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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Atlantic Ocean Islands
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South Sandwich Islands (1)
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Caribbean region
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West Indies
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Antilles
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Lesser Antilles
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Dominica (1)
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Saint Vincent (1)
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East Pacific Ocean Islands
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Hawaii (1)
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Oceania
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Polynesia
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Hawaii (1)
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Scotia Sea Islands
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South Sandwich Islands (1)
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United States
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Arizona
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Mohave County Arizona (1)
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Hawaii (1)
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Nevada
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Lyon County Nevada (1)
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commodities
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copper ores (2)
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elements, isotopes
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chemical elements (1)
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molybdenum (1)
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oxygen (2)
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geologic age
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Mesozoic
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igneous rocks
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igneous rocks
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gabbros (1)
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porphyry (1)
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orthopyroxene (2)
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framework silicates
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feldspar group
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plagioclase (2)
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orthosilicates
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nesosilicates
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olivine group
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forsterite (1)
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olivine (2)
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zircon group
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zircon (1)
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sulfates
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anhydrite (1)
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Primary terms
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Atlantic Ocean Islands
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South Sandwich Islands (1)
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Caribbean region
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West Indies
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Antilles
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Lesser Antilles
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Dominica (1)
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crust (2)
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data processing (1)
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deformation (1)
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East Pacific Ocean Islands
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Hawaii (1)
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igneous rocks
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plutonic rocks
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gabbros (1)
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granites (1)
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ultramafics
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peridotites (2)
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porphyry (1)
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basalts (1)
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glasses (3)
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inclusions
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intrusions (2)
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isotopes
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stable isotopes
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Mg-26/Mg-24 (1)
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lava (1)
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mantle (1)
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Mesozoic
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Jurassic
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Middle Jurassic (1)
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metal ores
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copper ores (2)
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molybdenum ores (1)
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metals
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alkali metals (1)
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alkaline earth metals
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calcium (1)
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magnesium
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Mg-26/Mg-24 (1)
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copper (1)
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iron
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Fe-56/Fe-54 (1)
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molybdenum (1)
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minerals (1)
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oxygen (2)
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sulfur (1)
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United States
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Hawaii (1)
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Nevada
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Lyon County Nevada (1)
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Trace element partitioning between anhydrite, sulfate melt, and silicate melt
High spatial resolution analysis of the iron oxidation state in silicate glasses using the electron probe
Multiple-reaction geobarometry for olivine-bearing igneous rocks
Magma Emplacement Rates and Porphyry Copper Deposits: Thermal Modeling of the Yerington Batholith, Nevada
Cu-Mo partitioning between felsic melts and saline-aqueous fluids as a function of X NaCleq , f O 2 , and f S 2
Chronometry and Speedometry of Magmatic Processes using Chemical Diffusion in Olivine, Plagioclase and Pyroxenes
Crustal Magmatic Systems from the Perspective of Heat Transfer
SIMS investigation of electron-beam damage to hydrous, rhyolitic glasses: Implications for melt inclusion analysis
Trace element partitioning between mantle wedge peridotite and hydrous MgO-rich melt
Trace element incorporation in minerals and melts
Abstract A primary goal of geochemistry is the understanding of natural chemical differentiation through the chemical analysis of geological materials. Of particular interest to the geochemist are trace elements ( i.e . those present at concentrations of less than 0.1% by weight) which behave essentially as passive tracers during differentiation, and whose distribution can therefore yield process-specific information. Interpreting and modelling trace-element data requires quantitative information on how elements partition between coexisting phases, such as minerals and melts. Partitioning in turn depends on the energetics of trace-element incorporation into minerals and melts. With the advent of new analytical techniques and enhanced computer power our understanding in this field has increased substantially over the last two decades, to the extent that we can now offer greatly enhanced interpretative and modelling tools for the trace element geochemist. In this chapter we will attempt to summarise the state-of-the-art, with particular emphasis on new computational approaches. We begin by outlining experimental and analytical methods of investigating partitioning, delineate the principal controls on element partitioning, and discuss simple lattice strain models of trace element incorporation into minerals. The rest of the chapter is devoted to the development of atomistic computer simulation techniques and their application to the problem of trace element incorporation. The extent to which these approaches can reproduce the experimental observations is evaluated. Our focus is high-temperature silicate mineral-melt or mineral-mineral partitioning of trace cations, although our findings can be generalised to lower temperatures and non-silicate fluids and anions.