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Emslie, R. F., Loveridge, W. D., Stevens, R. D. (1984) The Mealy dykes, Labrador: petrology, age, and tectonic significance. Canadian Journal of Earth Sciences, 21 (4) 437-446 doi:10.1139/e84-047

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Reference Type	Journal (article/letter/editorial)
Title	The Mealy dykes, Labrador: petrology, age, and tectonic significance
Journal	Canadian Journal of Earth Sciences
Authors	Emslie, R. F.		Author
	Loveridge, W. D.		Author
	Stevens, R. D.		Author
Year	1984 (April 1)	Volume	21
Issue	4
Publisher	Canadian Science Publishing
DOI	doi:10.1139/e84-047Search in ResearchGate
	Generate Citation Formats
Mindat Ref. ID	478237	Long-form Identifier	mindat:1:5:478237:1
GUID	0
Full Reference	Emslie, R. F., Loveridge, W. D., Stevens, R. D. (1984) The Mealy dykes, Labrador: petrology, age, and tectonic significance. Canadian Journal of Earth Sciences, 21 (4) 437-446 doi:10.1139/e84-047
Plain Text	Emslie, R. F., Loveridge, W. D., Stevens, R. D. (1984) The Mealy dykes, Labrador: petrology, age, and tectonic significance. Canadian Journal of Earth Sciences, 21 (4) 437-446 doi:10.1139/e84-047
In	(1984, April) Canadian Journal of Earth Sciences Vol. 21 (4) Canadian Science Publishing
Abstract/Notes	The Mealy dykes constitute a major olivine diabase swarm in the Mealy Mountains, Grenville Province, Labrador. The dykes intrude anorthosites and monzonites of the Mealy Mountains complex and outcrop over an area of at least 4000 km2. The swarm strikes east-northeast and may constitute the largest group of unmetamorphosed diabase dykes in the Grenville Province.The Mealy dykes are moderately iron-rich olivine tholeiites, typically nonporphyritic. Thick dykes have coarse-grained interiors that show some fractionation but variations in bulk chemical composition are relatively modest. Olivine (Fo47–Fo27), plagioclase (cores An63–An47, rims An47–An30), and low-Ca augite are the principal silicate minerals. Coexisting magnetite and ilmenite suggest that solidus temperatures were about 980 °C and that subsolidus oxide re-equilibration continued to near 530 °C or perhaps lower.A whole-rock Rb–Sr (errorchron) age for the Mealy dykes yielded 1380 ± 54 Ma, Sr1 = 0.7028 ± 0.0002, which, within precision estimates, is the same as published ages for other basic rocks in the region including Shabogamo gabbros, Seal Lake basalts and diabases, Harp dykes, and Michael gabbros. Together, these rocks signify a major episode of crustal dilation in central and southern Labrador that succeeded widespread anorthosite–monzonite–quartz monzonite intrusion. K–Ar ages on hornblendes, biotites, and whole rocks imply that if prograde heating of the Mealy Mountains terrane occurred at all during the Grenvillian event it was restricted to greenschist grade or lower.

See Also

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	*Park, J. K., Emslie, R. F. (1983) Paleomagnetic history of the Mealy dykes of Labrador, Canada. Canadian Journal of Earth Sciences, 20 (12) 1818-1833 doi:10.1139/e83-173*
	*Emslie, R. F. (1978) Elsonian magmatism in Labrador: age, characteristics and tectonic setting. Canadian Journal of Earth Sciences, 15 (3) 438-453 doi:10.1139/e78-048*
	Fahrig, W. F., Christie, K. W., Eade, K. E., Tella, S. (1984) Paleomagnetism of the Tulemalu dykes, Northwest Territories, Canada. Canadian Journal of Earth Sciences, 21 (5) 544-553 doi:10.1139/e84-059
	*Reynolds, P. H. (1989) 40Ar/39Ar dating of the Mealy dykes of Labrador: paleomagnetic implications. Canadian Journal of Earth Sciences, 26 (8) 1567-1573 doi:10.1139/e89-133*
	Zolnai, A. I., Price, R. A., Helmstaedt, H. (1984) Regional cross section of the Southern Province adjacent to Lake Huron, Ontario: implications for the tectonic significance of the Murray Fault Zone. Canadian Journal of Earth Sciences, 21 (4) 447-456 doi:10.1139/e84-048
	Rose, E. R. (1967) DISCUSSION: Rb/Sr AGE AND GEOLOGICAL SETTING OF THE HOLYROOD GRANITE, SOUTHEAST NEWFOUNDLAND, BY W. D. McCARTNEY, W. H. POOLE, R. K. WANLESS, H. WILLIAMS, AND W. D. LOVERIDGE. Canadian Journal of Earth Sciences, 4 (4) 746 doi:10.1139/e67-051
	*Strong, D. F. (1984) Rare earth elements in volcanic rocks of the Buchans area, Newfoundland. Canadian Journal of Earth Sciences, 21 (7) 775-780 doi:10.1139/e84-084*
	*Craw, D. (1984) Tectonic stacking of metamorphic zones in Cheticamp River area, Cape Breton Highlands, Nova Scotia. Canadian Journal of Earth Sciences, 21 (11) 1229-1244 doi:10.1139/e84-128*
	Cecile, M. P., Goodfellow, W. D., Jones, L. D., Krouse, H. R., Shakur, M. A. (1984) Origin of radioactive barite sinter, Flybye springs, Northwest Territories, Canada. Canadian Journal of Earth Sciences, 21 (4) 383-395 doi:10.1139/e84-042
	*Mathews, W. H., Bustin, R. M. (1984) Why do the Smoking Hills smoke?. Canadian Journal of Earth Sciences, 21 (7) 737-742 doi:10.1139/e84-080*
	*Emslie, Ronald F. (1965) THE MICHIKAMAU ANORTHOSITIC INTRUSION, LABRADOR. Canadian Journal of Earth Sciences, 2 (4) 385-399 doi:10.1139/e65-030*

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