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The Bering Sea is separated from the Gulf of Alaska by the Alaska Peninsula. It covers over 2,000,000 square kilometres (770,000 sq mi) bordered on the east and northeast by Alaska, on the west by Russia's Far East and Kamchatka Peninsula, on the south by the Alaska Peninsula and the Aleutian Islands and on the far north by the Bering Strait, which connects the Bering Sea to the Arctic Ocean's Chukchi Sea. Bristol Bay is the portion of the Bering Sea which separates the Alaska Peninsula from mainland Alaska. The Bering Sea is named for Vitus Bering, a Danish navigator in Russian service, who in 1728 was the first European to systematically explore it, sailing from the Pacific Ocean northward to the Arctic Ocean.
The Bering Sea ecosystem includes resources within the jurisdiction of the United States and Russia, as well as international waters in the middle of the sea (known as the "Donut Hole"). The interaction between currents, sea ice, and weather makes for a vigorous and productive ecosystem.
Most scientists believe that during the most recent ice age, sea level was low enough to allow humans and other animals to migrate on foot from Asia to North America across what is now the Bering Strait. This is commonly referred to as the "Bering land bridge" and is believed by some—though not all— to be the first point of entry of humans into the Americas.
Islands of the Bering Sea include:
- Pribilof Islands, including St. Paul Island
- Komandorski Islands, including Bering Island
- St. Lawrence Island
- Diomede Islands
- King Island
- St. Matthew Island
- Karaginsky Island
- Nunivak Island
- Sledge Island
- Hagemeister Island
Regions of the Bering Sea include:
The Bering Sea shelf break is the dominant driver of primary productivity in the Bering Sea. This zone, where the shallower continental shelf drops off into the North Aleutians Basin is also known as the “Greenbelt”. Nutrient upwelling from the cold waters of the Aleutian basin flowing up the slope and mixing with shallower waters of the shelf provide for constant production of phytoplankton.
The second driver of productivity in the Bering Sea is seasonal sea ice that, in part, triggers the spring phytoplankton bloom. Seasonal melting of sea ice causes an influx of lower salinity water into the middle and other shelf areas, causing stratification and hydrographic effects which influence productivity. In addition to the hydrographic and productivity influence of melting sea ice, the ice itself also provides an attachment substrate for the growth of algae as well as interstitial ice algae.
Some evidence suggests that great changes to the Bering Sea ecosystem have already occurred. Warm water conditions in the summer of 1997 resulted in a massive bloom of low energy coccolithophorid phytoplankton (Stockwell et al. 2001). A long record of carbon isotopes, which is reflective of primary production trends of the Bering Sea, exists from historical samples of bowhead whale baleen. Trends in carbon isotope ratios in whale baleen samples suggest that a 30–40% decline in average seasonal primary productivity has occurred over the last 50 years. The implication is that the carrying capacity of the Bering Sea is much lower now than it has been in the past.
The sea supports many endangered whale species including bowhead whale, blue whale, fin whale, sei whale, humpback whale, sperm whale and the rarest in the world, the North Pacific right whale. Other marine mammals include walrus, Steller sea lion, northern fur seal, beluga, orca and polar bear.
The Bering Sea is very important to the seabirds of the world. Over 30 species of seabirds and approximately 20 million individuals breed in the Bering Sea region. Seabird species include tufted puffins, the endangered short-tailed albatross, spectacled eider, and red-legged kittiwakes. Many of these species are unique to the area, which provides highly productive foraging habitat, particularly along the shelf edge and in other nutrient-rich upwelling regions, such as the Pribilof, Zhemchug, and Pervenets canyons. The Bering Sea is also home to colonies of crested auklets, with upwards of a million individuals.
Two Bering Sea species, the Steller's sea cow (Hydrodamalis gigas) and spectacled cormorant (Phalacrocorax perspicillatus), are extinct because of overexploitation by man. In addition, a small subspecies of Canada goose, the Bering Canada goose (Branta canadensis asiatica) is extinct due to overhunting and introduction of rats to their breeding islands.
The Bering Sea supports many species of fish. Some species of fish support large and valuable commercial fisheries. Commercial fish species include 6 species of Pacific salmon, Alaska pollock, red king crab, Chionoecetes, Pacific cod, Pacific halibut, yellowfin sole, Pacific ocean perch and sablefish.
Fish biodiversity is high, and at least 419 species of fish have been reported from the Bering Sea.
The Bering Sea is world renowned for its enormously productive and profitable fisheries, such as king crab, opilio and tanner crabs, Bristol Bay salmon, pollock and other groundfish. These fisheries rely on the productivity of the Bering Sea via a complicated and little understood food web. The continued existence of these fisheries requires an intact, healthy, and productive ecosystem.
Commercial fishing is big business in the Bering Sea, which is relied upon by the largest seafood companies in the world to produce fish and shellfish. On the U.S. side, commercial fisheries catch approximately $1 billion worth of seafood annually, while Russian Bering Sea fisheries are worth approximately $600 million annually.
The Bering Sea also serves as the central location of the Alaskan king crab and opilio crab seasons, which are chronicled on the Discovery Channel television program Deadliest Catch. Landings from Alaskan waters represents half the U.S. catch of fish and shellfish.
Because of the changes going on in the Arctic, future evolution of the Bering Sea climate/ecosystem is uncertain. Between 1979 and 2012 the region experienced small growth in sea ice extent, standing in stark contrast to the substantial loss of summer sea ice in the Arctic Ocean to the north
- Fasham, M. J. R. (2003). Ocean biogeochemistry: the role of the ocean carbon cycle in global change. Springer. p. 79. ISBN 978-3-540-42398-0.
- McColl, R.W. (2005). Encyclopedia of World Geography. Infobase Publishing. p. 697. ISBN 978-0-8160-5786-3. Retrieved 26 November 2010.
- "North Pacific Overfishing (DONUT)". Trade Environment Database. American University. Retrieved 13 August 2011.
- "Limits of Oceans and Seas, 3rd edition" (PDF). International Hydrographic Organization. 1953. Retrieved 7 February 2010.
- Springer, A. M.; McRoy, C. P.; Flint, M. V. (1996). "The Bering Sea Green Belt: Shelf-edge processes and ecosystem production". Fisheries Oceanography 5 (3–4): 205. doi:10.1111/j.1365-2419.1996.tb00118.x.
- Schumacher, J. D.; Kinder, T. H.; Pashinski, D. J.; Charnell, R. L. (1979). "A Structural Front over the Continental Shelf of the Eastern Bering Sea". Journal of Physical Oceanography 9: 79. Bibcode:1979JPO.....9...79S. doi:10.1175/1520-0485(1979)009<0079:ASFOTC>2.0.CO;2.
- Schell, D. M. (2000). "Declining carrying capacity in the Bering Sea: Isotopic evidence from whale baleen". Limnology and Oceanography 45 (2): 459. doi:10.4319/lo.2000.45.2.0459.
- Red King Crab, Paralithodes camtschaticus Alaska Fisheries Science Center. Retrieved 2007-04-07.
- Bering Climate. noaa.gov
- Providing information on the present state of Arctic ecosystems and climate in historical context. arctic.noaa.gov
- Alex DeMarban (19 February 2014). "In a warming world, Alaska's icy Bering Sea bucks the trend". Alaska Dispatch. Retrieved 26 September 2014.
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- Bering Sea Climate and Ecosystem from NOAA
- North Pacific Ocean theme page from NOAA
- Groundfish fisheries and harvest, 2005 from Alaska Department of Fish and Game
- Video of research on Bering Sea
- Nautical Chart of the Bering Sea (Southern Part)