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Mareschal, J C, Jaupart, C, Rolandone, F, Gariépy, C, Fowler, C MR, Bienfait, G, Carbonne, C, Lapointe, R (2005) Heat flow, thermal regime, and elastic thickness of the lithosphere in the Trans-Hudson Orogen. Canadian Journal of Earth Sciences, 42 (4) 517-532 doi:10.1139/e04-088

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Reference TypeJournal (article/letter/editorial)
TitleHeat flow, thermal regime, and elastic thickness of the lithosphere in the Trans-Hudson Orogen
JournalCanadian Journal of Earth Sciences
AuthorsMareschal, J CAuthor
Jaupart, CAuthor
Rolandone, FAuthor
Gariépy, CAuthor
Fowler, C MRAuthor
Bienfait, GAuthor
Carbonne, CAuthor
Lapointe, RAuthor
Year2005 (April 1)Volume42
Issue4
PublisherCanadian Science Publishing
DOIdoi:10.1139/e04-088Search in ResearchGate
Generate Citation Formats
Mindat Ref. ID484036Long-form Identifiermindat:1:5:484036:1
GUID0
Full ReferenceMareschal, J C, Jaupart, C, Rolandone, F, Gariépy, C, Fowler, C MR, Bienfait, G, Carbonne, C, Lapointe, R (2005) Heat flow, thermal regime, and elastic thickness of the lithosphere in the Trans-Hudson Orogen. Canadian Journal of Earth Sciences, 42 (4) 517-532 doi:10.1139/e04-088
Plain TextMareschal, J C, Jaupart, C, Rolandone, F, Gariépy, C, Fowler, C MR, Bienfait, G, Carbonne, C, Lapointe, R (2005) Heat flow, thermal regime, and elastic thickness of the lithosphere in the Trans-Hudson Orogen. Canadian Journal of Earth Sciences, 42 (4) 517-532 doi:10.1139/e04-088
In(2005, April) Canadian Journal of Earth Sciences Vol. 42 (4) Canadian Science Publishing
Abstract/Notes Heat flow studies on the exposed part of the Trans-Hudson Orogen (THO) in northern Manitoba and Saskatchewan allow constraints on crustal composition and lithosphere structure. The average of all heat flow values in the THO is the same as in other geological provinces of the Canadian Shield. However, where juvenile crust is exposed, heat flow is on average lower than in the Superior and Grenville provinces (37 vs. 41 mW m2). Heat flow increases towards the surrounding Archean provinces, RaeHearne to the west, Sask to the south, and Superior to the east. There are strong differences in heat flow within and between the belts of the THO. The poor correlation between heat flow and heat production in the rocks exposed at the surface implies that these differences involve a large fraction of the crustal column. One new heat flow determination confirms the existence of a ``cold spot'' around the town of Lynn Lake in the northern part of the THO. Heat flow data in the Kisseynew and Glennie domains remain sparse, but they indicate that this low heat flow region extends as far south as the Flin Flon Snow Lake Belt. The Lynn Lake Belt is underlain by poorly radiogenic rocks, possibly Kisseynew-type crust with oceanic basement. Northward increase in heat flow along the Thompson Belt is consistent with the view that the belt is thrust over Kisseynew-type basement only in the south. Heat flow increases southward in the Paleozoic basin because of higher heat production in basement rocks, probably from the Sask craton. We used the low heat flow regions to obtain an upper bound of 15 mW m2 for the mantle heat flow in the THO. The effective elastic thickness of the lithosphere can be determined from the coherence between the topography and the Bouguer gravity. The effective elastic thickness is high (>40 km) thoughout the Canadian Shield and is highest in the central part of the shield, in particular in the Lynn Lake region. There seems to be a negative correlation between elastic thickness and heat flow in the central and western Canadian Shield. This indicates that, even in stable continents, the elastic thickness is largely controlled by the lithospheric temperatures that depend strongly on crustal heat generation and hence crustal structure.

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Rolandone, F., Jaupart, C., Mareschal, J. C., Gariépy, C., Bienfait, G., Carbonne, C., Lapointe, R. (2002) Surface heat flow, crustal temperatures and mantle heat flow in the Proterozoic Trans-Hudson Orogen, Canadian Shield. Journal of Geophysical Research: Solid Earth, 107. doi:10.1029/2001jb000698
Mareschal, J. C., Jaupart, C., Cheng, L. Z., Rolandone, F., Gariépy, C., Bienfait, G., Guillou-Frottier, L., Lapointe, R. (1999) Heat flow in the Trans-Hudson Orogen of the Canadian Shield: Implications for Proterozoic continental growth. Journal of Geophysical Research: Solid Earth, 104. 29007-29024 doi:10.1029/1998jb900209
Guillou-Frottier, L., Jaupart, C., Mareschal, J. C., Gariépy, C., Bienfait, G., Cheng, L. Z., Lapointe, R. (1996) High heat flow in the trans-Hudson Orogen, Central Canadian Shield. Geophysical Research Letters, 23 (21) 3027-3030 doi:10.1029/96gl02895
Mareschal, J. C., Pinet, C., Gariépy, C., Jaupart, C., Bienfait, G., Coletta, G. Dalla, Jolivet, J., Lapointe, R. (1989) New heat flow density and radiogenic heat production data in the Canadian Shield and the Quebec Appalachians. Canadian Journal of Earth Sciences, 26 (4) 845-852 doi:10.1139/e89-068
Mareschal, J C, Jaupart, C, Gariépy, C, Cheng, L Z, Guillou-Frottier, L, Bienfait, G, Lapointe, R (2000) Heat flow and deep thermal structure near the southeastern edge of the Canadian Shield. Canadian Journal of Earth Sciences, 37 (2) 399-414 doi:10.1139/e98-106
Rolandone, F., Mareschal, J. C., Jaupart, C., Gosselin, C., Bienfait, G., Lapointe, R. (2003) Heat flow in the western Superior Province of the Canadian shield. Geophysical Research Letters, 30 (12) doi:10.1029/2003gl017386
Mareschal, J. C., Poirier, A., Rolandone, F., Bienfait, G., Gariépy, C., Lapointe, R., Jaupart, C. (2000) Low mantle heat flow at the edge of the North American Continent, Voisey Bay, Labrador. Geophysical Research Letters, 27 (6) 823-826 doi:10.1029/1999gl011069
Cheng, L.Z., Mareschal, J.C., Jaupart, C., Rolandone, F., Gariépy, C., Radigon, M. (2002) Simultaneous inversion of gravity and heat flow data: constraints on thermal regime, rheology and evolution of the Canadian Shield crust☆. Journal of Geodynamics, 34 (1). 11-30 doi:10.1016/s0264-3707(01)00082-5
Lévy, F., Jaupart, C., Mareschal, J.-C., Bienfait, G., Limare, A. (2010) Low heat flux and large variations of lithospheric thickness in the Canadian Shield. Journal of Geophysical Research, 115. doi:10.1029/2009jb006470
Jaupart, C., Mareschal, J. C., Guillou-Frottier, L., Davaille, A. (1998) Heat flow and thickness of the lithosphere in the Canadian Shield. Journal of Geophysical Research: Solid Earth, 103. 15269-15286 doi:10.1029/98jb01395
Fowler, C MR, Stead, D, Pandit, B I, Janser, B W, Nisbet, E G, Nover, G (2005) A database of physical properties of rocks from the Trans-Hudson Orogen, Canada. Canadian Journal of Earth Sciences, 42 (4) 555-572 doi:10.1139/e05-006
 
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