The initiation of the early Paleozoic Cordilleran miogeocline: evidence from the uppermost Proterozoic – Lower Cambrian Hamill Group of southeastern British Columbia

The uppermost Proterozoic–Lower Cambrian Hamill Group of southeastern British Columbia contains geologic evidence for a phase of extensional tectonism that led directly to the onset of thermally controlled subsidence in the Cordilleran miogeocline. Moreover, the Hamill Group contains the sedimentological record of the passage of the ancient passive margin from unstable tectonic conditions associated with rifting and (or) the earliest phases of thermal subsidence to post-rift conditions characterized by stabilization of the margin and dissipation of the thermal anomaly generated during the rift phase (the rift to post-rift transition). Widespread uplift that occurred prior to and during the deposition of the lower Hamill Group is indicated by an unconformable relation with the underlying Windermere Supergroup and by stratigraphic relations between Middle and Upper Proterozoic strata and unconformably overlying upper Lower Cambrian quartz arenites (upper Hamill Group) in the southern borderlands of the Hamill basin. In addition, the coarse grain size, the feldspar content, the depositional setting, and the inferred provenance of the lower Hamill Group are all indicative of the activation of basement sources along the margins of the Hamill basin. Geologic relations within the Hamill Group that provide direct evidence for extensional tectonism include the occurrence of thick sequences of mafic metavolcanics and rapid vertical facies changes that are suggestive of syndepositional tectonism.Evidence of extensional tectonism in the Hamill Group directly supports inferences derived from tectonic subsidence analyses that indicate the rift phase that immediately preceded early Paleozoic post-rift cooling could not have occurred more than 10–20 Ma prior to 575 ± 25 Ma. These data, together with recently reported isotopic data that suggest deposition of the Windermere Supergroup began ~730–770 Ma, indicate that the rift-like deposits of the Windermere Supergroup are too old to represent the rifting that led directly to the deposition of the Cambro-Ordovician post-rift strata. Instead, Windermere sedimentation was apparently initiated by an earlier rift event, probably of regional extent, that was part of a protracted, episodic rift history that culminated with continental breakup in the latest Proterozoic – Early Cambrian.

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New isotopic data and a preliminary age for volcanics near the base of the Windermere Supergroup, northeastern Washington, U.S.A.

Canadian Journal of Earth Sciences ◽

10.1139/e88-179 ◽

1988 ◽

Vol 25 (11) ◽

pp. 1906-1911 ◽

Cited By ~ 35

Author(s):

William J. Devlin ◽

Hannes K. Brueckner ◽

Gerard C. Bond

Keyword(s):

Lower Cambrian ◽

Large Error ◽

Passive Margin ◽

Early Paleozoic ◽

Isotopic Data ◽

Upper Proterozoic ◽

Windermere Supergroup ◽

Altered Basalt ◽

Best Fit ◽

Thermal Subsidence

New Sm–Nd and Rb–Sr data are presented from the volcanic member of the Huckleberry Formation, a unit near the base of the upper Proterozoic Windermere Supergroup in northeastern Washington. The isotopic data are compatible with a rift setting during deposition of Windermere strata. A best-fit line through all the data yields an age of 795 Ma with a large error of ±115 Ma (2σ). However, a preliminary Sm–Nd mineral–whole-rock age of 762 ± 44 Ma (2σ) obtained from a least-altered basalt is within error of other age information from the Canadian Cordillera that broadly constrains the initiation of Windermere deposition to ~750 (±30) Ma. A synthesis of isotopic data, of the results of tectonic subsidence analyses, and of geologic relations within the Windermere Supergroup and the immediately overlying uppermost Proterozoic – Lower Cambrian strata leads to the conclusion that the Windermere Supergroup does not represent the rift deposits that led directly to the initiation of the early Paleozoic miogeocline. Instead, Windermere sedimentation occurred as a result of a protracted, episodic rift history that culminated with latest Proterozoic – Early Cambrian rifting associated with the onset of thermal subsidence in the ancient passive margin.

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ROLE OF THERMAL SUBSIDENCE, FLEXURE, AND EUSTASY IN THE EVOLUTION OF EARLY PALEOZOIC PASSIVE-MARGIN CARBONATE PLATFORMS

Controls on Carbonate Platforms and Basin Development ◽

10.2110/pec.89.44.0039 ◽

1989 ◽

pp. 39-61 ◽

Cited By ~ 24

Author(s):

GERARD C. BOND ◽

MICHELLE A. KOMINZ ◽

MICHAEL S. STECKLER ◽

JOHN P. GROTZINGER

Keyword(s):

Passive Margin ◽

Early Paleozoic ◽

Carbonate Platforms ◽

Thermal Subsidence

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Upper Windermere Supergroup and the transition from rifting to continent-margin sedimentation, Nadaleen River area, northern Canadian Cordillera

Geological Society of America Bulletin ◽

10.1130/b32039.1 ◽

2019 ◽

Vol 131 (9-10) ◽

pp. 1673-1701 ◽

Cited By ~ 9

Author(s):

David P. Moynihan ◽

Justin V. Strauss ◽

Lyle L. Nelson ◽

Colin D. Padget

Keyword(s):

Continental Margin ◽

Carbonate Rocks ◽

Lower Cambrian ◽

Canadian Cordillera ◽

Middle Cambrian ◽

East Central ◽

Depositional Settings ◽

Windermere Supergroup ◽

Laurentian Margin ◽

Thermal Subsidence

AbstractNeoproterozoic–Cambrian rocks of the Windermere Supergroup and overlying units record the breakup of Rodinia and formation of the northwestern Laurentian ancestral continental margin. Understanding the nature and timing of this transition has been hampered by difficulty correlating poorly dated sedimentary successions from contrasting depositional settings across Mesozoic structures. Here we present new litho- and chemo-stratigraphic data from a Cryogenian–lower Cambrian succession in east-central Yukon (Canada), establish correlations between proximal and distal parts of the upper Windermere Supergroup and related strata in the northern Canadian Cordillera, and consider implications for the formation of the northwestern Laurentian margin. The newly defined Nadaleen Formation hosts the first appearance of Ediacaran macrofossils, while the overlying Gametrail Formation features a large negative carbon isotope anomaly with δ13Ccarb values as low as –13‰ that correlates with the globally developed Shuram-Wonoka anomaly. We also define the Rackla Group, which includes the youngest (Ediacaran) portions of the Windermere Supergroup in the northern Cordillera. The top of the Windermere Supergroup is marked by an unconformity above the Risky Formation that passes into a correlative conformity in the Nadaleen River area. This surface has been interpreted to mark the top of the rift-related succession, but we draw attention to evidence for tectonic instability through the early-middle Cambrian and argue that the transition from rifting to post-rift thermal subsidence is marked by a widespread unconformity that underlies upper Cambrian carbonate rocks. This is younger than the interpreted age of the rift to post-rift transition elsewhere along the ancestral western Laurentian continental margin.

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Geochronology and tectonic implications of magmatism and metamorphism, southern Kootenay Arc and neighbouring regions, southeastern British Columbia. Part I: Jurassic to mid-Cretaceous

Canadian Journal of Earth Sciences ◽

10.1139/e83-178 ◽

1983 ◽

Vol 20 (12) ◽

pp. 1891-1913 ◽

Cited By ~ 77

Author(s):

D. A. Archibald ◽

J. K. Glover ◽

R. A. Price ◽

E. Farrar ◽

D. M. Carmichael

Keyword(s):

British Columbia ◽

North America ◽

Regional Metamorphism ◽

Granitic Rocks ◽

Early Paleozoic ◽

Small Bodies ◽

Western Margin ◽

The North ◽

Windermere Supergroup ◽

Igneous Activity

K–Ar dates and U–Pb zircon dates define three periods of igneous activity in the southern Kootenay Arc: (1) emplacement of late-synkinematic to post-kinematic granodioritic plutons in mid-Jurassic time (170–165 Ma) accompanying amphibolite-facies regional metamorphism; (2) emplacement of post-kinematic granitic plutons in mid-Cretaceous time (~100 Ma); and (3) emplacement of small bodies of syenite in Eocene time (~50 Ma) in the western part of the area. Micas from mid-Jurassic plutons that yield the oldest K–Ar dates (158–166 Ma) also yield plateau-shaped 40Ar/39Ar age spectra. Age spectra for biotites younger than these but older than 125 Ma reflect thermal overprinting.In southeastern British Columbia, the Kootenay Arc marks the transition from the North American rocks of the Cordilleran miogeocline to the tectonic collage of allochthonous terranes that have been accreted to it.Deformation, metamorphism, and plutonism recorded in rocks of the southern Kootenay Arc commenced in mid-Jurassic time as a composite allochthonous terrane was accreted to and overlapped the western margin of North America. The geochronology and metamorphic geothermobarometry show that in less than 10 Ma between 166 and 156 Ma: (1) rocks as young as the late Proterozoic Windermere Supergroup and the early Paleozoic Lardeau Group were carried rapidly to depths of 20–24 km while being deformed and intruded by granitic rocks of a hornblende–biotite suite that were also being emplaced at a much shallower level in the overriding allochthonous terrane; and (2) the miogeoclinal rocks of the Windermere Supergroup in the southern Kootenay Arc were then uplifted by more than 7 km at an estimated rate of 2 mm/year, and thrust over the allochthonous terrane prior to being intruded by post-kinematic granitic rocks, many of which belong to the two-mica suite of mid-Cretaceous age..

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Evidence for late rifting of the Cordilleran margin outlined by stratigraphic division of the Lower Cambrian Gog Group, Rocky Mountain Main Ranges, British Columbia and Alberta

Canadian Journal of Earth Sciences ◽

10.1139/e95-072 ◽

1995 ◽

Vol 32 (7) ◽

pp. 860-874 ◽

Cited By ~ 39

Author(s):

W. Henry Lickorish ◽

Philip S. Simony

Keyword(s):

Lower Cambrian ◽

Hanging Wall ◽

Rocky Mountain ◽

Passive Margin ◽

Coarse Grained ◽

Normal Faults ◽

Upper Proterozoic ◽

Stratigraphic Division ◽

Stratigraphic Position ◽

Cordilleran Margin

The Lower Cambrian McNaughton Formation of the Gog Group occupies a stratigraphic position transitional between the rift-related rocks of the underlying Upper Proterozoic Miette Group, and the overlying Paleozoic passive margin succession. A major regional unconformity, overlain by a distinctive orthoquartzite marker, has been traced within the McNaughton Formation. This unconformity has been shown to truncate normal faults active during the deposition of the lower McNaughton Formation. The lower McNaughton Formation consists of mature, coarse-grained fluvial sediments accumulated in hanging-wall half-grabens of active normal faults. These faults represent the final stage of rifting on the continental margin. The unconformity on the footwall blocks of these faults can be traced into the hanging wall, and is overlain by the shoreface sediments of the transgressive upper McNaughton Formation. Formal subdivision of the McNaughton Formation into four lithostratigraphic members is proposed, in order to describe this geometry.

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Early Paleozoic Hyolitha from North America: reexamination of Walcott's and Resser's type specimens

Journal of Paleontology ◽

10.1017/s0022336000029851 ◽

1988 ◽

Vol 62 (2) ◽

pp. 218-233 ◽

Cited By ~ 23

Author(s):

John Mark Malinky

Keyword(s):

North America ◽

Lower Cambrian ◽

Type Species ◽

New Genus ◽

Early Paleozoic ◽

Type Specimens ◽

Middle Cambrian ◽

Upper Cambrian ◽

New Family ◽

The Family

Concepts of the family Hyolithidae Nicholson fide Fisher and the genera Hyolithes Eichwald and Orthotheca Novak have been expanded through time to encompass a variety of morphologically dissimilar shells. The Hyolithidae is here considered to include only those hyolithid species which have a rounded (convex) dorsum; slopes on the dorsum are inflated, and the venter may be flat or slightly inflated. Hyolithes encompasses species which possess a low dorsum and a prominent longitudinal sulcus along each edge of the dorsum; the ligula is short and the apertural rim is flared. The emended concept of Orthotheca includes only those species of orthothecid hyoliths which have a subtriangular transverse outline and longitudinal lirae covering the shell on both dorsum and venter.Eighteen species of Hyolithes and one species of Orthotheca from the Appalachian region and Western Interior were reexamined in light of more modern taxonomic concepts and standards of quality for type material. Reexamination of type specimens of H. similis Walcott from the Lower Cambrian of Newfoundland, H. whitei Resser from the Lower Cambrian of Nevada, H. billingsi Walcott from the Lower Cambrian of Nevada, H. gallatinensis Resser from the Upper Cambrian of Wyoming, and H. partitus Resser from the Middle Cambrian of Alabama indicates that none of these species represents Hyolithes. Hyolithes similis is here included under the new genus Similotheca, in the new family Similothecidae. Hyolithes whitei is designated as the type species of the new genus Nevadotheca, to which H. billingsi may also belong. Hyolithes gallatinensis is referred to Burithes Missarzhevsky with question, and H. partitus may represent Joachimilites Marek. The type or types of H. attenuatus Walcott, H. cecrops Walcott, H. comptus Howell, H. cowanensis Resser, H. curticei Resser, H. idahoensis Resser, H. prolixus Resser, H. resseri Howell, H. shaleri Walcott, H. terranovicus Walcott, and H. wanneri Resser and Howell lack shells and/or other taxonomically important features such as a complete aperture, rendering the diagnoses of these species incomplete. Their names should only be used for the type specimens until better preserved topotypes become available for study. Morphology of the types of H.? corrugatus Walcott and “Orthotheca” sola Resser does not support placement in the Hyolitha; the affinities of these species are uncertain.

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Ediacaran fossils and dubiofossils, Miette Group of Mount Fitzwilliam area, British Columbia

Canadian Journal of Earth Sciences ◽

10.1139/e91-138 ◽

1991 ◽

Vol 28 (10) ◽

pp. 1541-1552 ◽

Cited By ~ 14

Author(s):

H. J. Hofmann ◽

E. W. Mountjoy ◽

M. W. Teitz

Keyword(s):

British Columbia ◽

Shallow Water ◽

Rocky Mountains ◽

Carbonate Mounds ◽

Windermere Supergroup

Shallow-water clastic beds flanking stromatolitic carbonate mounds in the upper part of the Vendian Miette Group (Windermere Supergroup) of the Rocky Mountains contain a poorly preserved, soft-bodied fauna that comprises morphologically very variable discoid remains; these include the taxa Beltanella sp., cf. B. grandis, Charniodiscus? sp., Irridinitus? sp., Nimbia occlusa, Protodipleurosoma sp., cf. P. rugulosum, and Zolotytsia? sp. and seven types of dubiofossils.

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