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Caledonia Terrane

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Journal Article

Precise U–Pb zircon dates from silicic super-eruptions during late Ediacaran extension in the Avalonian Caledonia terrane of southern New Brunswick, Canada Available to Purchase

Alicia P. Escribano, Sandra M. Barr, James L. Crowley
Published: 09 January 2023
Canadian Journal of Earth Sciences (2023) 60 (4): 442–462.
DOI: https://doi.org/10.1139/cjes-2022-0100
... be obtained from copyright.com . U–Pb zircon dating super-eruptions late Ediacaran Avalonia zircon chemistry The Caledonia terrane of southern New Brunswick, Canada, is a component of Avalonia in the northern Appalachian orogen ( Fig. 1 , inset). The original relations among the now...
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View PDF for article title, Precise U–Pb zircon dates from silicic super-eruptions during late Ediacaran extension in the Avalonian <span class="search-highlight">Caledonia</span> <span class="search-highlight">terrane</span> of southern New Brunswick, Canada
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Simplified geological map of the Caledonia terrane of southern New Brunswick after Barr et al. (2020) showing the distribution of rock units and published late Ediacaran U–Pb zircon dates (blue, in boxes; errors are at 2σ). Numbers in brackets in the blue boxes are the source references for the dates as follows: (1) Bevier and Barr (1990); (2) Barr et al. (1994); (3) Grammatikopoulos et al. (1995); (4) Miller et al. (2000); (5) Barr et al. (2020). Yellow circles are locations of samples in the Coldbrook Group that did not yield zircon. Purple and green boxes contain the numbers of the samples for which ages are presented in this paper. Inset map of the northern Appalachian orogen after Hibbard et al. (2006) shows the location of the Caledonia terrane (black rectangle) within Avalonia. Abbreviations: AL, Arnold Lake high-strain zone; BB, Bonnell Brook pluton; BM, Baxters Mountain pluton; MS, Mechanic Settlement pluton; PWR, Point Wolfe River pluton; SM-SM, St. Martins-Stuart Mountain high-strain zone; U, Upham Mountain pluton.

Simplified geological map of the Caledonia terrane of southern New Brunswic... Available to Purchase

Published: 09 January 2023
Fig. 1. Simplified geological map of the Caledonia terrane of southern New Brunswick after Barr et al. (2020) showing the distribution of rock units and published late Ediacaran U–Pb zircon dates (blue, in boxes; errors are at 2σ). Numbers in brackets in the blue boxes are the source references
Image
Simplified geologic map of the Caledonia terrane, after Barr and White (1999). Dated samples are indicated by A (HV95-5) and B (AS06-11). Sm-Nd sample locations are shown as circles, numbered as in table 1. CCHF = Caledonia–Clover Hill Fault.

Simplified geologic map of the Caledonia terrane, after Barr and White ( 19... Available to Purchase

Published: 01 March 2010
Figure 2. Simplified geologic map of the Caledonia terrane, after Barr and White ( 1999 ). Dated samples are indicated by A (HV95-5) and B (AS06-11). Sm-Nd sample locations are shown as circles, numbered as in table 1 . CCHF = Caledonia–Clover Hill Fault.
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Simplified stratigraphic column for the Caledonia terrane, after Barr and White (2004), showing the approximate relative stratigraphic positions of the samples and their ɛNd values from table 1. Formations identified are Goose River (GRF) and Pine Brook (PBF) in the Broad River Group (BRG), Cedar Camp Brook (CCBF), Walton Dam (WDF), and Seely Beach (SBF) in the Coldbrook Group (CBG), and Ratcliffe Brook, Glen Falls, Hanford Brook, Forest Hills, King Square, Silver Falls, and Reversing Falls in the Saint John Group. The timescale is after Walker and Geissman (2009), except that Early (E) Cambrian includes both Terreneuvian and Series 2, Middle (M) Cambrian corresponds to Series 3, and Late (L) Cambrian corresponds to Furongian. Sample descriptions and locations are provided in Satkoski (2008).

Simplified stratigraphic column for the Caledonia terrane, after Barr and W... Available to Purchase

Published: 01 March 2010
Figure 3. Simplified stratigraphic column for the Caledonia terrane, after Barr and White ( 2004 ), showing the approximate relative stratigraphic positions of the samples and their ɛ Nd values from table 1 . Formations identified are Goose River ( GRF ) and Pine Brook ( PBF ) in the Broad
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Fig. 2. ( a ) Simplified geological map of the Caledonia terrane (after ... Available to Purchase

Published: 15 April 2009
Fig. 2. ( a ) Simplified geological map of the Caledonia terrane (after Barr and White 2004 ), showing sample locations for the present study and those of Dallmeyer and Nance (1990) and Dallmeyer et al. (1997) . Samples: 1, CW89-842C,E; 2, NB06-230; 3, NB06-231; 4, AS06-11; 5, NB89-6026; 6
Journal Article

Nd isotopic characteristics of terranes within the Avalon Zone, southern New Brunswick Available to Purchase

Scott D. Samson, Sandra M. Barr, Chris E. White
Published: 18 July 2000
Canadian Journal of Earth Sciences (2000) 37 (7): 1039–1052.
DOI: https://doi.org/10.1139/e00-015
...Scott D. Samson; Sandra M. Barr; Chris E. White Abstract Nd isotopic data are presented for rock units in four terranes within the traditional Avalon Zone of southern New Brunswick. Initial ε Nd values for igneous rocks within the Caledonia terrane range from −1.6 to +4.6, whereas values...
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View PDF for article title, Nd isotopic characteristics of <span class="search-highlight">terranes</span> within the Avalon Zone, southern New Brunswick
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Journal Article

Regional 18 O-depletion of Neoproterozoic igneous rocks from Avalonia, Cape Breton Island and southern New Brunswick, Canada Available to Purchase

J. Potter, F.J. Longstaffe, S.M. Barr
Journal: GSA Bulletin
Published: 01 March 2008
GSA Bulletin (2008) 120 (3-4): 347–367.
DOI: https://doi.org/10.1130/B26191.1
...J. Potter; F.J. Longstaffe; S.M. Barr Abstract Neoproterozoic igneous rocks of the Avalonian Mira terrane, Cape Breton Island, and Caledonia terrane, southern New Brunswick, have experienced regional 18 O-depletion. The majority of these rocks have δ 18 O WR values between −1 and +6‰, markedly...
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View PDF for article title, Regional 18 O-depletion of Neoproterozoic igneous rocks from Avalonia, Cape Breton Island and southern New Brunswick, Canada
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Journal Article

Tectonic implications of 40 Ar/ 39 Ar mineral ages from late Precambrian – Cambrian plutons, Avalon composite terrane, southern New Brunswick, Canada Free

R. David Dallmeyer, R. Damian Nance
Published: 01 November 1992
Canadian Journal of Earth Sciences (1992) 29 (11): 2445–2462.
DOI: https://doi.org/10.1139/e92-192
... Group) along the Caledonia Fault. Both assemblages host petrographically similar suites of calc-alkalic dioritic and granodioritic plutons. Those intruding volcanic–sedimentary sequences (Caledonia terrane) record ca. 615–625 Ma crystallization ages typical of arc-related magmatism throughout the Avalon...
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Journal Article

Altering Avalonia: oxygen isotopes and terrane distinction in the Appalachian peri-Gondwanan realm Laboratory for Stable Isotope Science (LSIS), The University of Western Ontario, Contribution 236. Available to Purchase

Joanna Potter, Frederick J. Longstaffe, Sandra M. Barr, Margaret D. Thompson, Chris E. White
Published: 26 August 2008
Canadian Journal of Earth Sciences (2008) 45 (7): 815–825.
DOI: https://doi.org/10.1139/E08-024
... terrane have the lowest δ 18 O WR values (≥–3.1‰), followed by the Mira terrane in Cape Breton Island and the Caledonia terrane in New Brunswick (≥–1.2‰), the Avalon terrane in Newfoundland (≥+2.8‰), and the Antigonish Highlands in Nova Scotia (≥+5.3‰). In contrast, this depletion of 18 O is observed...
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View PDF for article title, Altering Avalonia: oxygen isotopes and <span class="search-highlight">terrane</span> distinction in the Appalachian peri-Gondwanan realm Laboratory for Stable Isotope Science (LSIS), The University of Western Ontario, Contribution 236.
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Book Chapter

Evolving views of West Avalonia: Perspectives from southeastern New England, USA Available to Purchase

Author(s)
M.D. Thompson*, S.M. Barr, J.C. Pollock
Book: New Developments in the Appalachian-Caledonian-Variscan Orogen
Series: GSA Special Papers
Publisher: Geological Society of America
Published: 19 May 2022
DOI: 10.1130/2022.2554(03)
EISBN: 9780813795546
... and Antigonish Highlands of mainland Nova Scotia and New Brunswick’s Caledonia terrane. Particularly significant features are similarities between the younger than 912 Ma Westboro Formation in New England and the younger than 945 Ma Gamble Brook Formation in the Cobequid Highlands, both of which yield detrital...
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Abstract
View PDF for content titled, Evolving views of West Avalonia: Perspectives from southeastern New England, USA
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ABSTRACT Southeastern New England is largely composed of Ediacaran granitoid and related volcanic rocks formed during the main phase of arc-related magmatism recorded in West Avalonian lithotectonic assemblages extending through Atlantic Canada to eastern Newfoundland. In situ Lu-Hf analyses presented here for zircons from the Dedham, Milford, and Esmond Granites and from the Lynn-Mattapan volcanic complex show a restricted range of εHf values (+2 to +5) and associated Hf- T DM model ages of 1.3–0.9 Ga, assuming felsic crustal sources. The most evolved granites within this suite lie in a belt north and west of the Boston Basin, whereas upfaulted granites on the south, as well as the slightly younger volcanic units, show more juvenile Hf isotopic compositions. Similar inferences have been drawn from previously published Sm-Nd isotopic signatures for several of the same plutons. Collectively, the isotopic compositions and high-precision U-Pb geochronological constraints now available for southeastern New England differ in important respects from patterns in the Mira terrane of Cape Breton Island or the Newfoundland Avalon zone, but they closely resemble those documented in the Cobequid and Antigonish Highlands of mainland Nova Scotia and New Brunswick’s Caledonia terrane. Particularly significant features are similarities between the younger than 912 Ma Westboro Formation in New England and the younger than 945 Ma Gamble Brook Formation in the Cobequid Highlands, both of which yield detrital zircon age spectra consistent with sources on the Timanide margin of Baltica. This relationship provides the starting point for a recent model in which episodic West Avalonian arc magmatism began along the Tonian margin of Baltica and terminated during diachronous late Ediacaran arc-arc collision with the Ganderian margin of Gondwana.

Journal Article

Structural setting and age of the Partridge Island block, southern New Brunswick, Canada: a link to the Cobequid Highlands of northern mainland Nova Scotia Available to Purchase

Adrian F. Park, Robert L. Treat, Sandra M. Barr, Chris E. White, Brent V. Miller, Peter H. Reynolds, Michael A. Hamilton
Published: 24 October 2013
Canadian Journal of Earth Sciences (2014) 51 (1): 1–24.
DOI: https://doi.org/10.1139/cjes-2013-0120
... with Proterozoic and Cambrian rocks of the Ganderian Brookville and Avalonian Caledonia terranes. It includes the Lorneville Group and Tiner Point complex. The Lorneville Group consists of interbedded volcanic and sedimentary rocks, subdivided into the Taylors Island Formation west of Saint John Harbour and West...
View PDF for article title, Structural setting and age of the Partridge Island block, southern New Brunswick, Canada: a link to the Cobequid Highlands of northern mainland Nova Scotia
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Journal Article

Provenance of Late Neoproterozoic and Cambrian Sediments in Avalonia: Constraints from Detrital Zircon Ages and Sm-Nd Isotopic Compositions in Southern New Brunswick, Canada Available to Purchase

Aaron M. Satkoski, Sandra M. Barr, Scott D. Samson
Published: 01 March 2010
The Journal of Geology (2010) 118 (2): 187–200.
DOI: https://doi.org/10.1086/649818
...Figure 2. Simplified geologic map of the Caledonia terrane, after Barr and White ( 1999 ). Dated samples are indicated by A (HV95-5) and B (AS06-11). Sm-Nd sample locations are shown as circles, numbered as in table 1 . CCHF = Caledonia–Clover Hill Fault. ...
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View PDF for article title, Provenance of Late Neoproterozoic and Cambrian Sediments in Avalonia: Constraints from Detrital Zircon Ages and Sm-Nd Isotopic Compositions in Southern New Brunswick, Canada
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Terranes in the northern Appalachian orogen, after Barr et al. (1998). N, New River terrane; K, Kingston terrane; B, Brookville terrane; C, Caledonia terrane.

Terranes in the northern Appalachian orogen, after Barr et al. ( 1998 ). N,... Available to Purchase

Published: 18 July 2000
Fig. 1. Terranes in the northern Appalachian orogen, after Barr et al. ( 1998 ). N, New River terrane; K, Kingston terrane; B, Brookville terrane; C, Caledonia terrane.
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Fig. 1. The main subdivisions of the northern Appalachian orogen based on... Available to Purchase

Published: 26 August 2008
Fig. 1. The main subdivisions of the northern Appalachian orogen based on Hibbard et al. (2006) . The inset shows the Avalon Zone of Williams (1979) . AH, Antigonish Highlands; AT, Aspy terrane; BdOT, Bras d’Or terrane; BT, Brookville terrane; Cal, Caledonia terrane; CH, Cobequid Highlands; KT
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TABLE 2. OXYGEN AND CARBON ISOTOPIC COMPOSITIONS FOR WHOLE ROCK AND MINERAL... Available to Purchase

Published: 01 March 2008
TABLE 2. OXYGEN AND CARBON ISOTOPIC COMPOSITIONS FOR WHOLE ROCK AND MINERALS FROM SELECT SAMPLES FROM THE MIRA AND CALEDONIA TERRANES
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(a) Hf-isotope evolution of εHf against age for the Cape Spencer dykes (this study). The evolutionary arrays for 1000 Ma and 1600 Ma crust with average upper crustal 176Lu/177Hf values of 0.015 (Griffin et al.2002). Depleted mantle evolution curve from Griffin et al. (2000). Hf-zircon analyses from the South Mountain Batholith (Bickerton et al. 2022) and the Caledonia terrane (Pollock et al.2022) are also shown. (b) Nd-isotope evolution of εNd against age for the Cape Spencer dykes (this study). Additional εNd data are from the Sebago Batholith and granitic pegmatites from the Topsham area (Tomascak et al.1996a, 1998), the German Bank Pluton (Pe-Piper &amp; Jansa, 1999; Pe-Piper et al.2010), the South Mountain Batholith (Clarke et al.1988, 2004; Erdmann et al.2009; MacDonald &amp; Clarke, 2017), Devonian Plutons (Whalen et al.1994, 1996; Mohammadi et al.2020), Silurian Plutons (Whalen et al.1994) and the Caledonia terrane (Samson et al.2000; Whalen et al.1994). Field (green-shaded) for Avalonia from Nance &amp; Murphy (1996). Depleted mantle evolution curve from DePaolo (1981).

(a) Hf-isotope evolution of εHf against age for the Cape Spencer dykes (thi... Open Access

Published: 23 September 2024
). Hf-zircon analyses from the South Mountain Batholith (Bickerton et al . 2022 ) and the Caledonia terrane (Pollock et al. 2022 ) are also shown. (b) Nd-isotope evolution of εNd against age for the Cape Spencer dykes (this study). Additional εNd data are from the Sebago Batholith and granitic
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Sketch map showing geological components of the northern Appalachian orogen based on published maps of Hibbard et al. (2006) and van Staal et al. (2020). Avalonian components include southeastern New England (SENE), Caledonia terrane (Cal), the Cobequid Highlands (Cob), the Antigonish Highlands (A), Mira terrane, and eastern Newfoundland. CBI, Cape Breton Island; CCFS, Cobequid–Chedabucto fault system. [Colour online.]

Sketch map showing geological components of the northern Appalachian orogen... Available to Purchase

Published: 05 November 2020
Fig. 1. Sketch map showing geological components of the northern Appalachian orogen based on published maps of Hibbard et al. (2006) and van Staal et al. (2020) . Avalonian components include southeastern New England (SENE), Caledonia terrane (Cal), the Cobequid Highlands (Cob), the Antigonish
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Components of the northern Appalachian orogen (after Hibbard et al. 2006), showing the location of the Caledonia terrane in southern New Brunswick. CBI = Cape Breton Island; ME = Maine; NB = New Brunswick; NL = Newfoundland; NS = Nova Scotia; QUE = Quebec.

Components of the northern Appalachian orogen (after Hibbard et al. 2006 )... Available to Purchase

Published: 01 March 2010
Figure 1. Components of the northern Appalachian orogen (after Hibbard et al. 2006 ), showing the location of the Caledonia terrane in southern New Brunswick. CBI = Cape Breton Island; ME = Maine; NB = New Brunswick; NL = Newfoundland; NS = Nova Scotia; QUE = Quebec.
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Plot of initial εNd versus age for igneous rocks from the Caledonia terrane of southern New Brunswick (Whalen et al. 1994; Samson 1995; this study), the Antigonish Highlands of Nova Scotia (Murphy et al. 1996), the Mira terrane of Cape Breton Island (Barr and Hegner 1992), and the Avalon terrane of eastern Newfoundland (Kerr et al. 1995) compared to rocks from the Brookville terrane of southern New Brunswick (Whalen et al. 1994; this study), the Bras D’Or terrane of Cape Breton Island (Barr and Hegner 1992), and the New River terrane of New Brunswick (this study).

Plot of initial ε Nd versus age for igneous rocks from the Caledonia terra... Available to Purchase

Published: 18 July 2000
Fig. 4. Plot of initial ε Nd versus age for igneous rocks from the Caledonia terrane of southern New Brunswick ( Whalen et al. 1994 ; Samson 1995 ; this study), the Antigonish Highlands of Nova Scotia ( Murphy et al. 1996 ), the Mira terrane of Cape Breton Island ( Barr and Hegner 1992
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Simplified geological map of part of the Maritime Provinces showing the distribution of the Horton Group and pre-Carboniferous geological terranes (after Keppie 2000 and Barr et al. 1998). The location of the Lochaber–Mulgrave area is indicated by the box. AH, Antigonish Highlands; BRI, Blair River inlier; BV, Brookville terrane; Cal, Caledonia terrane; CCFZ, Cobequid–Chedabucto fault zone; CH, Cobequid Highlands; CR, Creignish Hills; MB, Minas Basin; P.E.I., Prince Edward Island; N.B., New Brunswick.

Simplified geological map of part of the Maritime Provinces showing the dis... Available to Purchase

Published: 11 August 2004
; BRI, Blair River inlier; BV, Brookville terrane; Cal, Caledonia terrane; CCFZ, Cobequid–Chedabucto fault zone; CH, Cobequid Highlands; CR, Creignish Hills; MB, Minas Basin; P.E.I., Prince Edward Island; N.B., New Brunswick.