantle peridotite at pressures approaching the spinel to garnet transition: Application to mid-ocean ridge basalt petrogenesis | Q111242311 | ||
Shearing Melt Out of the Earth: An Experimentalist's Perspective on the Influence of Deformation on Melt Extraction | Q111242312 | ||
Differentiation of partial melts in the mantle: Evidence from the Balmuccia peridotite, Italy | Q111242313 | ||
An experimental study of pyroxenite partial melts at 1 and 1.5GPa: Implications for the major-element composition of Mid-Ocean Ridge Basalts | Q111242314 | ||
Earth's heterogeneous mantle: A product of convection-driven interaction between crust and mantle | Q111242315 | ||
Evolution of the South African mantle—a case study of garnet peridotites from the Finsch diamond mine (Kaapvaal craton); Part 2: Multiple depletion and re-enrichment processes | Q111242316 | ||
The lithospheric mantle and lower crust–mantle relationships under Scotland: a xenolithic perspective | Q111242317 | ||
Building and Destroying Continental Mantle | Q111242318 | ||
Melting of Garnet Peridotite and the Origin of Komatiite and Depleted Lithosphere | Q111242319 | ||
Trace elements in orogenic lherzolites reveal the complex history of the upper mantle | Q111242320 | ||
Ferric iron in mantle-derived pyroxenes and a new oxybarometer for the mantle | Q111242321 | ||
Melt Extraction and Compositional Variability in Mantle Lithosphere | Q111242322 | ||
Magnetic petrology of lower crust and upper mantle xenoliths from McMurdo Sound, Antarctica | Q111242323 | ||
Oceanic Island Basalts and Mantle Plumes: The Geochemical Perspective | Q111242324 | ||
Extreme HIMU in an oceanic setting: the geochemistry of Mangaia Island (Polynesia), and temporal evolution of the Cook—Austral hotspot | Q111242325 | ||
Oxygen Thermobarometry of Orogenic Lherzolite Massifs | Q111242326 | ||
Ferric iron in orogenic lherzolite massifs and controls of oxygen fugacity in the upper mantle | Q111242327 | ||
Major and trace element composition of the depleted MORB mantle (DMM) | Q111242328 | ||
The petrology of lower crustal xenoliths from the Executive Committee Range, Marie Byrd Land Volcanic Province, West Antarctica | Q111242329 | ||
Four- and five-phase peridotites from a continental rift system: evidence for upper mantle uplift and cooling at the Ross Sea margin (Antarctica) | Q111242330 | ||
Petrology and Geochronology of Eclogites from the Lanterman Range, Antarctica | Q111242289 | ||
Phonolitic Diatremes within the Dunedin Volcano, South Island, New Zealand | Q111242290 | ||
Compositional Layering in Alpine Peridotites: Evidence for Pressure Solution Creep in the Mantle | Q111242291 | ||
The mean composition of ocean ridge basalts | Q111242294 | ||
The composition of the Earth | Q29396953 | ||
Tasmanian Tertiary basalts, the Balleny plume, and opening of the Tasman Sea (southwest Pacific Ocean) | Q29541357 | ||
The return of subducted continental crust in Samoan lavas. | Q43529874 | ||
Geochronology of Mount Morning, Antarctica: two-phase evolution of a long-lived trachyte-basanite-phonolite eruptive center | Q56658137 | ||
An internally consistent thermodynamic data set for phases of petrological interest | Q56850982 | ||
Temporal and geochemical evolution of the Cenozoic intraplate volcanism of Zealandia | Q57580074 | ||
Cenozoic intraplate volcanism on New Zealand: Upwelling induced by lithospheric removal | Q57580124 | ||
Geochemical Evolution of Intraplate Volcanism at Banks Peninsula, New Zealand: Interaction Between Asthenospheric and Lithospheric Melts | Q57637969 | ||
Arc accretion to the early Paleozoic Antarctic margin of Gondwana in Victoria Land | Q57685839 | ||
Mechanisms and Sources of Mantle Metasomatism: Major and Trace Element Compositions of Peridotite Xenoliths from Spitsbergen in the Context of Numerical Modelling | Q57762982 | ||
The oxidation state of subcontinental mantle: oxygen thermobarometry of mantle xenoliths from central Asia | Q57763075 | ||
Redox state of subcontinental lithospheric mantle and relationships with metasomatism: insights from spinel peridotites from northern Victoria Land (Antarctica) | Q57786709 | ||
Thermal Evolution of the Lithosphere in a Rift Environment as Inferred from the Geochemistry of Mantle Cumulates, Northern Victoria Land, Antarctica | Q57786729 | ||
Cenozoic thermal evolution of lithospheric mantle in northern Victoria Land (Antarctica): Evidences from mantle xenoliths | Q57786735 | ||
Geochemical and O-isotope constraints on the evolution of lithospheric mantle in the Ross Sea rift area (Antarctica) | Q57786812 | ||
Geochemical Constraints on the Petrogenesis of Diamond Facies Pyroxenites from the Beni Bousera Peridotite Massif, North Morocco | Q57799914 | ||
Tectonic implications of graphitized diamonds from the Ronda, peridotite massif, southern Spain | Q57799923 | ||
Diversity of Mafic Rocks in the Ronda Peridotite: Evidence for Pervasive Melt-Rock Reaction during Heating of Subcontinental Lithosphere by Upwelling Asthenosphere | Q57854864 | ||
Alkaline and Carbonate-rich Melt Metasomatism and Melting of Subcontinental Lithospheric Mantle: Evidence from Mantle Xenoliths, NE Bavaria, Bohemian Massif | Q57872679 | ||
Initiation of magmatism during the Cambrian–Ordovician Ross orogeny in southern Victoria Land, Antarctica | Q111242263 | ||
A high threshold voltage uniformity MIS-like heterostructure FET using n+-Ge as a gate electrode | Q111242264 | ||
Characterization of spinel peridotites by olivine-spinel compositional relationships: Review and interpretation | Q111242265 | ||
The behaviour of tungsten during mantle melting revisited with implications for planetary differentiation time scales | Q111242266 | ||
A petrologic geotherm from a continental rift in Antarctica | Q111242267 | ||
Increased mantle heat flow with on-going rifting of the West Antarctic rift system inferred from characterisation of plagioclase peridotite in the shallow Antarctic mantle | Q111242268 | ||
Sodium partitioning between clinopyroxene and silicate melts | Q111242269 | ||
Post 3.9 Ma fault activity within the West Antarctic rift system: onshore evidence from Gandalf Ridge, Mount Morning eruptive centre, southern Victoria Land, Antarctica | Q111242270 | ||
Petrogenesis of layered pyroxenites from the Lherz, Freychinéde and Prades ultramafic bodies (Ariége, French Pyrénées) | Q111242271 | ||
Petrogenesis of Cenozoic, alkalic volcanic lineages at Mount Morning, West Antarctica and their entrained lithospheric mantle xenoliths: Lithospheric versus asthenospheric mantle sources | Q111242272 | ||
The Ronda Peridotite: Garnet-, Spinel-, and Plagioclase-Lherzolite Facies and the P-T Trajectories of a High-Temprature Mantle Intrusion | Q111242273 | ||
Crystal chemistry of amphiboles: implications for oxygen fugacity and water activity in lithospheric mantle beneath Victoria Land, Antarctica | Q111242274 | ||
A tectonic model of the Antarctic Gondwana margin with implications for southeastern Australia: isotopic and geochemical evidence | Q111242275 | ||
East-West Antarctic boundary in McMurdo sound | Q111242276 | ||
The geobarometric significance of plagioclase in mantle peridotites: A link between nature and experiments | Q111242277 | ||
Bulk-rock Major and Trace Element Compositions of Abyssal Peridotites: Implications for Mantle Melting, Melt Extraction and Post-melting Processes Beneath Mid-Ocean Ridges | Q111242278 | ||
Compositional distinction between oceanic and cratonic lithosphere | Q111242279 | ||
The Olivine--Orthopyroxene--Spinel Oxygen Geobarometer, the Nickel Precipitation Curve, and the Oxygen Fugacity of the Earth's Upper Mantle | Q111242280 | ||
Geothermobarometry in Four-phase Lherzolites II. New Thermobarometers, and Practical Assessment of Existing Thermobarometers | Q111242281 | ||
Distribution of Ferric Iron in some Upper-Mantle Assemblages | Q111242282 | ||
Origin of eclogite and garnet pyroxenite from the Moldanubian Zone of the Bohemian Massif, Czech Republic and its implication to other mafic layers embedded in orogenic peridotites | Q111242283 | ||
Amphibole genesis via metasomatic reaction with clinopyroxene in mantle xenoliths from Victoria Land, Antarctica | Q111242284 | ||
The Origin of HIMU in the SW Pacific: Evidence from Intraplate Volcanism in Southern New Zealand and Subantarctic Islands | Q111242285 | ||
Geology, geochronology and geochemistry of a basanitic volcano, White Island, Ross Sea, Antarctica | Q111242286 | ||
The transition from porous to channelized flow due to melt/rock reaction during melt migration | Q111242287 | ||
Classification of Textures in Ultramafic Xenoliths | Q111242288 | ||
Isotopic constraints on the origin of ultramafic and mafic dikes in the Balmuccia peridotite (Ivrea Zone) | Q57878974 | ||
The role of eclogite in the rift-related metasomatism and Cenozoic magmatism of Northern Victoria Land, Antarctica | Q57887908 | ||
The Composition and Evolution of Lithospheric Mantle: a Re-evaluation and its Tectonic Implications | Q57888218 | ||
Evidence for carbonatite metasomatism in spinel peridotite xenoliths from western Victoria, Australia | Q57890234 | ||
Al-augite and Cr-diopside ultramafic xenoliths in basaltic rocks from western United States | Q58360968 | ||
Comparative Sr–Nd–Hf–Os–Pb isotope systematics of xenolithic peridotites from Yangyuan, North China Craton: Additional evidence for a Paleoproterozoic age | Q58760716 | ||
Rutile-Bearing Refractory Eclogites: Missing Link Between Continents and Depleted Mantle | Q58760997 | ||
Extraction of mid-ocean-ridge basalt from the upwelling mantle by focused flow of melt in dunite channels | Q59062451 | ||
Evidence for melt segregation towards fractures in the Horoman mantle peridotite complex | Q59086613 | ||
A possible high Nb/Ta reservoir in the continental lithospheric mantle and consequences on the global Nb budget – Evidence from continental basalts from Central Germany | Q59295171 | ||
Dunite distribution in the Oman Ophiolite: Implications for melt flux through porous dunite conduits | Q59508889 | ||
Lu-Hf Isotope Systematics of Garnet Pyroxenites from Beni Bousera, Morocco: Implications for Basalt Origin | Q59737969 | ||
Volcanic activity and its link to glaciation cycles: Single-grain age and geochemistry of Early to Middle Miocene volcanic glass from ANDRILL AND-2A core, Antarctica | Q59761930 | ||
Markers of the pyroxenite contribution in the major-element compositions of oceanic basalts: Review of the experimental constraints | Q59787449 | ||
Evidence from Antarctic mantle peridotite xenoliths for changes in mineralogy, geochemistry and geothermal gradients beneath a developing rift | Q59810572 | ||
Ultramafic inclusions from San Carlos, Arizona: Petrologic and geochemical data bearing on their petrogenesis | Q59810909 | ||
Formation of pyroxenite layers in the Totalp ultramafic massif (Swiss Alps) – Insights from highly siderophile elements and Os isotopes | Q59811095 | ||
Ferric iron in peridotites and mantle oxidation states | Q59811202 | ||
Carbonatite metasomatism in the northern Tanzanian mantle: Petrographic and geochemical characteristics | Q59811206 | ||
Constraints on the composition of the continental lithospheric mantle | Q59811221 | ||
Widespread refertilization of cratonic and circum-cratonic lithospheric mantle | Q59842241 | ||
A Cenozoic diffuse alkaline magmatic province (DAMP) in the southwest Pacific without rift or plume origin | Q59849803 | ||
High pressure experimental calibration of the olivine-orthopyroxene-spinel oxygen geobarometer: implications for the oxidation state of the upper mantle | Q59855180 | ||
Variations in crustal structure across the transition from West to East Antarctica, Southern Victoria Land | Q60012000 | ||
A Sr, Nd, Hf, and Pb isotope perspective on the genesis and long-term evolution of alkaline magmas from Erebus volcano, Antarctica | Q60126279 | ||
Major and Trace Element and Sr, Nd, Hf, and Pb Isotope Compositions of the Karoo Large Igneous Province, Botswana–Zimbabwe: Lithosphere vs Mantle Plume Contribution | Q60126314 | ||
A simple method for the precise determination of ≥ 40 trace elements in geological samples by ICPMS using enriched isotope internal standardisation | Q60130115 | ||
Pb-Nd-Sr isotopic compositions and trace element characteristics of young volcanic rocks from Egmont Volcano and comparisons with basalts and andesites from the Taupo Volcanic Zone, New Zealand | Q60130274 | ||
Geochemical and geodynamical constraints on subduction zone magmatism | Q60130285 | ||
An experimental study of the kinetics of lherzolite reactive dissolution with applications to melt channel formation | Q60138620 | ||
The Redox State of Earth's Mantle | Q61714378 | ||
The chemical composition of subducting sediment and its consequences for the crust and mantle | Q62089302 | ||
Silica enrichment in the continental upper mantle via melt/rock reaction | Q69659798 | ||
Mantle oxidation state and its relationship to tectonic environment and fluid speciation | Q81036354 | ||
Lithospheric dynamics and mantle sources of alkaline magmatism of the Cenozoic West Antarctic Rift System | Q97308152 | ||
Crustal and upper mantle structure beneath Antarctica and surrounding oceans | Q97308167 | ||
The Lherz spinel lherzolite: Refertilized rather than pristine mantle | Q105127181 | ||
A Mössbauer milliprobe: Practical considerations | Q105602684 | ||
A technique for spatially resolved Mossbauer spectroscopy applied to quenched metallurgical slags | Q105603119 | ||
Jurassic back-arc and Cretaceous hot-spot series In the Armenian ophiolites — Implications for the obduction process | Q105622860 | ||
Chemical Geodynamics | Q107275667 | ||
Plagioclase Peridotites in Ocean-Continent Transitions: Refertilized Mantle Domains Generated by Melt Stagnation in the Shallow Mantle Lithosphere | Q108688475 | ||
Refertilization of mantle peridotite in embryonic ocean basins: trace element and Nd isotopic evidence and implications for crust–mantle relationships | Q108688630 | ||
P433 | issue | 1 | |
P921 | main subject | petrology | Q163082 |
petrography | Q289600 | ||
geochemistry | Q161764 | ||
petrogenesis | Q2624576 | ||
P304 | page(s) | 193-226 | |
P577 | publication date | 2015-01-01 | |
P1433 | published in | Journal of Petrology | Q12176927 |
P1476 | title | Petrogenesis of the Rifted Southern Victoria Land Lithospheric Mantle, Antarctica, Inferred from Petrography, Geochemistry, Thermobarometry and Oxybarometry of Peridotite and Pyroxenite Xenoliths from the Mount Morning Eruptive Centre | |
P478 | volume | 56 |
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