2018 - Fellow of American Geophysical Union (AGU)
His primary scientific interests are in Mantle, Geochemistry, Basalt, Trace element and Mid-ocean ridge. His work deals with themes such as Cretaceous and Oceanic crust, which intersect with Geochemistry. His Basalt study incorporates themes from Hotspot and Asthenosphere.
His Trace element research focuses on Mineralogy and how it connects with Partition coefficient. His Mid-ocean ridge research is multidisciplinary, incorporating perspectives in Igneous rock and Partial melting. His research in Igneous rock intersects with topics in Metasomatism, Petrology and Olivine.
His scientific interests lie mostly in Geochemistry, Basalt, Mantle, Trace element and Volcanic rock. The Geochemistry study combines topics in areas such as Plateau and Oceanic crust. In his research, Mineralogy is intimately related to Table, which falls under the overarching field of Plateau.
In his study, Mid-Atlantic Ridge is strongly linked to Crust, which falls under the umbrella field of Basalt. His work in the fields of Mantle, such as Peridotite, Mid-ocean ridge and Partial melting, intersects with other areas such as Impact crater. Vincent J. M. Salters merges Trace element with Silicate in his research.
Vincent J. M. Salters focuses on Geochemistry, Mantle, Basalt, Crust and Volcanology. His study looks at the relationship between Geochemistry and fields such as Mid-Atlantic Ridge, as well as how they intersect with chemical problems. As a member of one scientific family, Vincent J. M. Salters mostly works in the field of Mantle, focusing on Asthenosphere and, on occasion, Massif.
His Trace element research extends to Basalt, which is thematically connected. His research in Crust tackles topics such as Ridge which are related to areas like Incompatible element, Petrology, Peridotite and Mantle plume. His Partial melting research includes themes of Seafloor spreading, Igneous rock, Continental crust and Oceanic crust.
His main research concerns Geochemistry, Mid-ocean ridge, Mantle, Basalt and Mid-Atlantic Ridge. His Magma study in the realm of Geochemistry interacts with subjects such as Primary. He interconnects Massif, Trace element and Asthenosphere in the investigation of issues within Mantle.
Vincent J. M. Salters is involved in the study of Basalt that focuses on Peridotite in particular. Mid-Atlantic Ridge combines with fields such as La icp ms and Systematics in his research.
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Composition of the depleted mantle
Vincent J. M. Salters;Andreas Stracke;Andreas Stracke.
Geochemistry Geophysics Geosystems (2004)
Extraction of mid-ocean-ridge basalt from the upwelling mantle by focused flow of melt in dunite channels
Peter B. Kelemen;Nobumichi Shimizu;Vincent J. M. Salters.
Recycling oceanic crust: Quantitative constraints
Andreas Stracke;Andreas Stracke;Andreas Stracke;Michael Bizimis;Vincent J. M. Salters.
Geochemistry Geophysics Geosystems (2003)
HF ISOTOPE CONSTRAINTS ON MANTLE EVOLUTION
Vincent J.M Salters;William M White.
Chemical Geology (1998)
Trace element partitioning during the initial stages of melting beneath mid-ocean ridges
Vincent J.M. Salters;John Longhi.
Earth and Planetary Science Letters (1999)
The hafnium paradox and the role of garnet in the source of mid-ocean-ridge basalts
Vincent J. M. Salters;Stanley R. Hart;Stanley R. Hart.
The mantle sources of ocean ridges, islands and arcs: the Hf-isotope connection
Vincent J.M. Salters;Stanley R. Hart.
Earth and Planetary Science Letters (1991)
Near mantle solidus trace element partitioning at pressures up to 3.4 GPa
Vincent J. M. Salters;John E. Longhi;M. Bizimis.
Geochemistry Geophysics Geosystems (2002)
Geochemical characteristics of lavas from Broken Ridge, the Naturaliste Plateau and southernmost Kerguelen Plateau: Cretaceous plateau volcanism in the southeast Indian Ocean☆
J.J. Mahoney;W.B. Jones;F.A. Frey;V.J.M. Salters.
Chemical Geology (1995)
Trace and REE content of clinopyroxenes from supra-subduction zone peridotites. Implications for melting and enrichment processes in island arcs
Michael Bizimis;Vincent J.M Salters;Enrico Bonatti.
Chemical Geology (2000)
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