Carlson, Richard W., 1954-....
Richard W. Carlson American geochemist and cosmochemist
Carlson, R. W. (Richard W.), 1954-
Carlson, Richard W.
Carlson, R. W. 1954-
VIAF ID: 84445502 (Personal)
Permalink: http://viaf.org/viaf/84445502
Preferred Forms
- 200 _ | ‡a Carlson ‡b Richard W. ‡f 1954-
- 100 1 _ ‡a Carlson, R. W. ‡d 1954-
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- 100 1 _ ‡a Carlson, R. W. ‡q (Richard W.), ‡d 1954-
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- 100 1 _ ‡a Carlson, Richard W., ‡d 1954-....
- 100 0 _ ‡a Richard W. Carlson ‡c American geochemist and cosmochemist
4xx's: Alternate Name Forms (9)
Works
Title | Sources |
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142Nd/144Nd inferences on the nature and origin of the source of high 3He/4He magmas | |
147,146 Sm– 143,142 Nd, 176 Lu– 176 Hf, and 87 Rb– 87 Sr systematics in the angrites: Implications for chronology and processes on the angrite parent body | |
The accretion and impact history of the ordinary chondrite parent bodies | |
The age and history of the lithospheric mantle of the Siberian craton: Re–Os and PGE study of peridotite xenoliths from the Obnazhennaya kimberlite | |
The age of ferroan anorthosite 60025: oldest crust on a young Moon? | |
Alexandria, Egypt, before Alexander the Great: A multidisciplinary approach yields rich discoveries | |
Analysis of lunar samples: Implications for planet formation and evolution | |
An ancient recipe for flood-basalt genesis | |
Building Archean cratons from Hadean mafic crust | |
Carbonate record of temporal change in oxygen fugacity and gaseous species in asteroid Ryugu | |
The Cascadia Initiative: A Sea Change In Seismological Studies of Subduction Zones | |
Changing Mantle Sources and the Effects of Crustal Passage on the Steens Basalt, SE Oregon: Chemical and Isotopic Constraints | |
Chemical and isotopic composition (Os, Pb, Nd, and Sr) of Neogene to Quaternary calc-alkalic, shoshonitic, and ultrapotassic mafic rocks from the Italian peninsula: Inferences on the nature of their mantle sources | |
Chondrite barium, neodymium, and samarium isotopic heterogeneity and early Earth differentiation | |
Chromium isotope heterogeneity in the mantle | |
Chronological evidence that the Moon is either young or did not have a global magma ocean | |
Combined Lithophile-Siderophile Isotopic Constraints on Hadean Processes Preserved in Ocean Island Basalt Sources | |
Comment and Reply on ‘Implications of oxygen-isotope data and trace-element modeling for a large-scale mixing model for the Columbia River Basalt’: COMMENT | |
Comparative Sr–Nd–Hf–Os–Pb isotope systematics of xenolithic peridotites from Yangyuan, North China Craton: Additional evidence for a Paleoproterozoic age | |
Composition of the Earth's interior: the importance of early events. | |
Compositional characteristics of the MORB mantle and bulk silicate earth based on spinel peridotites from the Tariat Region, Mongolia | |
Constraints from high-pressure veins in eclogites on the composition of hydrous fluids in subduction zones | |
Contrasting types of metasomatism in dunite, wehrlite and websterite xenoliths from Kimberley, South Africa | |
Contribution of Ryugu-like material to Earth’s volatile inventory by Cu and Zn isotopic analysis | |
Correlated nucleosynthetic isotopic variability in Cr, Sr, Ba, Sm, Nd and Hf in Murchison and QUE 97008 | |
Cosmogenic effects on chromium isotopes in meteorites | |
Crustal genesis on the Oregon Plateau | |
A crustal life preserver | |
Early Differentiation and Its Long-Term Consequences for Earth Evolution | |
Earth's building blocks | |
The endmember stew | |
Evidence for the survival of the oldest terrestrial mantle reservoir | |
Feedstocks of the Terrestrial Planets | |
Formation age and metamorphic history of the Nuvvuagittuq Greenstone Belt | |
A geochemical database for western North American volcanic and intrusive rocks (NAVDAT) | |
Geochronology and thermochronology | |
Geology. Osmium remembers | |
Hadean silicate differentiation preserved by anomalous 142Nd/144Nd ratios in the Réunion hotspot source | |
Half a billion years of reworking of Hadean mafic crust to produce the Nuvvuagittuq Eoarchean felsic crust | |
High P-T experimental perspective on Cr isotopic fractionation during planetary core formation | |
How Did Early Earth Become Our Modern World? | |
How the Earth's mantle could lie about its age | |
Isotopic (Sr, Nd, Pb, and Os) composition of highly magnesian dikes of Vestfjella, western Dronning Maud Land, Antarctica: A key to the origins of the Jurassic Karoo large igneous province? | |
Os isotopic variation in basalts from Haleakala Volcano, Maui, Hawaii: A record of magmatic processes in oceanic mantle and crust | |
The large-scale structure of convection in the Earth's mantle | |
Layer cake or plum pudding? | |
Major, trace element, and isotopic compositions of Vietnamese basalts: Interaction of hydrous EM1-rich asthenosphere with thinned Eurasian lithosphere | |
The mantle and core, 2004: | |
Mantle dynamics beneath the Pacific Northwest and the generation of voluminous back-arc volcanism | |
Matrix-induced isotopic mass fractionation in the ICP-MS | |
A matter of give and take | |
Melting of wet lithosphere | |
Meteorites have inherited nucleosynthetic anomalies of potassium-40 produced in supernovae | |
Microstructures, Water Contents, and Seismic Properties of the Mantle Lithosphere Beneath the Northern Limit of the Hangay Dome, Mongolia | |
The nature of Earth’s first crust | |
Neodymium‐142 deficits and samarium neutron stratigraphy of C‐type asteroid (162173) Ryugu | |
A new recipe for Earth formation | |
The Origin and Evolution of the Kaapvaal Cratonic Lithospheric Mantle | |
The origin of Patagonia revealed by Re-Os systematics of mantle xenoliths | |
Origin of Primitive Tholeiitic and Calc-Alkaline Basalts at Newberry Volcano, Oregon | |
Osmium isotope evidence for uniform distribution of s- and r-process components in the early solar system | |
Oxygen isotopes of anhydrous primary minerals show kinship between asteroid Ryugu and comet 81P/Wild2 | |
Petrogenesis and tectonics of the Acasta Gneiss Complex derived from integrated petrology and 142 Nd and 182 W extinct nuclide-geochemistry | |
Physical, chemical, and chronological characteristics of continental mantle | |
Preservation of Earth-forming events in the tungsten isotopic composition of modern flood basalts | |
Presolar Stardust in Asteroid Ryugu | |
Rb-Sr, Sm-Nd and Lu-Hf isotope systematics of the lunar Mg-suite: the age of the lunar crust and its relation to the time of Moon formation | |
Re–Os evidence for replacement of ancient mantle lithosphere beneath the North China craton | |
Regional Middle Proterozoic enrichment of the subcontinental mantle source of igneous rocks from central Montana | |
ReOs and UPb geochronological constraints on the eclogite–tonalite connection in the Archean Man Shield, West Africa | |
Ryugu’s nucleosynthetic heritage from the outskirts of the Solar System | |
Samples returned from the asteroid Ryugu are similar to Ivuna-type carbonaceous meteorites | |
Siderophile-rich inclusions from the Morokweng impact melt sheet, South Africa: possible fragments of a chondritic meteorite | |
Slab fragmentation, edge flow and the origin of the Yellowstone hotspot track | |
Slow changes in lava chemistry at Kama‘ehuakanaloa linked to sluggish mantle upwelling on the margin of the Hawaiian plume | |
The Sr-isotopic stratigraphy of the Northern Limb of the Bushveld Complex, South Africa | |
Sr, Nd, and Pb isotopic compositions of Hainan basalts (south China): Implications for a subcontinental lithosphere Dupal source | |
A sulfide perspective on iron isotope fractionation during ocean island basalt petrogenesis | |
A tale of two cratons : the Slave-Kaapvaal workshop | |
Time scales of formation of zoned magma chambers: U-series disequilibria in the Fogo A and 1563 A.D. trachyte deposits, São Miguel, Azores | |
Torfajökull: a radiogenic end-member of the Iceland Pb-isotopic array | |
Treatise on geochemistry. | |
Tungsten-182 evidence for an ancient kimberlite source | |
Tungsten Isotope Composition of Archean Crustal Reservoirs and Implications for Terrestrial μ182W Evolution | |
(U–Th)/He dating of kimberlites—A case study from north-eastern Kansas | |
Ultramafic rocks at the center of the Vredefort structure: Further evidence for the crust on edge model | |
Unusual coexistence of subduction-related and intraplate-type magmatism: Sr, Nd and Pb isotope and trace element data from the magmatism of the San Pedro–Ceboruco graben (Nayarit, Mexico) | |
Where has all the old crust gone? |