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Black Sea

Coordinates: 44°N 35°E / 44°N 35°E / 44; 35
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Black Sea
Coordinates44°N 35°E / 44°N 35°E / 44; 35
Max. length1,175 km (730 mi)
Surface area436,400 km2 (168,500 sq mi)
Max. depth2,206 m (7,238 ft)
Water volume547,000 km3 (131,000 cu mi)

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Illustration of the Black Sea, from NASA’s World Wind globe software

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The Black Sea is an inland sea bounded by Europe, Anatolia and the Caucasus and is ultimately connected to the Atlantic Ocean via the Mediterranean and Aegean Seas and various straits. The Bosporus strait connects it to the Sea of Marmara, and the strait of the Dardanelles connects it to the Aegean Sea region of the Mediterranean. These waters separate eastern Europe and western Asia. The Black Sea also connects to the Sea of Azov by the Strait of Kerch.

The Black Sea has an area of Template:Km2 to mi2,[1] a maximum depth of Template:M to ft,[2] and a volume of 547,000 km³ (133,500 cu mi).[3] The Black Sea forms in an east-west trending elliptical depression which lies between Bulgaria, Georgia, Romania, Russia, Turkey, and Ukraine.[4] It is constrained by the Pontic Mountains to the south, the Caucasus Mountains to the east and features a wide shelf to the north-west. The longest east-west extent is about 1,175 km.

Important cities along the coast include (alphabetical order) : Batumi (121,806), Burgas (229,250),Constanţa (306,000 with a metropolitan area of 550,000), Giresun (90,034),Istanbul (11,372,613), Kerch (158,165), Kherson (358,000), Mangalia (41,153),Năvodari (34,669), Novorossiysk (281,400), Odessa (1,001,000), Ordu (190,143), Poti (47,149), Rize (91,901), Samsun (439,000), Sevastopol (379,200), Sochi (328,809), Sukhumi (43,700), Trabzon (275,137), Varna (357,752), Yalta (80,552), and Zonguldak (104,276) .

Swallow's Nest

The Black Sea has a positive water balance, which results in a net outflow of water 300 km³ per year through the Bosphorus into the Aegean Sea (part of the Mediterranean Sea). Mediterranean water flows into the Black Sea as part of a 2-way hydrological exchange. The Black Sea outflow is less saline and cool, and therefore floats over the warm, more saline Mediterranean inflow. The Black Sea also receives river water from large Eurasian fluvial systems to the north of the Sea, of which the Don, Dnieper and Danube are the most significant.

In the past, the water level has varied significantly. Depending on the water level in the basin, varying surrounding shelf and associated aprons are aerially exposed. At certain critical depths, it is possible for connections with surrounding water bodies to become established. It is through the most active of these connective routes, the Turkish Straits, that the Black Sea joins the global ocean system. When this hydrological link is not present, the Black Sea is a lake, operating independently of the global ocean system. Currently the Black Sea water level is relatively high, thus water is being exchanged with the Mediterranean. The Turkish Straits connect the Black and Aegean Seas and comprise the Bosphorus, the Sea of Marmara and the Dardanelles.

Name

Modern names

Current names of the Sea are equivalents of the English name, "Black Sea", including Adyghe: (Хы ШIуцI), Greek Mavri Thalassa (Μαύρη Θάλασσα), Bulgarian Cherno more (Черно море), Georgian Shavi zghva (შავი ზღვა), Laz Ucha Zuğa, or simply Zuğa 'Sea', Romanian Marea Neagră, Russian Chornoye more (Чёрное море), Turkish Karadeniz, Ukrainian Chorne more (Чорне море), Ubykh [ʃʷad͡ʒa]. Such names have not yet been shown conclusively to predate the twelfth century, but there are indications that they may be considerably older.

Sunset on the Black Sea at Laspi
The estuary of the Veleka in the Black Sea. Longshore drift has deposited sediment along the shoreline which has led to the formation of a spit, Sinemorets, Bulgaria

The reason for this color term may be an ancient assignment of colors to the cardinal directions—black referring to the north, red referring to the south, and yellow to the east. Herodotus on one occasion uses Red Sea and Southern Sea interchangeably.[5] A somewhat similar view shows the Turkish name: 'Kara (Black)' and 'Ak (White)' are respectively used to denote 'North' and 'South' in Medieval Turkish, as in Akhun Empire, Akkoyunlu and Karakoyunlu Empires, and Akdeniz (lit., 'White Sea', referring to the Mediterranean which lies south of Anatolia[citation needed]). Another possible explanation comes from the colour of the Black Sea's deep waters. Being further north than the Mediterranean Sea and much less saline, the microalgae concentration is much richer, causing the dark colour. Visibility in the Black Sea is on average approximately five metres (5.5 yd), as compared to up to thirty-five metres (38 yd) in the Mediterranean.[citation needed]

The Black Sea is one of four seas named in English after common color terms — the others being the the Red Sea, the White Sea and the Yellow Sea.

Historical names

Strabo's Geography (1.2.10) reports that in antiquity, the Black Sea was often just called "the Sea" (ho pontos). For the most part, Graeco-Roman tradition refers to the Black Sea as the 'Hospitable sea', Euxeinos Pontos (Εὔξεινος Πόντος). This is a euphemism replacing an earlier 'Inhospitable Sea', Pontos Axeinos, first attested in Pindar (early fifth century BCE,~475 BC). Strabo (7.3.6) thinks that the Black Sea was called "inhospitable" before Greek colonization because it was difficult to navigate, and because its shores were inhabited by savage tribes. The name was changed to "hospitable" after the Milesians had colonized southern shoreline, the Pontus, making it part of Greek civilization.

It is also possible that the name Axeinos arose by popular etymology from a Scythian Iranic axšaina- 'unlit,' 'dark'; the designation "Black Sea" may thus date from Antiquity.

One Bulgarian understanding of the name is that the sea used to be quite stormy. The Black Sea deluge theory is based on that idea.[citation needed]

In naval science, the Black Sea is thought to have received its name because of its hydrogen sulphide layer that begins about 200 metres below the surface, and supports a unique microbial population which produces black sediments probably due to anaerobic methane oxidation.[citation needed]

Geology and bathymetry

Bay of Sudak

The geological origins of the basin can be traced back to two distinct relict back-arc basins which were initiated by the splitting of an Albian volcanic arc and the subduction of both the Paleo-and Neo-Tethys Oceans, but the timings of these events remain controversial.[6][7] Since its initiation, compressional tectonic environments led to subsidence in the basin, interspersed with extensional phases resulting in large-scale volcanism and numerous orogenies, causing the uplift of the Greater Caucasus, Pontides, Southern Crimea and Balkanides mountain ranges. The ongoing collision between the Eurasian and African plates and westward escape of the Anatolian block along the North Anatolian Fault and East Anatolian Faults dictates the current tectonic regime,[8] which features enhanced subsidence in the Black Sea basin and significant volcanic activity in the Anatolian region.[9] It is these geological mechanisms which, in the long term, have caused the periodic isolations of the Black Sea from the rest of the global ocean system.

The modern basin is divided into 2 sub-basins by a convexity extending south from the Crimean Peninsula. The large shelf to the north of the basin is up to 190 km wide, and features a shallow apron with gradients between 1:40 and 1:1000. The southern edge around Turkey and the western edge around Georgia, however, are typified by a shelf that rarely exceeds 20 km in width and an apron that is typically 1:40 gradient with numerous submarine canyons and channel extensions. The Euxine abyssal plain in the centre of the Black Sea reaches a maximum depth of 2,212 m just south of Yalta on the Crimean Peninsula.[10]

The littoral zone of the Black Sea is often referred to as the Pontic littoral.

Hydrology and hydrochemistry

The Black Sea is the world’s largest meromictic basin where the deep waters do not mix with the upper layers of water that receive oxygen from the atmosphere. As a result, over 90% of the deeper Black Sea volume is anoxic water. The current hydrochemical configuration is primarily controlled by basin topography and fluvial inputs, which result in a strongly stratified vertical structure and a positive water balance. The upper layers are generally cooler, less dense and less salty than the deeper waters, as they are fed by large fluvial systems, whereas the deep waters originate from the warm, salty waters of the Mediterranean. This influx of dense water from Mediterranean is balanced by an outflow of fresher Black Sea surface-water into the Marmara Sea, maintaining the stratification and salinity levels.

The surface water has an average salinity of 18 to 18.5 parts per thousand (compared to 30 to 40 for the oceans) and contains oxygen and other nutrients required to sustain biotic activity. These waters circulate in a basin-wide cyclonic shelfbreak gyre known as the Rim Current which transports water round the perimeter of the Black Sea. Within this feature, two smaller cyclonic gyres operate, occupying the eastern and western sectors of the basin. Outside the Rim Current, numerous quasi-permanent coastal eddies are formed due to upwelling around the coastal apron and ‘wind curl’ mechanisms. The intra-annual strength of these features is controlled by seasonal atmospheric and fluvial variations. The temperature of the surface waters varies seasonally from 8 °C (46 °F) to 30 °C (86 °F).

Directly beneath the surface waters the Cold Intermediate Layer (CIL) is found. This layer is composed of cool, salty surface waters, which are the result of localised atmospheric cooling and decreased fluvial input during the winter months. The production of this water is focussed in the centre of the major gyres and on the NW shelf and as the water is not dense enough to penetrate the deep waters, isopycnal advection occurs, dispersing the water across the entire basin. The base of the CIL is marked by a major thermocline, halocline and pycnocline at ~100–200 m and this density disparity is the major mechanism for isolation of the deep water.

Below the pycnocline, salinity increases to 22 to 22.5 ppt and temperatures rise to around 8.5 °C (47.3 °F). The hydrochemical environment shifts from oxygenated to anoxic, as bacterial decomposition of sunken biomass utilises all of the free oxygen. Certain species of extremophile bacteria are capable of using sulfate (SO42−) in the oxidation of organic material, which leads to the creation of hydrogen sulfide (H2S). This enables the precipitation of sulfides such as the iron sulphides pyrite, greigite and iron monosulphide, as well as the dissolution of carbonate matter such as calcium carbonate (CaCO3), found in shells. Organic matter, including anthropogenic artifacts such as boat hulls, are well preserved. During periods of high surface productivity, short-lived algal blooms form organic rich layers known as sapropels. Scientists have reported an annual phytoplankton bloom that can be seen in many NASA images of the region.[11]

Modelling shows the release of the hydrogen sulphide clouds in the event of an asteroid impact into the Black Sea would pose a threat to health—or even life—for people living on the Black Sea coast.[12] The black sea also contains important heavy water deposits inside the lower, anoxic layer.[citation needed]

Ecology

The Black Sea supports a complex ecology in its upper waters, characterised by quasi-endemic species which thrive in the fresher surface waters, as well as cosmopolitan stenohaline and euryhaline species. The fluvial systems draining Eurasia and central Europe introduce large volumes of nutrients in the Black Sea, but distribution of these nutrients is controlled by the degree of physiochemical stratification, which is in turn dictated by seasonal physiographic development.[13] Phytoplankton blooms occur in surface waters throughout the year, most reliably in the form of a Diatom bloom during March.[14] However, subsurface productivity is limited by nutrient availability, as the anoxic bottom waters act as a sink for reduced nitrate, in the form of ammonia. Some chemosynthetic productivity occurs in the hypolimnion, estimated at ~10% of photosynthetic productivity.[15]

The Black Sea underwent a catastrophic ecological collapse in the early 1990s caused by eutrophication; a chronic nutrient pollution from farms, feed lots, and municipal sewers throughout its vast watershed. Massive algal blooms resulted in hypoxic conditions across the ecologically critical northwest shelf, wiping out much of the flora and fauna there. Perhaps because of the attendant ecological disruptions, an alien species—the warty comb jelly (Mnemiopsis leidyi)—was able to establish itself in the basin, exploding from a few individuals to an estimated biomass of one billion metric tons.[16]

Recently, scientists have noted signs of ecological recovery, in part due to the collapse of agriculture (and subsidized fertilizer usage) in much of the lower Danube basin and the construction of new sewage treatment plants in Slovakia, Hungary, Romania, and Bulgaria in connection with membership in the European Union. Mnemiopsis leidyi populations have been checked with the arrival of another alien species which feeds on them.[17]

Climate

Short-term climatic variation in the Black Sea region is significantly influenced by the operation of the North Atlantic Oscillation, which is a term used to describe the climatic mechanisms resulting from the interaction between the north Atlantic and mid-latitude air masses.[18] While the exact mechanisms causing the North Atlantic Oscillation remain unclear,[19] it is thought the climate conditions established in western Europe mediate the heat and precipitation fluxes reaching Central Europe and Eurasia, regulating the formation of winter cyclones, which are largely responsible for regional precipitation inputs[20] and influence Mediterranean Sea Surface Temperatures (SST's).[21] The relative strength of these systems also limits the amount of cold air arriving from northern regions during winter.[22] Other influencing factors include the regional topography, as depressions and storms systems arriving from the Mediterranean are funneled through the low land around the Bosphorus, Pontic and Caucasus mountain ranges acting as wave guides, limiting the speed and paths of cyclones passing through the region[23]

Mediterranean connection during the Holocene

The Bosporus, taken from the International Space Station
Map of the Dardanelles

The Black Sea is connected to the World Ocean by a chain of two shallow straits, the Dardanelles and the Bosporus. The Dardannelles are 55 m deep and the Bosporus is as shallow as 36 m. By comparison, at the height of the last Ice age, sea levels were more than 100 m lower than they are now. There's also evidence that water levels in the Black Sea, too, were considerably lower at some point during the post-glacial period. Thus, for example, archeologists found fresh-water snail shells and man-made structures in roughly 328 feet (100 m) of water off the Black Sea coast of modern Turkey. Therefore it is agreed that the Black Sea has been a landlocked freshwater lake (at least in upper layers) during the last glaciation and for some time after.

In the aftermath of the Ice Age, water levels in the Black Sea and the Aegean Sea rose independently until they were high enough to exchange water. The exact timeline of this development is still subject to debate. One possibility is that the Black Sea filled first, with excess fresh water flowing over the Bosporus sill and eventually into the Mediterranean Sea. There are also catastrophic scenarios, such as the "deluge theory" put forward by William Ryan and Walter Pitman.

Deluge hypothesis

In 1997, William Ryan and Walter Pitman from Columbia University published a hypothesis according to which a massive flood through the Bosporus occurred in ancient times. They claim that the Black and Caspian Seas were vast freshwater lakes, but then about 5600 BC, the Mediterranean spilled over a rocky sill at the Bosporus, creating the current communication between the Black and Mediterranean Seas. Subsequent work has been done both to support and to discredit this hypothesis, and archaeologists still debate it. This has led some to associate this catastrophe with prehistoric flood myths. William Ryan and Walter Pitman have a book on their theory. Noah's Flood: The New Scientific Discoveries About the Event That Changed History Published by Simon & Schuster Paperbacks New York, NY. Copyright 1998.

History

Medieval map of the Black Sea
Ivan Aivazovsky. Black Sea Fleet in the Bay of Theodosia, just before the Crimean War

The Black Sea was a busy waterway on the crossroads of the ancient world: the Balkans to the West, the Eurasian steppes to the north, Caucasus and Central Asia to the East, Asia Minor and Mesopotamia to the south, and Greece to the south-west. The oldest processed gold in the world, arguably left by Old Europeans, was found in Varna, and the Black Sea was supposedly sailed by the Argonauts. The land at the eastern end of the Black Sea, Colchis, (now Georgia), marked for the Greeks an edge of the known world. The steppes to the north of the Black Sea have been suggested as the original homeland (Urheimat) of the speakers of the Proto-Indo-European language, (PIE) the progenitor of the Indo-European language family, by some scholars (see Kurgan; others move the heartland further east towards the Caspian Sea, yet others to Anatolia). Numerous ancient ports line Black Sea's coasts, some older than the pyramids[24].

Ancient trade routes in the region are currently being extensively studied by American, Bulgarian, and other scientists. It is widely believed that the Black Sea is packed with archaeology to be found. Perhaps the most promising areas in deepwater archaeology are the quest for submerged prehistoric settlements in the continental shelf and for ancient shipwrecks in the anoxic zone, which are expected to be exceptionally well preserved due to the absence of oxygen.

The Black Sea has witnessed the rivalries of Hittites, Carians, Thracians, Greeks, Persians, Cimmerians, Scythians, Romans, Byzantines, Goths, Huns, Avars, Bulgars, Slavs, Varangians, Crusaders, Venetians, Genovese, Tatars, Ottomans, and Russians.

The Black Sea was a significant naval theatre of World War I and saw both naval and land battles during World War II.

Holiday resorts and spas

Photo of the Black Sea near Gagra, Georgia taken in 1915
Cities of the Black Sea

In the years following the end of the Cold War, the popularity of the Black Sea as a tourist destination has been steadily increasing. Overall, tourism at Black Sea resorts has become one of the region's growth industries.[25] The following is a list of well-known Black Sea resorts:

Column-generating template families

The templates listed here are not interchangeable. For example, using {{col-float}} with {{col-end}} instead of {{col-float-end}} would leave a <div>...</div> open, potentially harming any subsequent formatting.

Column templates
Type Family
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"columns-start" Yes Yes {{columns-start}} {{column}} {{columns-end}}
Columns "div col" Yes Yes {{div col}} {{div col end}}
"columns-list" No Yes {{columns-list}} (wraps div col)
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Can template handle the basic wiki markup {| | || |- |} used to create tables? If not, special templates that produce these elements (such as {{(!}}, {{!}}, {{!!}}, {{!-}}, {{!)}})—or HTML tags (<table>...</table>, <tr>...</tr>, etc.)—need to be used instead. 1 Abkhazia has been a de facto independent republic since 1992, although remains a de jure autonomous republic of Georgia.

Regional organizations

Black Sea Economic Cooperation (BSEC)
  members
  observers
GUAM Organization for Democracy and Economic Development
Community of Democratic Choice (CDC)
  members
  observers
Black Sea Forum for Partnership and Dialogue (BSF)
  members
  observers

See also the Balkans Regional organizations and Post-Soviet Regional organizations

See also

References

  1. ^ Surface Area—"Black Sea Geography". University of Delaware College of Marine Studies. 2003. Retrieved 2006-12-02.
  2. ^ Maximum Depth—"Europa - Gateway of the European Union Website". Environment and Enlargement - The Black Sea: Facts and Figures.
  3. ^ "Unexpected changes in the oxic/anoxic interface in the Black Sea". Nature Publishing Group. 1989-03-30. Retrieved 2006-12-02.
  4. ^ Socio-economic indicators for the countries of the Black Sea basin. (2001). In UNEP/GRID-Arendal Maps and Graphics Library. Retrieved 2 December 2006 from http://maps.grida.no/go/graphic/sosio_economic_indicators_for_the_countries_of_the_black_sea_basin_giwa.
  5. ^ Schmitt 1996
  6. ^ McKenzie, D. P. (1970). "Plate Tectonics of the Mediterranean Region." Nature 226(5242): 239–243.
  7. ^ McClusky, S., S. Balassanian, et al. (2000). "Global Positioning System constraints on plate kinematics and dynamics in the eastern Mediterranean and Caucasus." Journal of Geophysical Research-Solid Earth 105(B3): 5695–5719.
  8. ^ Shillington, D. J., N. White, et al. (2008). "Cenozoic evolution of the eastern Black Sea: A test of depth-dependent stretching models." Earth and Planetary Science Letters 265(3–4): 360–378.
  9. ^ Nikishin, A. M., M. V. Korotaev, et al. (2003). "The Black Sea basin: tectonic history and NeogeneQuaternary rapid subsidence modelling." Sedimentary Geology 156(1–4): 149–168.
  10. ^ "Remote Sensing of the European Seas" (2008) ISBN 1402067712, p. 17
  11. ^ Black Sea Becomes Turquoise earthobservatory.nasa.gov. Retrieved 2 December 2006.
  12. ^ R.D. Schuiling, R.B. Cathcart, V. Badescu, D. Isvoranu and E. Pelinovsky, "Asteroid impact in the Black Sea. Death by drowning or asphyxiation?", Natural Hazards (October 2006) DOI: 10.1007/s11069-006-0017-7
  13. ^ Oguz, T., H. W. Ducklow, et al. (1999). "A physical-biochemical model of plankton productivity and nitrogen cycling in the Black Sea." Deep Sea Research Part I: Oceanographic Research Papers 46(4): 597–636.
  14. ^ Sorokin, Y. I. (1983). The Black Sea. Estuaries and Enclosed Seas. Ecosystem of the World. B. H. Ketchum. New York, Elsevier: 253–292.
  15. ^ Deuser, W. G. (1971). "ORGANIC-CARBON BUDGET OF BLACK SEA." Deep-Sea Research 18(10): p995
  16. ^ Woodard, Colin, Ocean's End: Travels Through Endangered Seas, New York: Basic Books, 2000, pp. 1–28
  17. ^ Woodard, Colin, "The Black Sea's Cautionary Tale," Congressional Quarterly Global Researcher, October 2007, pp. 244–245
  18. ^ Hurrell, J. W. (1995). "Decadal trends in the North-Atlantic oscillation – Regional temperatures and precipitation" Science 269(5224): 676–679.
  19. ^ Lamy, F. H. W. A. G. C. B. A. B. and J. Pätzold (2006). "Multicentennial-scale hydrological changes in the Black Sea and northern Red Sea during the Holocene and the Arctic/North Atlantic Oscillation." Paleoceanography 21: PA1008.
  20. ^ Turkes, M. (1996). "Spatial and temporal analysis of annual rainfall variations in Turkey." International Journal of Climatology 16(9): 1057–1076.
  21. ^ Cullen, H. M., A. Kaplan, et al. (2002). "Impact of the North Atlantic Oscillation on Middle Eastern climate and streamflow." Climatic Change 55(3): 315–338.
  22. ^ Ozsoy, E. and U. Unluata (1997). "Oceanography of the Black Sea: a review of some recent results." Earth-Science Reviews 42: 231–272.
  23. ^ Brody, L. R., Nestor, M.J.R. (1980). Regional Forecasting Aids for the Mediterranean Basin. Handbook for Forecasters in the Mediterranean, Naval Research Laboratory. 2.
  24. ^ The Black Sea
  25. ^ "Bulgarian Sea Resorts". Retrieved 2007-02-02.

Bibliography

  • Stella Ghervas, "Odessa et les confins de l'Europe: un éclairage historique", in Stella Ghervas et François Rosset (ed), Lieux d'Europe. Mythes et limites, Paris, Editions de la Maison des sciences de l'homme, 2008. ISBN 978-2-7351-1182-4
  • Charles King, The Black Sea: A History, 2004, ISBN 0-19-924161-9
  • William Ryan and Walter Pitman, Noah's Flood, 1999, ISBN 0-684-85920-3
  • Neal Ascherson, Black Sea (Vintage 1996), ISBN 0-09-959371-8
  • Özhan Öztürk. Karadeniz: Ansiklopedik Sözlük (Black Sea: Encyclopedic Dictionary). 2 Cilt (2 Volumes). Heyamola Publishing. Istanbul.2005 ISBN 975-6121-00-9.
  • Rüdiger Schmitt, "Considerations on the Name of the Black Sea", in: Hellas und der griechische Osten (Saarbrücken 1996), pp. 219–224
  • West, Stephanie. "‘The Most Marvellous of All Seas’: the Greek Encounter with the Euxine", Greece & Rome, Vol. 50, Issue 2 (2003), pp. 151–167.

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