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Genesis of Fe–Ti oxide-bearing ultramafic intrusions in the Duluth Complex, Minnesota, USA

Genesis of Fe–Ti oxide-bearing ultramafic intrusions in the Duluth Complex, Minnesota, USA
Genesis of Fe–Ti oxide-bearing ultramafic intrusions in the Duluth Complex, Minnesota, USA

The Duluth Complex is a large mafic intrusive system located in northeastern Minnesota emplaced as part of the 1.1-Ga Midcontinent Rift. Several Fe-Ti oxide-bearing ultramafic intrusions are hosted along the Western Margin of the Duluth Complex, and are discordant bodies present in a variety of geometries, hosted in multiple rock types, and dominated by peridotite, pyroxenite, and semi-massive to massive Fe-Ti oxide rock types. Their origin has been debated, and here we present geochemical evidence and modeling that supports a purely magmatic origin for the Titac and Longnose Fe-Ti oxide-bearing ultramafic intrusions. Ilmenite and titanomagnetite textures indicate a protracted cooling process, and δ 34S values of sulfides reveal little assimilation of the footwall Virginia Formation, a fine-grained pelitic unit that contains sulfide-rich bands. We model the crystallization of a hypothetical parental magma composition to the host intrusion of Longnose using Rhyolite-MELTS and demonstrate that the accumulation of Fe-Ti oxides in the discordant intrusions cannot be explained by density-driven segregation of crystallized Fe-Ti oxides. Instead, we show that the development of silicate liquid immiscibility, occurring by the unmixing of the silicate melt into conjugate Si- and Fe-rich melts, can result in the effective segregation and transportation of the Fe-rich melt. The Fe-rich melt is ~2 orders of magnitude less viscous than the Si-rich melt, allowing the Fe-rich melt to be more effectively segregated and transported in the mush regime (crystallinities >50%). This suggests that viscosity, in addition to density, plays a significant role in forming the discordant Fe-Ti oxide-bearing ultramafic intrusions. We propose a genetic model that could also be responsible for the Fe-Ti oxide-rich layers or bands that are hosted within the igneous stratigraphy of mafic intrusions of the Duluth Complex.

Duluth Complex, Fe-Ti oxides, Ti mineralization, ultramafic intrusion
0022-3530
Kleinsasser, Jackie M.
4ea03ff8-495c-4cf3-8629-3f0d7e540dad
Simon, Adam C.
48a9167d-9479-4692-aea2-29f789946f1f
Peterson, Dean
26598368-759f-4da0-8dc5-4674ab78013f
Kattemalavadi, Amartya
e994f9a2-8e31-4199-9579-6138c4f066a4
Goan, Ian R.
4366e5a4-7953-45fa-b5dd-2d2b627bd033
Keller, Tobias
d8dfcfa5-89d1-4203-aa2d-8c142c00a169
Hudak, George J.
c38d9a08-2f26-433c-a2fd-f8cc06a6f1f5
Koshurba, Kaitlin
4ccc4eb4-6f5e-4d26-b1b6-13eef1780672
Kleinsasser, Jackie M.
4ea03ff8-495c-4cf3-8629-3f0d7e540dad
Simon, Adam C.
48a9167d-9479-4692-aea2-29f789946f1f
Peterson, Dean
26598368-759f-4da0-8dc5-4674ab78013f
Kattemalavadi, Amartya
e994f9a2-8e31-4199-9579-6138c4f066a4
Goan, Ian R.
4366e5a4-7953-45fa-b5dd-2d2b627bd033
Keller, Tobias
d8dfcfa5-89d1-4203-aa2d-8c142c00a169
Hudak, George J.
c38d9a08-2f26-433c-a2fd-f8cc06a6f1f5
Koshurba, Kaitlin
4ccc4eb4-6f5e-4d26-b1b6-13eef1780672

Kleinsasser, Jackie M., Simon, Adam C., Peterson, Dean, Kattemalavadi, Amartya, Goan, Ian R., Keller, Tobias, Hudak, George J. and Koshurba, Kaitlin (2024) Genesis of Fe–Ti oxide-bearing ultramafic intrusions in the Duluth Complex, Minnesota, USA. Journal of Petrology, 65 (5), [egae031]. (doi:10.1093/petrology/egae031).

Record type: Article

Abstract

The Duluth Complex is a large mafic intrusive system located in northeastern Minnesota emplaced as part of the 1.1-Ga Midcontinent Rift. Several Fe-Ti oxide-bearing ultramafic intrusions are hosted along the Western Margin of the Duluth Complex, and are discordant bodies present in a variety of geometries, hosted in multiple rock types, and dominated by peridotite, pyroxenite, and semi-massive to massive Fe-Ti oxide rock types. Their origin has been debated, and here we present geochemical evidence and modeling that supports a purely magmatic origin for the Titac and Longnose Fe-Ti oxide-bearing ultramafic intrusions. Ilmenite and titanomagnetite textures indicate a protracted cooling process, and δ 34S values of sulfides reveal little assimilation of the footwall Virginia Formation, a fine-grained pelitic unit that contains sulfide-rich bands. We model the crystallization of a hypothetical parental magma composition to the host intrusion of Longnose using Rhyolite-MELTS and demonstrate that the accumulation of Fe-Ti oxides in the discordant intrusions cannot be explained by density-driven segregation of crystallized Fe-Ti oxides. Instead, we show that the development of silicate liquid immiscibility, occurring by the unmixing of the silicate melt into conjugate Si- and Fe-rich melts, can result in the effective segregation and transportation of the Fe-rich melt. The Fe-rich melt is ~2 orders of magnitude less viscous than the Si-rich melt, allowing the Fe-rich melt to be more effectively segregated and transported in the mush regime (crystallinities >50%). This suggests that viscosity, in addition to density, plays a significant role in forming the discordant Fe-Ti oxide-bearing ultramafic intrusions. We propose a genetic model that could also be responsible for the Fe-Ti oxide-rich layers or bands that are hosted within the igneous stratigraphy of mafic intrusions of the Duluth Complex.

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Accepted/In Press date: 19 March 2024
e-pub ahead of print date: 25 March 2024
Published date: 1 May 2024
Keywords: Duluth Complex, Fe-Ti oxides, Ti mineralization, ultramafic intrusion

Identifiers

Local EPrints ID: 491175
URI: http://eprints.soton.ac.uk/id/eprint/491175
DOI: doi:10.1093/petrology/egae031
ISSN: 0022-3530
PURE UUID: 0919d373-2008-4ddc-bd08-526de30455f2
ORCID for Tobias Keller: ORCID iD orcid.org/0000-0002-6121-5377

Catalogue record

Date deposited: 14 Jun 2024 16:38
Last modified: 15 Jun 2024 02:10

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Contributors

Author: Jackie M. Kleinsasser
Author: Adam C. Simon
Author: Dean Peterson
Author: Amartya Kattemalavadi
Author: Ian R. Goan
Author: Tobias Keller ORCID iD
Author: George J. Hudak
Author: Kaitlin Koshurba

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