Monteregian Hills

The Monteregian Hills (French: Collines Montérégiennes) is a linear chain of isolated hills in Montreal and Montérégie, between the Laurentians and the Appalachians.

Monteregian Hills
Three of the central Monteregian hills (from left: Mont Saint-Hilaire, Mont Rougemont and Mont Yamaska) viewed from space.
Highest point
PeakMont Megantic
Elevation1,105 m (3,625 ft)
Listing
Geography
CountryCanada
ProvinceQuebec
Range coordinates45°28.7′N 73°2.4′W
Geology
Age of rockEarly Cretaceous

Etymology

The first definition of the Monteregian Hills came about in 1903 when Montreal geologist Frank Dawson Adams began referring to Mount Royal (Latin, Mons Regius) and hills of similar geology in the Saint Lawrence Lowlands as the "Royal Mountains" (French: montagnes royales).[1] Other hills in the chain included Mont Saint-Bruno, Mont Saint-Hilaire, Mont Saint-Grégoire, Mont Rougemont, Mont Yamaska, Mont Shefford, and Mont Brome.

It was only later that Mont Mégantic,[2] the Oka Hills, as well as the Saint-André and d'Iberville formations, were added to the list.[3]

Geology

Each hill in the chain consists of an erosional remnant of Cretaceous intrusive igneous rock and associated hornfels, which are more resistant to weathering than the surrounding sedimentary rock. All of the hills have dark-coloured mafic rock such as gabbro and essexite; some also have large areas of pulaskite, syenite, and other light-coloured rock.

The Monteregian Hills are part of the Great Meteor hotspot track, formed as a result of the North American Plate sliding westward over the long-lived New England hotspot,[4] and are the eroded remnants of intrusive stocks. These intrusive stocks have been variously interpreted as the feeder intrusions of long extinct volcanoes, which would have been active about 125 million years ago,[5][6] or as intrusives that never breached the surface in volcanic activity.[7] The lack of an obvious track west of the Monteregian Hills may be due either to failure of the plume to penetrate the Canadian Shield, to the lack of recognizable intrusions, or to strengthening of the plume when it approached the Monteregian Hills region. However, there is evidence the hotspot track extends northwestwards, including epeirogenic uplift, mantle velocity anomalies and kimberlitic volcanic features (e.g. the Attawapiskat, Kirkland Lake and Lake Timiskaming kimberlite fields) that become older away from the Monteregian Hills.[8]

The shallow, rocky sandy loam soils of the summits are mostly covered in forest. Where the underlying rock is rich in olivine, as over large areas of Mont Saint-Bruno and Mont Rougemont, these soils are classed as dystric brunisol. Podzol tends to develop over rock which lacks olivine, although many of these podzols lack an eluvial (Ae) horizon. Lower slopes are covered with aprons of gravel or sand. The sandy soils are usually podzols with classic Ae development; they often have subsoil hardpan and are undesirable for agriculture. The free-draining gravels are preferred for apple orchards, which grow in thermal belts where cold air can drain to the valley floor.

Monteregian Hills
NameHeightAgeCoordinatesLocation
St. Andrews formation130 metres (430 ft)n/a45°55"N, 74°31'WSaint-André-d'Argenteuil
Oka Hills249 metres (817 ft)[9]n/a45°28'N, 74°5'WOka
Mount Royal233 metres (764 ft)118-138 myr45°30'23"N, 73°35'20"WMontreal
Mont Saint-Bruno218 metres (715 ft)118-136 myr45°33'1"N, 73°19'09"WSaint-Bruno-de-Montarville
Mont Saint-Hilaire411 metres (1,348 ft)135 myr45°33'8"N, 73°9'3"WMont-Saint-Hilaire
Mont Saint-Grégoire251 metres (823 ft)119 myr45°21'29"N, 73°09'08"WMont-Saint-Grégoire
Mont Rougemont381 metres (1,250 ft)137 myr45°28'36"N, 73°03'17"WRougemont
Mont Yamaska416 metres (1,365 ft)120-140 myr45°27'25"N, 72°52'19"WSaint-Paul-d'Abbotsford
Mont Shefford526 metres (1,726 ft)120-130 myr45°21'49"N, 72°37'33"WShefford
Mont Brome553 metres (1,814 ft)118-138 myr45°16'59"N, 72°37'59"WBromont
Mont Mégantic1,105 metres (3,625 ft)128-133 myr45°27'20.5"N, 71°9'7.6"WNotre-Dame-des-Bois

See also

References

  1. Reference number 76975 of the Commission de toponymie du Québec (in French)
  2. Feininger, Tomas; Goodacre, Alan K. (2003). "The distribution of igneous rocks beneath Mont Mégantic (the easternmost Monteregian) as revealed by gravity". Canadian Journal of Earth Sciences. 40 (5): 765–773. Bibcode:2003CaJES..40..765F. doi:10.1139/e03-022.
  3. Bédard, Pierre. "La province géologique montérégienne : l'état des connaissances" (PDF) (in French). Communauté métropolitaine de Montréal. p. 6. Retrieved 22 August 2014. Avec le progrès des connaissances géologiques, le mont Mégantic, les roches intrusives d'Iberville, d'Oka, et de Saint-André se sont progressivement ajoutés à la liste.
  4. Eaton, David W.; Frederiksen, Andrew (2007). "Seismic evidence for convection-driven motion of the North American plate". Nature. 446 (7134): 428–431. Bibcode:2007Natur.446..428E. doi:10.1038/nature05675. PMID 17377580.
  5. A Hundred-Million Year History of the Corner Rise and New England Seamounts http://www.oceanexplorer.noaa.gov/explorations/05stepstones/background/geologic_history/geologic_history.html Archived 2013-07-02 at WebCite Retrieved on 2007-08-01
  6. The Monteregian Hills: Igneous Intrusions, http://geoscape.nrcan.gc.ca/montreal/heritage_e.php#mont Archived 2009-04-26 at the Wayback Machine Natural Resources Canada, Geoscape Montreal, 2006-07-24
  7. "Archived copy". Archived from the original on 2007-12-20. Retrieved 2007-12-16.CS1 maint: archived copy as title (link) Geology of Gault Nature Reserve, Mont St. Hilaire, McGill University
  8. Darbyshire, Fione A.; Eaton, David W.; Frederiksen, Andrew W.; Ertolahti, Leila (2007). "New insights into the lithosphere beneath the Superior Province from Rayleigh wave dispersion and receiver function analysis". Geophysical Journal International. 169 (3): 4. Bibcode:2007GeoJI.169.1043D. doi:10.1111/j.1365-246X.2006.03259.x.
  9. "Mont Bleu". Peakbagger.com. Retrieved 20 August 2014.
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