Emplacement of 1.6 to 1.3 Ga Mesoproterozoic plutons in Baltica and Laurentia formed an immense belt of A-type granite batholiths that include (1) low-fO(2), ilmenite-series granite intrusions from the Baltic region to Wyoming, (2) high-fO(2), magnetite-series granite intrusions of the central to southwestern U.S., and (3) peraluminous, two-mica granite intrusions from Colorado to central Arizona. These mineralogic divisions are mirrored by substantial elemental and oxygen isotopic differences. The ilmenite-series granites, which often contain classic rapakivi textures, have the highest Fe/Mg ratios and are highest in LIL element enrichment. They also have the lowest whole-rock delta(18)O values at 5.7parts per thousand to 7.7parts per thousand. The magnetite-series granites are less potassic, less LILE-enriched, and have higher whole-rock delta(18)O values, ranging from 7.6parts per thousand to 10.8parts per thousand. Although they retain A-type characteristics, the peraluminous granites are the least LILE-enriched and have the lowest Fe/Mg ratios. They also have the highest whole-rock delta(18)O values ranging from 8.8parts per thousand to 12.0parts per thousand. Feldspar, where strongly reddened, can exhibit elevated delta(18)O values, which is interpreted to indicate subsolidus exchange with surface-derived aqueous fluids. Quartz delta(18)O values are interpreted to generally retain their magmatic values. The transcontinental mineralogic, chemical, and oxygen isotopic variations are interpreted as indicative of broad changes in the composition of a lower crustal source, which is compatible with a reduced mantle-derived crustal source for the ilmenite-series granites and a more oxidized crustal source for the others, including a metasedimentary component in the source for the two-mica granite subprovince. Widespread thermal metamorphism at similar to1.4 Ga is present throughout much of the magmatic province and is viewed as a consequence of this immense event. Compressional deformation associated with several western 1.4 Ga Laurentia granite batholiths, alternatively interpreted as the distal expressions of a presumed 1.4 Ga orogeny, have at least in part been shown to be localized on preexisting Palcoproterozoic zones of deformation. Thus, we do not find compelling evidence for a similar to1.4 Ga orogeny related to the formation of most of these granites. Renewed intrusions at similar to1.0-1.1 Ga between and immediately following phases of the Grenville orogeny indicate that situations leading to their formation need to be more broadly considered. The origin of this red granite-forming event in Laurentia and Baltica is considered as part of a global magmatic event that was coeval with intrusion of massif anorthosites and associated charnockites. Most are viewed as anorogenic, but it is recognized that the same conditions leading to their formation may have occurred during extensional phases of orogens. The immense volumes of red granites produced are also essentially unique to the Mesoproterozoic and appear to be tied to the stabilization and eventual break up of supercontinents of both Paleoproterozoic and Mesoproterozoic age. (C) 2004 Elsevier B.V. All rights reserved.
