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New Constraints On Formation Of Orthogneiss In Southern Adirondacks Using Integrated Analysis Methods Of Petrology, Zircon U-Pb Geochronology And Whole Rock Geochemistry
McCaffery, Kyle McCaffery, Kyle
McCaffery, Kyle
McCaffery, Kyle
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Abstract
The Adirondack Mountains (ADK) form the southern part of the Grenville Province, a poly-deformed orogenic complex formed in the Mesoproterozoic during the formation of Rodinia. The ADK is subdivided into two domains, separated by the Carthage-Colton Mylonite Zone. The Lowlands are characterized by upper amphibolite-facies metasedimentary rocks, including marbles, evaporites, and volcanic units, whereas the Highlands are formed by granulite-facies meta igneous rocks and anorthosite-mangerite-charnockite-granite magmatic complex. A large suite of granulite-facies orthogneisses exposed in the Southern Highlands yields the oldest (>1.3 Ga) ages, however, those ages come from a limited number of outcrops. We present new petrological, geochemical, and geochronological results from several quartzofeldspatic orthogneiss units to better document the timing and tectonic setting of these rocks. All samples are mainly composed of quartz, felspar, biotite, pyroxene, and opaque minerals. Foliation and lineation are defined by elongated quartz ribbons and feldspar grains, or biotite laminae. High-temperature microstructures, such as flame perthites in feldspars or checkerboard extinction in quartz are commonly observed in thin sections. Major element analyses show that samples have calc-alkaline affinities, suggesting an arc environment. U-Pb zircon geochronology produced two age groups. 1150 Ma ages which are Shawinigan and 1350 Ma ages which are associated with pre-orogenic magmatism. Based on whole rock geochemistry the Shawinigan age rocks are associated with within plate magmatism and the 1350 Ma pre-orogenic magmatism is associated with magmatic arc activity.
Title
New Constraints On Formation Of Orthogneiss In Southern Adirondacks Using Integrated Analysis Methods Of Petrology, Zircon U-Pb Geochronology And Whole Rock Geochemistry
Date
2022-05-01
Subject
geochemistry
geochronology
petrology
Adirondacks
geochronology
petrology
Adirondacks
Material type
Files
Abstract
The Adirondack Mountains (ADK) form the southern part of the Grenville Province, a poly-deformed orogenic complex formed in the Mesoproterozoic during the formation of Rodinia. The ADK is subdivided into two domains, separated by the Carthage-Colton Mylonite Zone. The Lowlands are characterized by upper amphibolite-facies metasedimentary rocks, including marbles, evaporites, and volcanic units, whereas the Highlands are formed by granulite-facies meta igneous rocks and anorthosite-mangerite-charnockite-granite magmatic complex. A large suite of granulite-facies orthogneisses exposed in the Southern Highlands yields the oldest (>1.3 Ga) ages, however, those ages come from a limited number of outcrops. We present new petrological, geochemical, and geochronological results from several quartzofeldspatic orthogneiss units to better document the timing and tectonic setting of these rocks. All samples are mainly composed of quartz, felspar, biotite, pyroxene, and opaque minerals. Foliation and lineation are defined by elongated quartz ribbons and feldspar grains, or biotite laminae. High-temperature microstructures, such as flame perthites in feldspars or checkerboard extinction in quartz are commonly observed in thin sections. Major element analyses show that samples have calc-alkaline affinities, suggesting an arc environment. U-Pb zircon geochronology produced two age groups. 1150 Ma ages which are Shawinigan and 1350 Ma ages which are associated with pre-orogenic magmatism. Based on whole rock geochemistry the Shawinigan age rocks are associated with within plate magmatism and the 1350 Ma pre-orogenic magmatism is associated with magmatic arc activity.
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Department
Geological Sciences
Degree
Bachelor of Science (BS)