His primary areas of investigation include Geochemistry, Basalt, Meteorite, Martian and Incompatible element. His Geochemistry study combines topics from a wide range of disciplines, such as Anorthosite, Amphibole and Silicate. Lars E. Borg has researched Basalt in several fields, including Juan de Fuca Plate and Isotope geochemistry.
His work deals with themes such as Nakhlite and Isochron dating, which intersect with Meteorite. Lars E. Borg has included themes like Pyroxene and Mantle in his Martian study. His Trace element study integrates concerns from other disciplines, such as KREEP and Planetary differentiation.
Lars E. Borg mainly investigates Geochemistry, Meteorite, Basalt, Astrobiology and Martian. His is doing research in Isochron, Incompatible element, Lunar magma ocean, Mantle and KREEP, both of which are found in Geochemistry. His Incompatible element research incorporates elements of Fractional crystallization and Trace element.
His research in Mantle intersects with topics in Silicate and Crust. His Meteorite study deals with Igneous rock intersecting with Earth science. His research investigates the connection between Basalt and topics such as Olivine that intersect with issues in Phenocryst.
Astrobiology, Geochemistry, Martian, Mars Exploration Program and Meteorite are his primary areas of study. Lars E. Borg works mostly in the field of Astrobiology, limiting it down to topics relating to Earth and, in certain cases, Nucleosynthesis and Meteoroid. His work on Basalt, Crust and Olivine as part of general Geochemistry research is frequently linked to Systematics, bridging the gap between disciplines.
Lars E. Borg focuses mostly in the field of Crust, narrowing it down to matters related to Mantle and, in some cases, Planetary differentiation. His work on Martian surface as part of general Martian study is frequently connected to Volatility, therefore bridging the gap between diverse disciplines of science and establishing a new relationship between them. In general Mars Exploration Program study, his work on Exploration of Mars often relates to the realm of Sample, thereby connecting several areas of interest.
Lars E. Borg mainly focuses on Geochemistry, Astrobiology, Meteorite, Martian and Mars Exploration Program. His Geochemistry study frequently involves adjacent topics like Plagioclase. His Astrobiology study combines topics in areas such as Planet and Mineralogy.
Lars E. Borg studies Chondrite which is a part of Meteorite. His study focuses on the intersection of Martian and fields such as Planetary differentiation with connections in the field of Mantle. His work on Planetary protection and Martian surface as part of general Mars Exploration Program study is frequently linked to Sample, therefore connecting diverse disciplines of science.
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Thermal and Magmatic Evolution of the Moon
Charles K. Shearer;Paul C. Hess;Mark A. Wieczorek;Matt E. Pritchard.
Reviews in Mineralogy & Geochemistry (2006)
Oxygen fugacity and geochemical variations in the martian basalts: implications for martian basalt petrogenesis and the oxidation state of the upper mantle of Mars
Christopher D.K Herd;Lars E Borg;John H Jones;James J Papike.
Geochimica et Cosmochimica Acta (2002)
A petrogenetic model for the origin and compositional variation of the martian basaltic meteorites
Lars E. Borg;David S. Draper.
Meteoritics & Planetary Science (2003)
Constraints on Martian differentiation processes from RbSr and SmNd isotopic analyses of the basaltic shergottite QUE 94201
Lars E. Borg;Larry E. Nyquist;Larry A. Taylor;Henry Wiesmann.
Geochimica et Cosmochimica Acta (1997)
The age of Dar al Gani 476 and the differentiation history of the martian meteorites inferred from their radiogenic isotopic systematics
Lars E. Borg;Larry E. Nyquist;Henry Wiesmann;Chi-Yu Shih.
Geochimica et Cosmochimica Acta (2003)
Chronology, geochemistry, and petrology of a ferroan noritic anorthosite clast from Descartes breccia 67215: Clues to the age, origin, structure, and impact history of the lunar crust
Marc D. Norman;Lars E. Borg;Lawrence E. Nyquist;Donald D. Bogard.
Meteoritics & Planetary Science (2003)
Boron and lithium isotopic variations in a hot subduction zone—the southern Washington Cascades
William P. Leeman;Sonia Tonarini;Lui H. Chan;Lars E. Borg.
Chemical Geology (2004)
The variable role of slab-derived fluids in the generation of a suite of primitive calc-alkaline lavas from the Southernmost Cascades, California
Lars E. Borg;Michael A. Clynne;Thomas D. Bullen.
Canadian Mineralogist (1997)
Integrated Sr isotope variations and sea-level history of Middle to Upper Cambrian platform carbonates: Implications for the evolution of Cambrian seawater 87Sr/86Sr
Isabel P. Montañez;Jay L. Banner;David A. Osleger;Lars E. Borg.
Natural variations in uranium isotope ratios of uranium ore concentrates: Understanding the 238U/235U fractionation mechanism
Gregory A. Brennecka;Lars E. Borg;Ian D. Hutcheon;Michael A. Sharp.
Earth and Planetary Science Letters (2010)
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