Skip to Main Content
Skip Nav Destination

Diamonds and the Geology of Mantle Carbon

Reviews in Mineralogy and Geochemistry (2013) 75 (1): 355–421.
This article has been cited by the following articles in journals that are participating in CrossRef Cited-by Linking.
Literature & Geosciences: Jules Verne’s geological novels, from the 19th to the 21st century
Comptes Rendus. Géoscience (2022) 354 (G2): 233.
Raman Identification of Inclusions in Diamond
Reviews in Mineralogy and Geochemistry (2022) 88 (1): 451.
Evidence for oxygen-conserving diamond formation in redox-buffered subducted oceanic crust sampled as eclogite
Nature Communications (2022) 13 (1)
Non-cratonic Diamonds from UHP Metamorphic Terranes, Ophiolites and Volcanic Sources
Reviews in Mineralogy and Geochemistry (2022) 88 (1): 191.
Study on the effect of N–H–O co-doping on diamond growth and its mechanism under HPHT by FeNi solvent
CrystEngComm (2022) 24 (9): 1773.
Triassic Diamondiferous Tuffaceous–Sedimentary Rocks in the Arctic Zone of Siberia
Russian Geology and Geophysics (2022) 63 (4): 458.
The A B C's of metasomatism in the North Atlantic Craton during Pangea breakup; characterized by fluid inclusions in Chidliak diamonds
Lithos (2022) 422-423: 106725.
Ringwoodite and zirconia inclusions indicate downward travel of super-deep diamonds
Geology (2022) 50 (9): 996.
Clues from Garnet-Spinel-Bearing Peridotite and Pyroxenite Xenoliths about the Formation of the Subcratonic Lithospheric Mantle—a Case Study from the Orapa Kimberlite Cluster
Journal of Petrology (2022) 63 (7)
Diapirism of carbonate platforms subducted into the upper mantle
Geology (2022) 50 (8): 929.
The composition of the fluid phase in inclusions in synthetic HPHT diamonds grown in system Fe–Ni–Ti–C
Scientific Reports (2022) 12 (1)
Redox Freezing and Melting during Peridotite Interaction with Carbonated Metasediments and Metabasics: Experiments at 10 GPa
Geochemistry International (2022) 60 (7): 609.
The fate of subducting carbon tracked by Mg and Zn isotopes: A review and new perspectives
Earth-Science Reviews (2022) 228: 104010.
An exotic Cretaceous kimberlite linked to metasomatized lithospheric mantle beneath the southwestern margin of the São Francisco Craton, Brazil
Geoscience Frontiers (2022) 13 (1): 101281.
A Review on Properties, Synthesis, Surface Functionalization and Application of Nanodiamonds for Antimicrobial Activity
Current Nanomaterials (2022) 7 (3): 193.
Phase transitions and compressibility of alkali-bearing double carbonates at high pressures: a first-principles calculations study
Physics and Chemistry of Minerals (2022) 49 (8)
Melting Phase Equilibria from 4 to 7 GPa in the System CaO-MgO-Al2O3-SiO2-CO2, the Persistence of the “Ledge” in Carbonated Basalt with Excess Silica, and the Most Likely Limits on the Depths of Termination of Carbon Cycle at Subduction Zones
Journal of Petrology (2022) 63 (8)
Inclusions in diamonds probe Earth’s chemistry through deep time
Communications Chemistry (2022) 5 (1)
Geochronology of Diamonds
Reviews in Mineralogy and Geochemistry (2022) 88 (1): 567.
Carbon in the deep upper mantle and transition zone under reduced conditions: Insights from high-pressure experiments and machine learning models
Geochimica et Cosmochimica Acta (2022) 332: 88.
Comment on “Discovery of davemaoite, CaSiO 3 -perovskite, as a mineral from the lower mantle”
Science (2022) 376 (6593)
A Review of the Geology of Global Diamond Mines and Deposits
Reviews in Mineralogy and Geochemistry (2022) 88 (1): 1.
A Review of Binderless Polycrystalline Diamonds: Focus on the High-Pressure–High-Temperature Sintering Process
Materials (2022) 15 (6): 2198.
Deep mantle roots of the Zarnitsa kimberlite pipe, Siberian craton, Russia: Evidence for multistage polybaric interaction with mantle melts
Journal of Asian Earth Sciences (2021) 213: 104756.
Diamond formation during sulfidation of metal–carbon melts
Diamond and Related Materials (2021) 120: 108660.
Sub-lithospheric mantle sources for overlapping southern African Large Igneous Provinces
South African Journal of Geology (2021) 124 (2): 421.
Slab Transport of Fluids to Deep Focus Earthquake Depths—Thermal Modeling Constraints and Evidence From Diamonds
AGU Advances (2021) 2 (2)
Sulphide Petrology and Contribution of Subducted Sulphur in Diamondiferous Garnet-Bearing Pyroxenites from Beni Bousera (Northern Morocco)
Journal of Petrology (2021) 62 (11)
A reversed redox gradient in Earth's mantle transition zone
Earth and Planetary Science Letters (2021) 575: 117181.
Diamond and Other Exotic Mineral-Bearing Ophiolites on the Globe: A Key to Understand the Discovery of New Minerals and Formation of Ophiolitic Podiform Chromitite
Crystals (2021) 11 (11): 1362.
Peridotites, chromitites and diamonds in ophiolites
Nature Reviews Earth & Environment (2021) 2 (3): 198.
Carbon cycle inverse modeling suggests large changes in fractional organic burial are consistent with the carbon isotope record and may have contributed to the rise of oxygen
Geobiology (2021) 19 (4): 342.
Early Cretaceous Dongbo ophiolite in the western part of the Yarlung Zangbo Suture Zone, Tibet: Constraints on multi-stages from ultra-slow spreading influenced by a mantle plume to intra-oceanic subduction
Acta Petrologica Sinica (2021) 37 (10): 2971.
The characteristics of Ib diamond crystals synthesized in a Fe–Ni–C system with different SiC contents
CrystEngComm (2021) 23 (35): 6070.
The effect of pressure on synthetic diamond crystals at high temperatures and pressures in an Fe/Ni catalyst system
CrystEngComm (2021) 23 (6): 1406.
Metasomatism of the Kaapvaal Craton during Cretaceous intraplate magmatism revealed by combined zircon U-Pb isotope and trace element analysis
Chemical Geology (2021) 578: 120302.
Compositional Variations and Rare Parageneses of Multiple Magnesiochromite Inclusions in Yakutian Diamonds
Doklady Earth Sciences (2021) 501 (1): 919.
Experimental Modeling of the Formation of Zoned Magnesian Garnet at Various Starting Ca, Al, and Cr Concentrations Controlled by H2O-Rich Fluid
Geochemistry International (2021) 59 (8): 778.
Experimental recalibration of the Cr-in-clinopyroxene geobarometer: improved precision and reliability above 4.5 GPa
Contributions to Mineralogy and Petrology (2021) 176 (2)
Growth and characterization of diamond single crystals grown in the Fe–S–C system by the temperature gradient method
CrystEngComm (2021) 23 (10): 2063.
Effect of water on carbonate-silicate liquid immiscibility in the system KAlSi3O8-CaMgSi2O6-NaAlSi2O6-CaMg(CO3)2 at 6 GPa: Implications for diamond-forming melts
American Mineralogist (2021) 106 (2): 165.
Microdiamonds in Alkalic Dolerites from the North China Craton: FTIR and C Isotopic Characteristics
Crystals (2021) 11 (11): 1325.
Metamorphic microdiamond formation is controlled by water activity, phase transitions and temperature
Scientific Reports (2021) 11 (1)
Diamond formation in an electric field under deep Earth conditions
Science Advances (2021) 7 (4)
About Diamonds of the Ingul-Ingulets Domain (the Ukrainian Shield)
Mineralogical Journal (2021) 43 (1): 87.
Composition of Volatiles Captured by Diamonds during Growth in the Metal–Carbon–Silicate System at High Pressure and High Temperature
Geochemistry International (2021) 59 (9): 840.
Crystallomorphological and Crystallochemical Indicators of Diamond Formation Conditions
Crystallography Reports (2021) 66 (1): 142.
Multiple metasomatic diamond-forming events in a cooling lithosphere beneath Voorspoed, South Africa
Lithos (2021) 398-399: 106285.
Microdiamonds from the Zeleny Yar Neogene Placer (the Ros'-Tikych Megablock of the Ukrainian Shield)
Mineralogical journal (2021) 43 (2): 3.
Carbonatitic Melts and Their Role in Diamond Formation in the Deep Earth
Elements (2021) 17 (5): 321.
Close Modal

or Create an Account

Close Modal
Close Modal