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dc.contributor.advisorHollings, Peter
dc.contributor.advisorMiller, Jim
dc.contributor.authorO'Brien, Sean
dc.date.accessioned2018-06-14T13:09:49Z
dc.date.available2018-06-14T13:09:49Z
dc.date.created2018
dc.date.issued2018
dc.identifier.urihttp://knowledgecommons.lakeheadu.ca/handle/2453/4177
dc.description.abstractThe Crystal Lake Gabbro (CLG) is a Y-shaped, up to 750 m wide, layered mafic intrusion with a 5 km long northern limb and a 2.75 km long southern limb, with localized Cu-Ni and Cr mineralization. The Mount Mollie Dyke (MMD) is an arcuate, 60 to 350 m wide, macrodyke that lies on trend east of the CLG and extends for 35 km toward Lake Superior. Both intrusions are part of the 1.1 Ga Midcontinent Rift (MCR) and were emplaced into the Paleoproterozoic Rove Formation of the Logan Basin, approximately 50 km south of Thunder Bay. Current U-Pb age determination implies a ~10 m.y. age difference with CLG being formed at ~1100 Ma and the MMD being formed at ~1109 Ma. However, this age difference is at odds with both intrusions being normally polarized (an attribute of MCR rocks younger than 1102 Ma) and their being on trend with each other. This study seeks to determine whether the two intrusions may be petrogenetically linked by evaluating the petrography, geochemistry, mineral composition, and sulphur isotopes of samples collected from drill core. The CLG profiled in a drill core from its southern limb can be broadly divided into Upper, Main, and Lower Zones with further subdivisions of the Main and Lower Zones based largely on geochemistry. The Lower Zone occurs between two xenoliths of an early MCR (~1115 Ma) plagioclase porphyritic Logan Sill diabase. The Lower Zone consists of subophitic to ophitic troctolite, augite troctolite, and olivine gabbro and can be subdivided into an upper and basal marginal subzone as well as an interior subzone. Both marginal subzones host disseminated sulphides with the basal margin also containing Cr-spinel seams. An overall bottom-up-directed fractional crystallization of the Lower Zone is suggested by the progressive decrease in Fo content of olivine, Mg# of clinopyroxene, and whole-rock MgO upsection. Above the upper Logan Sill xenolith, the Main Zone similarly consists of subophitic to ophitic troctolite, augite troctolite, olivine gabbro, and gabbro. Petrography, lithogeochemistry, and mineral composition was used to subdivide the Main Zone into five subzones: a basal marginal subzone, upper margin subzone, and three interior cycles that display cryptic variations indicative of fractional crystallization and magma recharge events. Like the margins of the Lower Zone, the Upper Zone as well and the basal marginal subzone of the Main Zone contain disseminated sulphides and Cr-spinel, and are characterized by relatively high Fo content olivine and low incompatible trace element concentrations. These mineralized zones are interpreted to have crystallized from the same initial pulse of magma into the CLG, which was sulfide- and Cr-spinel-saturated. Cyclical cryptic variations in the internal subzone of the Main Zone are interpreted to indicate upward directed fractional crystallization, interrupted by emplacement of additional magma pulses into the core of the intrusion. All rocks of the Main Zone are olivine and plagioclase orthocumulates indicating that fractional crystallization was not particularly efficient (i.e., did not experience a strong segregation of cumulus minerals from the parental magma). The lack of Cr-spinel in the interior and upper marginal subzones of the Main Zone further indicates that subsequent magma pulses either were more evolved than the original parental magma or were volumetrically subordinate to the evolved magmas that resided in the chamber.en_US
dc.language.isoen_USen_US
dc.subjectAnimikie basinen_US
dc.subjectMidcontinent Riften_US
dc.subjectWhole-rock geochemistryen_US
dc.subjectGeochemistryen_US
dc.titlePetrology of the Crystal Lake Gabbro and the Mount Mollie Dyke, Midcontinent Rift, Northwest Ontarioen_US
dc.typeThesisen_US
etd.degree.nameMaster of Scienceen_US
etd.degree.levelMasteren_US
etd.degree.disciplineGeologyen_US
etd.degree.grantorLakehead Universityen_US


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