Geochemistry, provenance, and tectonic significance of sedimentary rocks of the Middle to Late Devonian McArras Brook and Visean Martin Road formations, Merigomish Subbasin, northern Antigonish Highlands, Nova Scotia

J. Brendan Murphy

doi:10.4138/1977

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

Canadian Journal of Earth Sciences ◽

10.1139/cjes-2013-0120 ◽

2014 ◽

Vol 51 (1) ◽

pp. 1-24 ◽

Cited By ~ 5

Author(s):

Adrian F. Park ◽

Robert L. Treat ◽

Sandra M. Barr ◽

Chris E. White ◽

Brent V. Miller ◽

...

Keyword(s):

Nova Scotia ◽

New Brunswick ◽

Tectonic Setting ◽

Sedimentary Rocks ◽

Alkali Feldspar ◽

Early Carboniferous ◽

Late Devonian ◽

Island Formation ◽

Lake Formation ◽

Saint John

The Partridge Island block is a newly identified tectonic element in the Saint John area of southern New Brunswick, located south of and in faulted contact 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 Beach Formation east of Saint John Harbour. A sample from thin rhyolite layers interbedded with basaltic flows of the Taylors Island Formation at Sheldon Point yielded a Late Devonian – Early Carboniferous U–Pb (zircon) age of 358.9 +6/–5 Ma. Petrological similarities indicate that all of the basaltic rocks of the Taylors Island and West Beach formations are of similar age and formed in a continental within-plate tectonic setting. West of Saint John Harbour, basaltic and sedimentary rocks of the Taylors Island Formation are increasingly deformed and mylonitic to the south, and in part tectonically interlayered with mylonitic granitoid rocks and minor metasedimentary rocks of the Tiner Point complex. Based on magnetic signatures, the deformed rocks of the Tiner Point complex can be traced through Partridge Island to the eastern side of Saint John Harbour, where together with the West Beach Formation, they occupy a thrust sheet above a redbed sequence of the mid-Carboniferous Balls Lake Formation. The Tiner Point complex includes leucotonalite and aegirine-bearing alkali-feldspar granite with A-type chemical affinity and Early Carboniferous U–Pb (zircon) ages of 353.6 ± 5.7 and 346.4 ± 0.7 Ma, respectively. Based on similarities in age, petrological characteristics, alteration, iron oxide – copper – gold (IOCG)-type mineralization, and deformation style, the Partridge Island block is correlated with Late Devonian – Early Carboniferous volcanic–sedimentary–plutonic rocks of the Cobequid Highlands in northern mainland Nova Scotia. Deformation was likely a result of dextral transpression along the Cobequid–Chedabucto fault zone during juxtaposition of the Meguma terrane.

Tectonic significance of the Late Proterozoic Economy River gneiss, Cobequid Highlands, Avalon Composite Terrane, Nova Scotia

Canadian Journal of Earth Sciences ◽

10.1139/e93-035 ◽

1993 ◽

Vol 30 (3) ◽

pp. 474-479 ◽

Cited By ~ 33

Author(s):

Ronald Doig ◽

J. Brendan Murphy ◽

R. Damian Nance

Keyword(s):

Nova Scotia ◽

Sedimentary Rocks ◽

Early Cambrian ◽

Zircon Age ◽

Late Proterozoic ◽

Tectonic Significance ◽

Minimum Age

A 734 ± 2 Ma U–Pb (zircon) age for the Economy River orthogneiss, Coboquid Highlands, Nova Scotia, is interpreted as being representative of a regionally extensive ca. 820–660 Ma event that is recorded in many parts of the Late Proterozoic – Early Cambrian Avalon Composite Terrane and the Gondwanan margin. The geochemistry of the gneiss is consistent with an arc environment. Although the gneiss may represent part of the sialic basement to the terrane, field relationships indicate that some of the basement is significantly older. The date may provide a minimum age for the platformal sedimentary rocks (Gamble Brook Formation) that the orthogneiss intruded and thus help constrain the Late Proterozoic paleogeographic position of Avalon relative to Gondwanaland.

Tectonic significance of Late Paleozoic deformation in the Cape George Peninsula, Antigonish Highlands, Nova Scotia

Atlantic Geology ◽

10.4138/1987 ◽

1993 ◽

Vol 29 (1) ◽

Cited By ~ 4

Author(s):

J. A.R. St. Jean ◽

R. D. Nance ◽

J. B. Murphy

Keyword(s):

Nova Scotia ◽

Late Paleozoic ◽

Tectonic Significance

Horton Group sedimentary rocks adjacent to the Cobequid Highlands, Nova Scotia

10.4095/207473 ◽

1996 ◽

Cited By ~ 1

Author(s):

D J W Piper

Keyword(s):

Nova Scotia ◽

Sedimentary Rocks

Early Cambrian Seismic Events and Their Tectonic Significance in Western Zhejiang

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.524-527.42 ◽

2012 ◽

Vol 524-527 ◽

pp. 42-48

Author(s):

Fu Sheng Guo ◽

Zhao Bin Yan ◽

Liu Qin Chen

Keyword(s):

Seismic Event ◽

Regional Distribution ◽

Sedimentary Rocks ◽

Seismic Events ◽

Time Interval ◽

Early Cambrian ◽

Distribution Characteristics ◽

Early Paleozoic ◽

Tectonic Events ◽

Tectonic Significance

The two early Cambrian seismic events could be found from sedimentary rocks at Peilingjiao section of Kaihua County, Baishi and Fangcun sections of Changshan County in western Zhejiang, except for Jiangshan area. The seismic event at Baishi outcrop can be correlated to the second seismic event at Peilingjiao section. Taking Fangcun as epicenter of the second seismic event, the magnitude of paleoseism in western Zhejiang is about 7~7.6. According to investigation on regional distribution of seismic events, the two seismic activities should be regulated by large Kaihua-Chun’an fault, but unrelated with Jiangshan-Shaoxing fault or Changshan-Xiaoshan fault. However, the formation time of Kaihua-Chun’an fault has not yet been determinate. Based on controlling on Silurian, the possible formation age was inferred to early Paleozoic. The distribution characteristics of seismites indicate that the Kaihua-Chun’an fault was already being active during early Cambrian and seismic activities may be response to Sinian tectonic events in western Zhejiang. By the way of analysis on paleoseismic rhythm, the time interval of the two seismic events in western Zhejiang is less than 5.0 Ma, which may be the result of early frequent activities of Kaihua-Chun’an fault.

Composition variations of the Sinian-Cambrian sedimentary rocks in Hunan and Guangxi provinces and their tectonic significance

Science China Earth Sciences ◽

10.1007/s11430-013-4634-1 ◽

2013 ◽

Vol 56 (11) ◽

pp. 1899-1917 ◽

Cited By ~ 13

Author(s):

PengMing Wang ◽

JinHai Yu ◽

Tao Sun ◽

Yu Shi ◽

PeiRong Chen ◽

...

Keyword(s):

Sedimentary Rocks ◽

Tectonic Significance

Late Devonian mafic-felsic magmatism in the Meguma Zone, Nova Scotia

The Nature of Magmatism in the Appalachian Orogen ◽

10.1130/0-8137-1191-6.107 ◽

1997 ◽

Cited By ~ 17

Author(s):

D. Barrie Clarke ◽

Michael A. MacDonald ◽

Marcus C. Tate

Keyword(s):

Nova Scotia ◽

Late Devonian

Bed thickness analysis of some Carboniferous fluvial sedimentary rocks near Joggins, Nova Scotia

Journal of Sedimentary Research ◽

10.1306/74d719b0-2b21-11d7-8648000102c1865d ◽

1968 ◽

Vol 38 (2) ◽

pp. 424-433 ◽

Cited By ~ 13

Author(s):

J. H. Way

Keyword(s):

Nova Scotia ◽

Sedimentary Rocks ◽

Bed Thickness

Tectono-sedimentary analysis of alternate-polarity half-graben basin-fill successions: Late Devonian-Early Carboniferous Horton Group, Cape Breton Island, Nova Scotia

Basin Research ◽

10.1111/j.1365-2117.1989.tb00038.x ◽

1989 ◽

Vol 2 (4) ◽

pp. 239-255 ◽

Cited By ~ 41

Author(s):

ANTHONY P. Hamblin ◽

BRIAN R. Rust

Keyword(s):

Nova Scotia ◽

Early Carboniferous ◽

Late Devonian ◽

Cape Breton Island ◽

Cape Breton ◽

Half Graben ◽

Basin Fill

An evaluation of crustal assimilation within the Late Devonian South Mountain Batholith, SW Nova Scotia

Geological Magazine ◽

10.1017/s0016756811000665 ◽

2012 ◽

Vol 149 (3) ◽

pp. 353-365 ◽

Cited By ~ 5

Author(s):

J. GREGORY SHELLNUTT ◽

JAROSLAV DOSTAL

Keyword(s):

Nova Scotia ◽

Chemical Evolution ◽

Hydrothermal Fluids ◽

Eastern North America ◽

Late Devonian ◽

Metal Enrichment ◽

Crustal Assimilation ◽

South Mountain Batholith ◽

Appalachian Orogen ◽

Zircon Saturation

AbstractThe Late Devonian South Mountain Batholith (SMB) of southwestern Nova Scotia is the largest batholith in the Appalachian Orogen of Eastern North America and contains economic deposits of U and Sn. The SMB comprises at least 11 individual plutons, which range in composition from granodiorite to biotite monzogranite, leucomonzogranite and leucogranite. Previous studies have suggested that a combination of fractional crystallization, assimilation of Meguma Supergroup country rocks and an influx of magmatic fluids contributed to the chemical evolution of the SMB. The amount of crustal assimilation is estimated to be as high as 33%. MELTS modelling assuming a starting composition of granodiorite with H2O = 4 wt%, pressure = 4 kbar (~12 km) and fO2 = FMQ can reproduce the chemical evolution observed in the SMB. However, some leucogranites likely require an additional component (e.g. hydrothermal fluids) to explain their alkali metal enrichment (e.g. Na, K, Rb). Zircon saturation thermometry estimates indicate the Salmontail Lake and Scrag Lake granodiorite plutons had high minimum initial temperatures of 823 ± 6°C and 832 ± 2°C, respectively, which are similar to low zircon-inheritance granitoids. The TiO2/Al2O3 and alkali-lime ratios of the surrounding country rocks and the leucogranites indicate the amount of crustal assimilation is likely to be between 10% and 20%. Our findings suggest the granodiorites of the SMB were likely produced by partial melting of the sub-Meguma Supergroup (e.g. Avalon terrane) lower crust caused by the contemporaneous injection of high temperature mafic to ultramafic magmas.