Labrador Sea Explained

The Labrador Sea (fr|mer du Labrador; da|Labradorhavet) is an arm of the North Atlantic Ocean between the Labrador Peninsula and Greenland. The sea is flanked by continental shelves to the southwest, northwest, and northeast. It connects to the north with Baffin Bay through the Davis Strait.^[3] It is a marginal sea of the Atlantic.^{[4] [5]}

The sea formed upon separation of the North American Plate and Greenland Plate that started about 60 million years ago and stopped about 40 million years ago. It contains one of the world's largest turbidity current channel systems, the Northwest Atlantic Mid-Ocean Channel (NAMOC), that runs for thousands of kilometers along the sea bottom toward the Atlantic Ocean.

The Labrador Sea is a major source of the North Atlantic Deep Water, a cold water mass that flows at great depth along the western edge of the North Atlantic.

History

The Labrador Sea formed upon separation of the North American Plate and Greenland Plate that started about 60 million years ago (Paleocene) and stopped about 40 million years ago.^[2] A sedimentary basin, which is now buried under the continental shelves, formed during the Cretaceous.^[2] Onset of magmatic sea-floor spreading was accompanied by volcanic eruptions of picrites and basalts in the Paleocene at the Davis Strait and Baffin Bay.^[2]

Between about 500 BC and 1300 AD, the southern coast of the sea contained Dorset, Beothuk, and Inuit settlements; Dorset tribes were later replaced by Thule people.^[6]

Extent

The International Hydrographic Organization defines the limits of the Labrador Sea as follows:^[7]

On the North: the South limit of Davis Strait [The parallel of [[60th parallel north|60° North]] between Greenland and Labrador].

On the East: a line from Cape St. Francis 47.75°N -79°W (Newfoundland) to Cape Farewell (Greenland).

On the West: the East Coast of Labrador and Newfoundland and the Northeast limit of the Gulf of St. Lawrence – a line running from Cape Bauld (North point of Kirpon Island, 51.6667°N -80°W) to the East extreme of Belle Isle and on to the Northeast Ledge (52.0333°N -70°W). Thence a line joining this ledge with the East extreme of Cape St. Charles (52°13'N) in Labrador.

Natural Resources Canada uses a slightly different definition, putting the northern boundary of the Labrador Sea on a straight line from a headland on Killiniq Island abutting Lady Job Harbour to Cape Farewell.^[8]

Oceanography

The Labrador Sea is about 3400m (11,200feet) deep and 1000km (1,000miles) wide where it joins the Atlantic Ocean. It becomes shallower, to less than 7000NaN0 towards Baffin Bay (see depth map) and passes into the 300km (200miles) wide Davis Strait.^[2] A 100– deep turbidity current channel system, which is about 2- wide and 3800km (2,400miles) long, runs on the bottom of the sea, near its center from the Hudson Strait into the Atlantic.^{[9] [10]} It is called the Northwest Atlantic Mid-Ocean Channel (NAMOC) and is one of the world's longest drainage systems of Pleistocene age.^[11] It appears as a submarine river bed with numerous tributaries and is maintained by high-density turbidity currents flowing within the levees.^[12]

The water temperature varies between in winter and 5C6C in summer. The salinity is relatively low, at 31–34.9 parts per thousand. Two-thirds of the sea is covered in ice in winter. Tides are semi-diurnal (i.e. occur twice a day), reaching 4m (13feet).^[1]

There is an anticlockwise water circulation in the sea. It is initiated by the East Greenland Current and continued by the West Greenland Current, which brings warmer, more saline waters northwards, along the Greenland coasts up to the Baffin Bay. Then, the Baffin Island Current and Labrador Current transport cold and less saline water southward along the Canadian coast. These currents carry numerous icebergs and therefore hinder navigation and exploration of the gas fields beneath the sea bed.^{[3] [13]} The speed of the Labrador current is typically 0.3m/s0.5m/s, but can reach 1m/s in some areas,^[14] whereas the Baffin Current is somewhat slower at about 0.2m/s.^[15] The Labrador Current maintains the water temperature at and salinity between 30 and 34 parts per thousand.^[16]

The sea provides a significant part of the North Atlantic Deep Water (NADW) — a cold water mass that flows at great depth along the western edge of the North Atlantic, spreading out to form the largest identifiable water mass in the World Ocean.^[17] The NADW consists of three parts of different origin and salinity, and the top one, the Labrador Sea Water (LSW), is formed in the Labrador Sea. This part occurs at a medium depth and has a relatively low salinity (34.84–34.89 parts per thousand), low temperature (3.3-) and high oxygen content compared to the layers above and below it. LSW also has a relatively low vorticity, i.e. the tendency to form vortices, than any other water in North Atlantic that reflects its high homogeneity. It has a potential density of 27.76–27.78 mg/cm³ relatively to the surface layers, meaning it is denser, and thus sinks under the surface and remains homogeneous and unaffected by the surface fluctuations.^[18]

Fauna

The northern and western parts of the Labrador Sea are covered in ice between December and June. This drift ice serves as a breeding ground for several types of pinnipeds (including Atlantic walrus and bearded, grey, harbor, harp, hooded and ringed seals). Several cetacean species feed in these abundant waters in early spring, including blue, fin, humpback, long-finned pilot, minke, North Atlantic right, sei and sperm whales.^[19] The sea contains one of the two primary populations of sei whales, the other being the Scotian Shelf.^[20] Pods of beluga (white) whales are more common further to the north, west and south (notably in Baffin Bay, where their population reaches around 20,000 animals), and further afield in Hudson Bay and the Gulf of Saint Lawrence. While somewhat rarer in the Labrador Sea—especially since the 1950s—^[21] some sightings still take place.^[22] Additionally, pods of orca are drawn to the sea by the large shoals of fish, as well as the many marine mammal species they may hunt (including other cetaceans and pinnipeds), such as harbour porpoise and Atlantic white-sided, common, striped and white-beaked dolphins.

The sea is also a feeding-ground for Atlantic salmon. Shrimp fisheries began in 1978, intensifying by 2000, in addition to cod fishing. However, by the 1990s, the cod fishing had already depleted the fishes' population near the Labrador and West Greenland banks, and was therefore halted in 1992. Other fishery targets include haddock, Atlantic herring, lobster, several species of flatfish, and pelagic fish, such as sand lance and capelin. They are most abundant in the southern parts of the sea.^[23]

The Labrador duck was a common bird on the Canadian coast until the 19th century, but is now extinct.^[24] Other coastal animals include the Labrador wolf (Canis lupus labradorius),^{[25] [26]} woodland caribou (Rangifer tarandus caribou), moose (Alces alces), black bear (Ursus americanus), Canada lynx (Lynx canadensis), red fox (Vulpes vulpes), Arctic fox (Alopex lagopus), wolverine (G. gulo), American mink (Neogale vison), North American river otter (Lontra canadensis), snowshoe hare (Lepus americanus), grouse (Dendragapus spp.), osprey (Pandion haliaetus), raven (Corvus corax), ducks, geese, swans, partridge and pheasant.^[27] Occasionally, coastal polar bear (Ursus maritimus) sightings occur along the sea, mainly further north but sometimes as far south as Conception Bay and the mouth of the Gulf of Saint Lawrence.^[28]

Flora

Coastal vegetation includes black spruce (Picea mariana), tamarack, white spruce (P. glauca), dwarf birch (Betula spp.), aspen, willow (Salix spp.), ericaceous shrubs (Ericaceae), cottongrass (Eriophorum spp.), sedge (Carex spp.), lichens and moss. Evergreen bushes of Labrador tea, which is used to make herbal teas, are common in the area, both on the Greenland and Canadian coasts.^[29]

Notes and References

1. Web site: Labrador. ru. Great Soviet Encyclopedia.
2. Wilson, R. C. L. London, Geological Society of. 10.1144/GSL.SP.2001.187.01.05. Non-volcanic rifting of continental margins: a comparison of evidence from land and sea. 978-1-86239-091-1. 2001. 77. 187. Geological Society, London, Special Publications. 1 . 2001GSLSP.187...77C. 140632779.
3. Web site: Labrador Sea. Encyclopædia Britannica. Encyclopædia Britannica. 2008-02-03.
4. Book: Calow, Peter. Blackwell's concise encyclopedia of environmental management. 29 November 2010. 12 July 1999. Wiley-Blackwell. 978-0-632-04951-6. 7.
5. Spall, Michael A. . Boundary Currents and Watermass Transformation in Marginal Seas . 10.1175/1520-0485(2004)034<1197:BCAWTI>2.0.CO;2 . J. Phys. Oceanogr. . 34 . 1197–1213. 2004. 5. 2004JPO....34.1197S . 128436726 .
6. Grønlands forhistorie, ed. Hans Christian Gulløv, Gyldendal 2005,
7. Web site: Limits of Oceans and Seas, 3rd edition. 1953. International Hydrographic Organization. 28 December 2020. https://web.archive.org/web/20111008191433/http://www.iho.int/iho_pubs/standard/S-23/S-23_Ed3_1953_EN.pdf. 8 October 2011.
8. Web site: Noms de lieux - Recherche par nom de toponyme .
9. Ice-sheet sourced juxtaposed turbidite systems in Labrador Sea . Geoscience Canada. 24. 1. 3. Heisee, R and Klaucke I. 3 March 1997 .
10. Reinhard Hesse And Allan Rakofsky . Deep-Sea Channel/Submarine-Yazoo System of the Labrador Sea: A New Deep-Water Facies Model (1). AAPG Bulletin. 76. 1992. 10.1306/BDFF88A8-1718-11D7-8645000102C1865D.
11. Book: Glaciated continental margins: an atlas of acoustic images. 286. Thomas A. Davies. Hesse, R., Klauck, I., Khodabakhsh, S. & Ryan, W. B. F. . 1997. Glacimarine drainage systems in the deep-sea: the NAMOC system of the Labrador Sea and its sibling. Springer. 0-412-79340-7.
12. Book: Einsele, Gerhard. Sedimentary basins: evolution, facies, and sediment budget. 234. Springer. 2000. 3-540-66193-X.
13. Encyclopedia: Labrador Sea. Kenneth F. Drinkwater, R. Allyn Clarke. The Canadian Encyclopedia. 2008-02-03. 2018-08-02. https://web.archive.org/web/20180802162457/https://www.thecanadianencyclopedia.com/en/article/labrador-sea/. live.
14. Petrie, B. . A. Isenor . 1985 . The near-surface circulation and exchange in the Newfoundland Grand Banks region . Atmosphere-Ocean . 23 . 3 . 209–227 . 10.1080/07055900.1985.9649225 . free .
15. Web site: Baffin Current. Encyclopædia Britannica. Encyclopædia Britannica. 2010-02-03.
16. Web site: Labrador Current. Encyclopædia Britannica. Encyclopædia Britannica. 2010-02-03.
17. Book: Earth systems: processes and issues. 179. Wallace Gary Ernst. Cambridge University Press. 2000. 0-521-47895-2.
18. Talley. L.D.. McCartney. M.S.. [ftp://gyre.ucsd.edu/nonpub/talley/papers/1980s/talley_mccartney_jpo_1982.pdf Distribution and Circulation of Labrador Sea Water]. 10.1175/1520-0485(1982)012<1189:DACOLS>2.0.CO;2. 1520-0485. 1982. 1189. 12. Journal of Physical Oceanography. 11. 1982JPO....12.1189T.
19. Web site: 25 October 2024 . Observations • iNaturalist .
20. Book: Anthony Bertram Dickinson . Twentieth-century shore-station whaling in Newfoundland and Labrador . Chesley W. Sanger . McGill-Queen's Press – MQUP . 2005 . 0-7735-2881-4 . 16–17.
21. http://dsp-psd.pwgsc.gc.ca/Collection/CW69-14-170-2004E.pdf COSEWIC Assessment and Update Status Report on the Beluga Whale
22. Web site: 24 October 2024 . Observations • iNaturalist .
23. Book: 6–7. Maritime services to support polar resource development. National Research Council (U.S.). 1981.
24. Ducher, William . 1894. The Labrador Duck – another specimen, with additional data respecting extant specimens. Auk. 11. 1. 4–12. 10.2307/4067622. 4067622.
25. 10.2307/1374306. The Wolves of North America. 1374306. E. A. Goldman. Journal of Mammalogy. 18. 1 . 1937. 37–45.
26. Characteristics of the Wolf (Canis lupus lubrudorius Goldman) in Northern Quebec and Labrador. Arctic. 39. 2. 1986. 145–149. G.R. Parker. S. Luttich. 10.14430/arctic2062. 2010-09-02. 2020-07-01. https://web.archive.org/web/20200701110614/http://pubs.aina.ucalgary.ca/arctic/Arctic39-2-145.pdf. dead.
27. Book: 9–11. The Moravians in Labrador. 2006. 1-4068-0512-2. Anonymous. Echo Library .
28. Web site: 24 October 2024 . Observations • iNaturalist .
29. http://www.fs.fed.us/global/iitf/pdf/shrubs/Ledum%20groenlandicum.pdf Ledum groenlandicum Oeder – Labrador Tea