Skip to Main Content
Skip Nav Destination

Kimberlites and the start of plate tectonics

Geology (2016) 44 (10): 799–802.
This article has been cited by the following articles in journals that are participating in CrossRef Cited-by Linking.
The Precambrian continental record: A window into early Earth environments
Precambrian Research (2024) 402: 107286.
Tectono-metamorphic evolution of the Central Bundelkhand Craton, India from geochemistry and bulk composition modelling of amphibolite enclaves
Geosystems and Geoenvironment (2024) 3 (3): 100287.
Geochronology and petrogenesis of granitoids from the Bas Draa inlier (Western Anti-Atlas, Morocco): Revived debate on the tectonic regime operating during early Paleoproterozoic at the NW edge of the West African Craton
Geochemistry (2024) 84 (1): 126044.
Linking kimberlite magmatism in the Brazilian Platform with Pangea break-up events using in situ Rb-Sr in phlogopite
Lithos (2024) 468-469: 107486.
深部碳过程动力学模拟: 最新进展与工作流程设计
SCIENTIA SINICA Terrae (2023) 53 (3): 444.
Imperfections in natural diamond: the key to understanding diamond genesis and the mantle
La Rivista del Nuovo Cimento (2023) 46 (7): 381.
The Coorg Block, southern India: Insights from felsic and mafic magmatic suites on Mesoarchean plate tectonics and correlation with supercontinent Ur
Gondwana Research (2023) 118: 1.
Influence of the Yucatan earthquake event
Frontiers in Earth Science (2023) 11
The Paleoproterozoic and Neoproterozoic Carbon Cycle Promoted the Evolution of a Habitable Earth
Acta Geologica Sinica - English Edition (2023) 97 (1): 316.
When and How Plate Tectonics Began?
Journal of Earth Science (2023) 34 (4): 1302.
Genesis and evolution of kimberlites
Nature Reviews Earth & Environment (2023) 4 (11): 738.
The Not-So-Boring Billion: A metallogenic conundrum during the evolution from Columbia to Rodinia supercontinents
Earth-Science Reviews (2023) 236: 104287.
Rift-induced disruption of cratonic keels drives kimberlite volcanism
Nature (2023) 620 (7973): 344.
Trends and rhythms in carbonatites and kimberlites reflect thermo-tectonic evolution of Earth
Geology (2023) 51 (1): 101.
Dynamic modeling of tectonic carbon processes: State of the art and conceptual workflow
Science China Earth Sciences (2023) 66 (3): 456.
Subducted carbonates not required: Deep mantle melting explains stable Ca isotopes in kimberlite magmas
Geochimica et Cosmochimica Acta (2023) 348: 410.
Omphacite Melting and the Destruction of Early High‐Pressure Rock Records
Journal of Geophysical Research: Solid Earth (2023) 128 (11)
From subduction initiation to hot subduction: Life of a Neoarchean subduction zone from the Dengfeng Greenstone Belt, North China Craton
GSA Bulletin (2022) 134 (5-6): 1277.
Earth Science-Journal of China University of Geosciences (2022) 47 (10): 3806.
Neoproterozoic metavolcanic suites in the Micangshan terrane and their implications for the tectonic evolution of the NW Yangtze block, South China
Precambrian Research (2022) 368: 106476.
Lithium isotopes in kimberlites, lamproites and lamprophyres as tracers of source components and processes related to supercontinent cycles
Geological Society, London, Special Publications (2022) 513 (1): 209.
Mafic-ultramafic suite from the Karwar Block, SW India: Implications for Mesoarchean geodynamics
Precambrian Research (2022) 372: 106601.
The sedimentary record of ultrahigh-pressure metamorphism: a perspective review
Earth-Science Reviews (2022) 227: 103985.
Orogenic and metamorphic processes in plate boundaries: Synopsis and future directions
Japanese Magazine of Mineralogical and Petrological Sciences (2022) 51 (1): n/a.
Ultrahigh-pressure peridotites record Neoarchean collisional tectonics
Earth and Planetary Science Letters (2022) 596: 117787.
Perturbation of the deep-Earth carbon cycle in response to the Cambrian Explosion
Science Advances (2022) 8 (9)
A model of crust–mantle differentiation for the early Earth
Acta Geochimica (2022) 41 (4): 689.
Geodynamic and Isotopic Constraints on the Genesis of Kimberlites, Lamproites and Related Magmas From the Finnish Segment of the Karelian Craton
Geochemistry, Geophysics, Geosystems (2022) 23 (8)
Siberia’s largest pulse of kimberlites: U-Pb geochronology of perovskite and rutile from the Obnazhennaya kimberlite and its xenoliths, Siberia craton
International Geology Review (2022) 64 (12): 1743.
Investigating Influences on the Pb Pseudo‐Isochron Using Three‐Dimensional Mantle Convection Models With a Continental Reservoir
Geochemistry, Geophysics, Geosystems (2022) 23 (8)
Desilicification Rims of Zircon Xenocrysts Record the Timing of Kimberlite Emplacement
Journal of Geophysical Research: Solid Earth (2022) 127 (9)
Enhanced deep carbon cycle marked by the upsurge of silica-undersaturated nephelinitic magmatism at the Proterozoic-Phanerozoic boundary
Journal of Asian Earth Sciences (2021) 214: 104772.
The Fuchuan Ophiolite in South China: Evidence for Modern‐Style Plate Tectonics During Rodinia Breakup
Geochemistry, Geophysics, Geosystems (2021) 22 (11)
Perovskite U-Pb age and petrogenesis of the P-12 kimberlite from the Eastern Dharwar craton, southern India: Implications for a possible linkage to the 1110 Ma large igneous province
Journal of Asian Earth Sciences (2021) 213: 104750.
Precambrian tectonic evolution of Earth: an outline
South African Journal of Geology (2021) 124 (1): 141.
Two Major Transitions in Earth History: Evidence of Two Lithospheric Strength Thresholds
The Journal of Geology (2021) 129 (5): 455.
Plate tectonics: What, where, why, and when?
Gondwana Research (2021) 100: 3.
The Evolution of the Continental Crust and the Onset of Plate Tectonics
Frontiers in Earth Science (2020) 8
Review and overview for the frontier hotspot: Early continents and start of plate tectonics
Acta Petrologica Sinica (2020) 36 (8): 2249.
Origins of kimberlites and carbonatites during continental collision – Insights beyond decoupled Nd-Hf isotopes
Earth-Science Reviews (2020) 208: 103287.
Paleoproterozoic oceanic subduction in the North China Craton: Insights from the metamorphic P–T–t paths of the Chicheng Mélange in the Hongqiyingzi Complex
Precambrian Research (2020) 342: 105671.
The role of impacts on Archaean tectonics
Geology (2020) 48 (2): 174.
Secular change and the onset of plate tectonics on Earth
Earth-Science Reviews (2020) 207: 103172.
A non–plate tectonic model for the Eoarchean Isua supracrustal belt
Lithosphere (2020) 12 (1): 166.
A Neoarchean arc-backarc pair in the Linshan Massif, southern North China Craton
Precambrian Research (2020) 341: 105649.
Supercontinent transition as a trigger for ~1.1 Gyr diamondiferous kimberlites and related magmatism in India
Lithos (2020) 370-371: 105620.
Geochemical and Sr–Nd–Hf–O isotopic constraints on the source and petrogenesis of the Xiangshuigou silicic alkaline igneous complex from the northern margin of the North China Craton
Lithos (2020) 378-379: 105866.
Estimation of Secular Change in the Size of Continents for Understanding Early Crustal Development
Frontiers in Earth Science (2020) 8
Aspects of the Archean-Proterozoic transition: How the great Huronian Glacial Event was initiated by rift-related uplift and terminated at the rift-drift transition during break-up of Lauroscandia
Earth-Science Reviews (2019) 190: 171.
Carbon, carbides, carbonates and carbonatitic melts in the Earth's interior
Journal of the Geological Society (2019) 176 (2): 375.
Close Modal

or Create an Account

Close Modal
Close Modal