Silurian and Devonian Volcanic Rocks of the Gaspe Peninsula

Geochemistry of Sainte-Marguerite volcanic rocks: implications for the evolution of Silurian–Devonian volcanism in the Gaspé Peninsula

Canadian Journal of Earth Sciences ◽

10.1139/e07-012 ◽

2008 ◽

Vol 45 (1) ◽

pp. 15-29 ◽

Cited By ~ 1

Author(s):

Alan D’hulst ◽

Georges Beaudoin ◽

Michel Malo ◽

Marc Constantin ◽

Pierre Pilote

Keyword(s):

Lower Devonian ◽

Volcanic Rocks ◽

Magma Source ◽

Volcanic Arc ◽

Lower Silurian ◽

Trace Element Signature ◽

Arc Setting ◽

Back Arc ◽

Gaspe Peninsula ◽

Gaspé Peninsula

The Lower Devonian Sainte-Marguerite volcanic rocks are part of a Silurian–Devonian volcanic sequence deposited between the Taconian and Acadian orogenies in the Gaspé Peninsula, Quebec, Canada. The Sainte-Marguerite unit includes basaltic and dacitic lava flows with calc-alkaline and volcanic-arc affinities. Such affinities are also recorded by the trace-element signature in Lower Silurian and most Lower Devonian volcanic units of the Gaspé Peninsula. However, most of the other Silurian–Devonian volcanic rocks occurring in the Gaspé Peninsula have been previously interpreted to have erupted in an intracontinental setting. A back-arc setting for the Gaspé Peninsula between the Taconian and Acadian orogenies could account for these subduction volcanic-arc signatures, though a metasomatized lithospheric mantle magma source, unrelated to subduction, cannot be excluded. Lower Silurian and Lower Devonian volcanic rocks in the central part of the Gaspé Peninsula show an arc affinity, whereas Upper Silurian and Lower to Middle Devonian volcanic rocks, located in the south and north of the Gaspé Peninsula, respectively, show a within-plate affinity. The Lower Devonian Archibald Settlement and Boutet volcanic rocks of the southern and northern Gaspé Peninsula, respectively, show a trend toward a within-plate affinity. This suggests that within-plate volcanism migrated from south to north through time in an evolving back-arc environment and that the subduction signature of Lower Silurian and Lower Devonian rocks results from a source that melted only under the central part of the Gaspé Peninsula.

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Late Silurian – Early Devonian rifting during dextral transpression in the southern Gaspé Peninsula (Quebec): petrogenesis of volcanic rocks

Canadian Journal of Earth Sciences ◽

10.1139/e93-198 ◽

1993 ◽

Vol 30 (12) ◽

pp. 2283-2294 ◽

Cited By ~ 16

Author(s):

J. Dostal ◽

R. Laurent ◽

J. D. Keppie

Keyword(s):

Rift Zone ◽

Volcanic Rocks ◽

Significant Proportion ◽

Spinel Peridotite ◽

Initial Surface ◽

Crustal Material ◽

Early Devonian ◽

Ree Patterns ◽

Gaspe Peninsula ◽

Gaspé Peninsula

The Upper Silurian – Lower Devonian volcanic rocks in the southern Gaspé Peninsula of the Quebec Appalachians crop out at the northeast end of the Connecticut Valley – Gaspé Synclinorium. These shallow marine and subaerial sequences reach a thickness of up to at least 2000 m and comprise two groups: (1) the Late Silurian volcanic rocks, which are mainly transitional alkalic–tholeiitic basalts with steeply sloping REE patterns; (2) the Early Devonian volcanic rocks, which include a significant proportion of intermediate rocks in addition to tholeiitic basalts. Compared with the Silurian rocks, the Devonian basalts have lower abundances of strongly incompatible trace elements such as Ba, Th, Ta, Nb, and light REE and relatively flat heavy REE patterns. Basalts of both groups display negative Nb and Ta anomalies (relative to Th and La).Although the basalts of both sequences were derived from lithospheric mantle, the Silurian basalts were generated from garnet peridotite at ~ 80 km depth while the Devonian basalts appear to have resulted from a larger degree of melting of spinel peridotite at a shallower depth (~ 60 km). Devonian intermediate rocks are probably the result of mixing of the basaltic magma with upper crustal material through assimilation – fractional crystallization processes. The basalts are interpreted to have formed in a northwest-trending rift zone located in the Quebec Reentrant during dextral transpression along the Appalachian Orogen. Rotation during and after the volcanism reoriented the rift zone to a northeast trend. The high density layer at the base of the crust under the Magdalen Basin may be the former magma chamber for the Silurian–Devonian volcanism. The change from transitional to tholeiitic volcanism at the Silurian–Devonian boundary suggests that the stretching value (ratio of final to initial surface area) increased from < 2 to > 2 at that time. This boundary is also coincident with the Salinic disturbance that is inferred to have been produced by erosion of the thermally uplifted block associated with rifting.

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Weather and Outbreaks of the Spruce Budworm in the Province of Quebec from 1939 to 1956

The Canadian Entomologist ◽

10.4039/ent93118-2 ◽

1961 ◽

Vol 93 (2) ◽

pp. 118-123 ◽

Cited By ~ 22

Author(s):

J. G. Pilon ◽

J. R. Blais

Keyword(s):

Choristoneura Fumiferana ◽

Abies Balsamea ◽

Spruce Budworm ◽

Balsam Fir ◽

The Past ◽

Forest Regions ◽

Tree Component ◽

Gaspe Peninsula ◽

Gaspé Peninsula

Nearly all forest regions in the Province of Quebec where balsam fir (Abies balsamea (L.) Mill.) is an important tree component have been subjected to severe defoliation by the spruce budworm, Choristoneura fumiferana (Clem.), during the past 20 years. These outbreaks have followed an easterly direction beginning near the Ontario-Quebec border in 1939 and ending in the Gaspé Peninsula in 1958.

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