Indian Ocean

Indian Ocean
an ocean S of Asia, E of Africa, and W of Australia. 28,357,000 sq. mi. (73,444,630 sq. km).

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Indian Ocean

Introduction Indian Ocean -
Background: The Indian Ocean is the third- largest of the world's five oceans (after the Pacific Ocean and Atlantic Ocean, but larger than the Southern Ocean and Arctic Ocean). Four critically important access waterways are the Suez Canal (Egypt), Bab el Mandeb (Djibouti- Yemen), Strait of Hormuz (Iran- Oman), and Strait of Malacca (Indonesia-Malaysia). Geography Indian Ocean
Location: body of water between Africa, the Southern Ocean, Asia, and Australia
Geographic coordinates: 20 00 S, 80 00 E
Map references: Political Map of the World
Area: total: 68.556 million sq km note: includes Andaman Sea, Arabian Sea, Bay of Bengal, Great Australian Bight, Gulf of Aden, Gulf of Oman, Mozambique Channel, Persian Gulf, Red Sea, Strait of Malacca, and other tributary water bodies
Area - comparative: about 5.5 times the size of the US
Coastline: 66,526 km
Climate: northeast monsoon (December to April), southwest monsoon (June to October); tropical cyclones occur during May/June and October/November in the northern Indian Ocean and January/February in the southern Indian Ocean
Terrain: surface dominated by counterclockwise gyre (broad, circular system of currents) in the southern Indian Ocean; unique reversal of surface currents in the northern Indian Ocean; low atmospheric pressure over southwest Asia from hot, rising, summer air results in the southwest monsoon and southwest-to-northeast winds and currents, while high pressure over northern Asia from cold, falling, winter air results in the northeast monsoon and northeast-to-southwest winds and currents; ocean floor is dominated by the Mid-Indian Ocean Ridge and subdivided by the Southeast Indian Ocean Ridge, Southwest Indian Ocean Ridge, and Ninetyeast Ridge
Elevation extremes: lowest point: Java Trench -7,258 m highest point: sea level 0 m
Natural resources: oil and gas fields, fish, shrimp, sand and gravel aggregates, placer deposits, polymetallic nodules
Natural hazards: occasional icebergs pose navigational hazard in southern reaches Environment - current issues: endangered marine species include the dugong, seals, turtles, and whales; oil pollution in the Arabian Sea, Persian Gulf, and Red Sea
Geography - note: major chokepoints include Bab el Mandeb, Strait of Hormuz, Strait of Malacca, southern access to the Suez Canal, and the Lombok Strait Economy Indian Ocean
Economy - overview: The Indian Ocean provides major sea routes connecting the Middle East, Africa, and East Asia with Europe and the Americas. It carries a particularly heavy traffic of petroleum and petroleum products from the oilfields of the Persian Gulf and Indonesia. Its fish are of great and growing importance to the bordering countries for domestic consumption and export. Fishing fleets from Russia, Japan, South Korea, and Taiwan also exploit the Indian Ocean, mainly for shrimp and tuna. Large reserves of hydrocarbons are being tapped in the offshore areas of Saudi Arabia, Iran, India, and western Australia. An estimated 40% of the world's offshore oil production comes from the Indian Ocean. Beach sands rich in heavy minerals and offshore placer deposits are actively exploited by bordering countries, particularly India, South Africa, Indonesia, Sri Lanka, and Thailand. Transportation Indian Ocean -
Ports and harbors: Chennai (Madras; India), Colombo (Sri Lanka), Durban (South Africa), Jakarta (Indonesia), Kolkata (Calcutta; India) Melbourne (Australia), Mumbai (Bombay; India), Richards Bay (South Africa) Transnational Issues Indian Ocean - Disputes - international: some maritime disputes (see littoral states)

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Body of salt water stretching between Africa in the west, Australia in the east, Asia in the north, and Antarctica in the south.

With an area of 28,360,000 sq mi (73,440,000 sq km), it covers approximately one-seventh of the Earth's surface, and it is the smallest of the world's three major oceans (see Atlantic Ocean; Pacific Ocean). Its greatest depth (24,442 ft [7,450 m]) is in the Java Trench. Its chief marginal seas include the Red Sea, Arabian Sea, Persian Gulf, Andaman Sea, Bay of Bengal, and the Great Australian Bight. Its major islands and island groups include Madagascar, Sri Lanka, and the Mascarenes.

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Introduction
  body of salt water, covering approximately one-fifth of the total ocean area of the world. It is the smallest, youngest, and physically most complex of the world's three major oceans. It stretches for more than 6,200 miles (10,000 km) between the southern tips of Africa and Australia and, without its marginal seas, has an area of about 28,360,000 square miles (73,440,000 square km). The Indian Ocean's average depth is 12,760 feet (3,890 metres), and its deepest point, in the Sunda Deep of the Java Trench off the southern coast of Java, is 24,442 feet (7,450 metres).

      The Indian Ocean is bounded by Iran, Pakistan, India, and Bangladesh to the north; the Malay Peninsula, the Sunda Islands of Indonesia, and Australia to the east; Antarctica to the south; and Africa and the Arabian Peninsula to the west. In the southwest it joins the Atlantic Ocean south of the southern tip of Africa, and to the east and southeast its waters mingle with those of the Pacific (Pacific Ocean).

      The question of defining the oceanic limits of the Indian Ocean is complicated and remains unsettled. The clearest border and the one most generally agreed upon is that with the Atlantic Ocean, which runs from Cape Agulhas (Agulhas, Cape), at the southern tip of Africa, due south along the 20° E meridian to the shores of Antarctica. The border with the Pacific Ocean to the southeast is usually drawn from South East Cape on the island of Tasmania south along the 147° E meridian to Antarctica. Bass Strait, between Tasmania and Australia, is considered by some to be part of the Indian Ocean and by others to be part of the Pacific. The northeastern border is the most difficult to define. The one most generally agreed upon runs northwest from Cape Londonderry in Australia across the Timor Sea, along the southern shores of the Lesser Sunda Islands and the island of Java, and then across the Sunda Strait to the shores of Sumatra. Between the island of Sumatra and the Malay Peninsula the boundary is usually drawn across the Singapore Strait.

      There is no universal agreement on the southern limit of the Indian Ocean. In general (and for the purposes of this article), it is defined as extending southward to the coast of Antarctica. However, many—notably in Australia—consider the portion closest to Antarctica (along with the corresponding southern extensions of the Atlantic and Pacific) to be part of the Southern (Southern Ocean) (or Antarctic) Ocean. Australians often call the entire expanse south of that continent's south coast the Southern Ocean.

      The Indian Ocean has the fewest marginal seas of the major oceans. To the north are the inland Red Sea and Persian Gulf. The Arabian Sea is to the northwest, and the Andaman Sea to the northeast. The large gulfs of Aden (Aden, Gulf of) and Oman (Oman, Gulf of) are to the northwest, the Bay of Bengal (Bengal, Bay of) is to the northeast, and the Great Australian Bight is off the southern coast of Australia.

      The Indian Ocean differs from the Atlantic and Pacific Oceans in several other respects. In the Northern Hemisphere it is landlocked and does not extend to Arctic waters or have a temperate-to-cold zone. It has fewer islands and narrower continental shelves. It is the only ocean with an asymmetric and, in the north, semiannually reversing surface circulation. It has no separate source of bottom water (i.e., the Indian Ocean's bottom water originates outside its boundaries) and has two sources of highly saline water (the Persian Gulf and the Red Sea). Below the surface layers, especially in the north, the ocean's water is extremely low in oxygen.

Physiography and geology

Origin
 The origin and evolution of the Indian Ocean is the most complicated of the three major oceans. Its formation is a consequence of the breakup, about 150 million years ago, of the southern supercontinent Gondwana (or Gondwanaland); by the movement to the northeast of the Indian subcontinent (beginning about 125 million years ago), which began colliding with Eurasia about 50 million years ago; and by the western movement of Africa and separation of Australia from Antarctica some 53 million years ago. By 36 million years ago, the Indian Ocean had taken on its present configuration. Although it first opened some 125 million years ago, almost all the Indian Ocean basin is less than 80 million years old.

Submarine features
Oceanic ridges (oceanic ridge) and fracture zones
      The oceanic ridges consist of a rugged, seismically active mountain chain that is part of the worldwide oceanic ridge system and still contains centres of seafloor spreading (seafloor spreading hypothesis) in several places. The ridges form an inverted Y on the ocean floor, starting in the upper northwest with the Carlsberg Ridge in the Arabian Sea, turning due south past the Chagos-Laccadive Plateau, and becoming the Mid-Indian (Mid-Indian Ridge) (or Central Indian) Ridge. Southeast of Madagascar the ridge branches: the Southwest Indian Ridge continues to the southwest until it merges into the Atlantic-Indian Ridge south of Africa, and the Southeast Indian Ridge trends to the east until it joins the Pacific-Antarctic Ridge south of Tasmania. Most striking is the aseismic (virtually earthquake-free) Ninetyeast Ridge, which is the longest and straightest in the world ocean. First discovered in 1962, it runs northward along the 90° E meridian (hence its name) for 2,800 miles (4,500 km) from the zonal Broken Ridge at latitudes 31° S to 9° N and can be traced farther under the sediments of the Bay of Bengal. Other important meridional aseismic ridges include the Chagos-Laccadive, Madagascar, and Mozambique plateaus, which are not part of the global oceanic ridge system (see ocean: Aseismic ridges (ocean)).

      The fracture zones of the Indian Ocean offset the axis of the oceanic ridges mostly in a north-south direction. Prominent are the Owen, Prince Edward, Vema, and Amsterdam fracture zones along the ridges, with the immense Diamantina Fracture Zone found to the southwest of Australia.

Seamounts (seamount)
      These are extinct submarine volcanoes that are conically shaped and often flat-topped. They rise abruptly from the abyssal plain to heights at least 3,300 feet (1,000 metres) above the ocean floor. In the Indian Ocean, seamounts are particularly abundant between Réunion and Seychelles in the Central Indian Basin and the Vening Meinesz group near Wharton Basin. Bardin, Kohler, Nikitin, and Williams seamounts are examples.

Ocean basins
      Ocean basins are characterized by smooth, flat plains of thick sediment with abyssal hills (i.e., less than 3,300 feet high) at the bottom flanks of the oceanic ridges. The Indian Ocean's complex ridge topography led to the formation of many basins that range in width from 200 to 5,600 miles (320 to 9,000 km). From roughly north to south they include the Arabian, Somali, Mascarene, Madagascar, Mozambique, Agulhas, and Crozet basins in the west and the Central Indian (the largest), Wharton, and South Australia basins in the east.

      The continental shelf extends to an average width of about 75 miles (120 km) in the Indian Ocean, with its widest points (190 miles [300 km]) off Mumbai (Bombay) and northwestern Australia. The island shelves are only about 1,000 feet (300 metres) wide. The shelf break is at a depth of about 460 feet (140 metres). Submarine canyons indent the steep slope below the break. The Ganges (Ganges River) (Ganga), Indus (Indus River), and Zambezi (Zambezi River) rivers have all carved particularly large canyons. Their sediment loads extend far beyond the shelf, form the rises at the foot of the slope, and contribute to the abyssal plains of their respective basins. The Ganges sediment cone is the world's widest and thickest.

Trenches (deep-sea trench)
      The Indian Ocean has the fewest trenches of any of the world's oceans. The narrow (50 miles [80 km]), volcanic, and seismically active Java Trench is the world's second longest, stretching more than 2,800 miles (4,500 km) from southwest of Java and continuing northward as the Sunda Trench past Sumatra, with an extension along the Andaman and Nicobar Islands. The portion of this system adjacent to Sumatra was the centre of a massive undersea earthquake in 2004 (magnitude 9.0) that affected some 600 miles (1,000 km) of the associated fault zone. A series of devastating tsunamis generated by the quake swamped coastal towns, particularly in Indonesia, and reached to the northern end of the Bay of Bengal and as far as the Indian Ocean's western shores.

Bottom deposits
      The immense load of suspended sediments (sedimentation) from the rivers emptying into the Indian Ocean is the highest of the three oceans, and nearly half of it comes from the Indian subcontinent alone. These terrigenous sediments occur mostly on the continental shelves, slopes, and rises, and they merge into abyssal plains. Cones of thicknesses of at least one mile are found in the Bay of Bengal, the Arabian Sea, and the Somali and Mozambique basins. Wharton Basin off northern Australia has the oldest sediments. In the Ganges-Brahmaputra cone, sediments exceed seven miles in thickness and extend to latitude 10° S. Little sediment has accumulated along the southern Sunda Islands, probably because the Java Trench acts as a sediment trap; instead, silicic volcanic ash is found there. Brown and red clay sediments dominate in the deep sea between 10° N and 40° S away from islands and continents and are 1,000 feet thick. In the equatorial zone, an area of high oceanic productivity, calcareous and siliceous oozes are abundant. South of and beneath the Antarctic Convergence (roughly 50° S), another highly productive area, are diatomaceous algal oozes. Sediments are absent over a width of about 45 miles (70 km) on the oceanic ridge crests, and the flanks are only sparsely covered. The ocean floor is composed of basalt in various stages of alteration. The principal authigenic (ocean-formed) mineral deposits are phosphorites at depths of 130 to 1,300 feet (40 to 400 metres), ferromanganese crusts at depths of 3,300 to 8,200 feet (1,000 to 2,500 metres), ferromanganese nodules at depths greater than 10,000 feet (3,000 metres), and hydrothermal metalliferous sediments at the crests of the Carlsberg and Central Indian ridges.

Surface features
Coasts
      Several well-defined coastal configurations are found in the Indian Ocean: estuaries, deltas, salt marshes, mangrove swamps, cliffs, coral reefs, and complexes of barrier islands, lagoons, beaches, and dunes. A particularly important estuarine system is the Hugli (Hooghly) complex, formed by three branches of the Hugli River on the Bay of Bengal near Kolkata (Calcutta) (Calcutta). Pakistan combines one of the most tectonically active coasts in the world with the 120-mile- (190- km- ) wide Indus River delta, the mud flats and salty wastes of which often are flooded. The Indian subcontinent has the most extensive beach area (more than half of its coastline). Mangroves (mangrove) are found in most estuaries and deltas. The Sundarbans, the lower part of the Ganges River delta, contain the largest mangrove forests in the world. Coral reefs—in either fringing, barrier, or atoll form—are abundant around all the islands in the tropics and also are found along the southern coasts of Bangladesh, Myanmar (Burma), and India and along the eastern coast of Africa.

Islands
 The Indian Ocean has few islands. Madagascar—the fourth largest island in the world—the Maldives, Seychelles, Socotra, and Sri Lanka are continental fragments. The other islands—including Christmas, Cocos, Farquhar, Prince Edward, Saint-Paul, and Amsterdam; the Amirante, Andaman and Nicobar, Chagos, Crozet, Kerguelen, and Sunda groups; and Comoros, Lakshadweep (Laccadive, Minicoy, and Amīndīvi islands), Mauritius, and Réunion—are of volcanic origin. The Andamans and Sundas are island arc–trench subduction systems, with the trench on the oceanic side of the arc.

Climate
      The Indian Ocean can be subdivided into four general latitudinal climatic zones based on atmospheric circulation.

monsoon zone
      The first zone, extending north from latitude 10° S, has a monsoon climate (characterized by semiannual reversing winds). In the Northern Hemisphere “summer” (May–October), low atmospheric pressure over Asia and high pressure over Australia result in the southwest monsoon, with wind speeds up to 28 miles (45 km) per hour and a wet season in South Asia. During the northern “winter” (November–April), high pressure over Asia and low pressure from 10° S to northern Australia bring the northeast monsoon winds and a wet season for southern Indonesia and northern Australia. Although the southwest monsoon recurs regularly, it is characterized by great annual variability in the date of its onset and its intensity, neither of which can be accurately predicted. Monsoon dynamics are linked with the El Niño current anomaly and with the Southern Oscillation atmospheric pattern of the South Pacific Ocean. The region is subject to destructive cyclones that form over the open ocean and head for shore in a generally westward direction. These storms typically occur just before and after the southwest monsoon rains, with west-facing coasts generally being the most severely affected. The northwestern part of the region has the driest climate, with some areas receiving less than 10 inches (250 mm) of rainfall per year; conversely, the equatorial regions are the wettest, with an average of more than 80 inches (2,000 mm). Air temperature over the ocean in the summer is 77 to 82 °F (25 to 28 °C), but along the northeastern coast of Africa it drops to 73 °F (23 °C) as a result of upwellings of cold, deep water. The winter air temperature drops to 72 °F (22 °C) in the northern ocean, remaining almost unchanged along and south of the Equator. Cloudiness is 60 to 70 percent in summer and 10 to 30 percent in winter in the monsoon region.

Trade-winds zone
      The second zone, that of the trade winds (trade wind), lies between 10° and 30° S. There, steady southeasterly trade winds prevail throughout the year and are strongest between June and September. Cyclones also occur east of Madagascar between December and March. In the northern part of the zone the air temperature averages 77 °F (25 °C) during the southern “winter” (May–October) and slightly higher the rest of the time; along the 30th parallel it is 61 to 63 °F (16 to 17 °C) in winter and 68 to 72 °F (20 to 22 °C) in the tropical “summer” (November–April). Warm ocean currents increase the air temperature by 4 to 6 °F (2 to 3 °C) in the western trade-wind zone over that in its eastern portion. Precipitation decreases from north to south.

Subtropical and temperate zone
      The third zone lies in the subtropical and temperate latitudes of the Southern Hemisphere, between 30° and 45° S. In the northern part of the zone the prevailing winds are light and variable, while in the southern area moderate to strong westerly winds prevail. The average air temperature decreases with increasing southern latitude: from 68 to 72 °F (20 to 22 °C) down to 50 °F (10 °C) in the Austral summer (December– February) and from 61 to 63 °F (16 to 17 °C) to 43 to 45 °F (6 to 7 °C) in winter (June–August). Rainfall is moderate and uniformly distributed.

Subantarctic and Antarctic zone
      The fourth, or subantarctic and Antarctic, zone occupies the wide belt between 45° S and the continent of Antarctica. Steady westerly winds prevail, reaching gale force at times with their passage through deep Antarctic low-pressure zones. The average winter air temperature varies from 43 to 45 °F (6 to 7 °C) in the north to 3 °F (-16 °C) near the continent. The corresponding summer temperatures vary within the limits of 50 to 25 °F (10 to -4 °C). Precipitation is frequent and decreases in quantity southward, with snow common in the far south.

Hydrology
 The hydrological characteristics of the Indian Ocean are derived from the interaction of atmospheric conditions (rain, wind, and solar energy) with the surface, the sources of its water, and the deep (thermohaline) circulation, all of which combine to form generally horizontal layers of water. Each layer has different temperature and salinity combinations that form discrete water masses of different densities, with lighter water overlying denser water. Surface-water temperature varies with season, latitude, and surface circulation; surface salinity is the balance between precipitation, evaporation, and river runoff.

Surface currents
      Ocean surface circulation is wind-driven. In the monsoon zone, surface circulation reverses every half year and features two opposing gyres (i.e., semi-closed current systems exhibiting spiral motion) that are separated by the Indian subcontinent. During the northeast monsoon, a weak counterclockwise gyre develops in the Arabian Sea, and a strong clockwise gyre forms in the Bay of Bengal. During the southwest monsoon, the current reverses direction in both seas, with warm- and cold-core eddies forming in the Arabian Sea. South of Sri Lanka, during the northeast monsoon, the North Equatorial Current flows westward, turns south at the coast of Somalia, and returns east as the equatorial countercurrent between 2° and 10° S. An equatorial undercurrent flows eastward at a depth of 500 feet (150 metres) at this time. During the southwest monsoon, the North Equatorial Current reverses its flow and becomes the strong east-flowing Monsoon Current. Part of the South Equatorial Current turns north along the coast of Somalia to become the strong Somali Current. A pronounced front, unique to the Indian Ocean, at 10° S, marks the limit of the monsoon influence.

      South of the monsoon region, a steady subtropical anticyclonic gyre exists, consisting of the westward-flowing South Equatorial Current between 10° and 20° S, which divides as it reaches Madagascar. One branch passes to the north of Madagascar, turns south as the Mozambique Current between Africa and Madagascar, and then becomes the strong, narrow (60 miles [95 km]) Agulhas Current along South Africa before turning east and joining the Antarctic Circumpolar Current south of 45° S; the other branch turns south to the east of Madagascar and then curves back to the east as the South Indian Current at about 40° to 45° S. The current system at the eastern boundary of the ocean is undeveloped, but the West Australian Current flowing north from the South Indian Current closes the gyre to a certain extent. Only the Antarctic Circumpolar Current reaches the ocean floor. The Agulhas Current extends down to about 4,000 feet (1,200 metres) and the Somali Current to about 2,600 feet (800 metres); the other currents do not penetrate farther than 1,000 feet (300 metres).

Deep (thermohaline) circulation
      Below the influence of the surface currents, water movement is sluggish and irregular. Two sources of highly saline water enter the Indian Ocean via the Arabian Sea, one from the Persian Gulf and the other from the Red Sea, and sink below the fresher surface water to form the North Indian High Salinity Intermediate Water between 2,000 and 3,300 feet (600 and 1,000 metres). This layer spreads east into the Bay of Bengal and as far south as Madagascar and Sumatra. Below this layer is the Antarctic Intermediate Water to about 5,000 feet. Between 5,000 and 10,000 feet (1,500 and 3,000 metres) is the North Atlantic Deep Water (named for the source of this current), and below 10,000 feet is Antarctic Bottom Water from the Weddell Sea. These cold, dense layers creep slowly northward from their source in the Antarctic Circumpolar Region, becoming nearly anoxic (oxygen-deficient) en route. Unlike the Atlantic and Pacific oceans, the Indian Ocean has no separate source of bottom water.

Upwelling
      Upwelling is a seasonal phenomenon in the Indian Ocean because of the monsoon regime. During the southwest monsoon, upwelling occurs off the Somali and Arabian coasts and south of Java. It is most intense between 5° and 11° N, with replacement of warmer surface water by water of about 57 °F (14 °C). During the northeast monsoon, strong upwelling occurs along the western coast of India. Midocean upwelling takes place at that time at 5° S, where the North Equatorial Current and the Equatorial Countercurrent run alongside each other in opposite directions.

Surface temperatures (temperature)
      A zonal asymmetry is noted in the surface-water temperature distribution in summer north of 20° S. Summer surface temperatures are higher in the eastern part of this region than in the west. In the Bay of Bengal the maximum temperature is around 82 °F (28 °C). The minimum temperature is about 72 °F (22 °C) in the area of Cape Gwardafuy (Guardafui), on the Horn of Africa, and is associated with the upwelling off the African coast. South of 20° S the temperature of the surface waters decreases at a uniform rate with increase in latitude, from 72 to 75 °F (22° to 24 °C) to 30 °F (-1 °C) near Antarctica. Near the Equator, northern winter surface-water temperatures in excess of 82 °F (28 °C) are encountered in the eastern part of the ocean. Winter surface temperatures are about 72 to 73 °F (22 to 23 °C) in the northern portion of the Arabian Sea, and 77 °F (25 °C) in the Bay of Bengal. At 20 °S the temperature is about 72 to 75 °F (22 to 24 °C); at the 40th parallel, 57 to 61 °F (14 to 16 °C); and at the coast of Antarctica, 30 to 32 °F (-1 to 0 °C).

Surface salinity
      Overall, the salinity of Indian Ocean surface waters varies between 32 and 37 parts per thousand, with large local differences. The Arabian Sea has a dense, high-salinity layer (37 parts per thousand) to a depth of about 400 feet (120 metres) because of high evaporation rates at subtropical temperatures with moderate seasonal variations. Salinity in the surface layer of the Bay of Bengal (Bengal, Bay of) is considerably lower, often less than 32 parts per thousand, because of the huge drainage of fresh water from rivers. High surface salinity (greater than 35 parts per thousand) is also found in the Southern Hemisphere subtropical zone between 25° and 35° S; while a low-salinity zone stretches along the hydrological boundary of 10° S from Indonesia to Madagascar. Antarctic surface-water salinity generally is below 34 parts per thousand.

      Ice is formed in the extreme south during the Antarctic winter. Between January and February the melting ice along the Antarctic coast is broken up by severe storms and, in the form of large blocks and broad floes, is carried away by wind and currents to the open ocean. In some coastal areas the tongues of ice-shelf glaciers break off to form icebergs (iceberg). West of the 90° E meridian the northern limit for floating ice lies close to 65° S. To the east of that meridian, however, floating ice is commonly encountered to 60° S; icebergs are sometimes found as far north as 40° S.

Tides (tide)
      Examples of all three tidal types—diurnal, semidiurnal, and mixed—can be found in the Indian Ocean, although semidiurnal (i.e., twice daily) are the most widespread. Semidiurnal tides prevail on the coast of eastern Africa as far north as the Equator and in the Bay of Bengal. The tides are mixed in the Arabian Sea and the inner part of the Persian Gulf. The southwestern coast of Australia has a small area of diurnal (daily) tides, as do the coast of Thailand in the Andaman Sea and the south shore of the central Persian Gulf.

      Tidal ranges vary considerably from place to place in the Indian Ocean and its adjacent seas. Port Louis, Mauritius, for instance, has a spring tidal range of only 1.6 feet (0.5 metres), characteristic of islands in the open ocean. Other areas with low tidal ranges are Chennai (Madras), India (4.3 feet [1.3 metres]) and Colombo, Sri Lanka (2.3 feet [0.7 metres]). The greatest tidal ranges are found in the Arabian Sea, notably at Bhavanagar, India, in the Gulf of Khambat (38 feet [11.6 metres]), and in the Gulf of Kachchh (Kachchh, Gulf of) at Navlakhi (25.5 feet [7.8 metres]). High tidal ranges are also found in the eastern ocean; Sagar Island in India, at the head of the Bay of Bengal, has a range of 17.4 feet (5.3 metres), and for Yangon (Rangoon), Myan., at the north end of the Andaman Sea, the range is 18.4 feet (5.6 metres). Moderate ranges are found at Durban, S.Af., and Karachi (Karāchi), Pak. (both about 7.5 feet [2.3 metres]), and the Shatt Al-'Arab (Arab, Shaṭṭ Al-ʿ), Iraq (11.3 feet [3.4 metres]).

Economic aspects

Mineral resources
  By far the most valuable mineral resource is oil (petroleum), and the Persian Gulf is the largest oil-producing region in the world. Exploration for offshore petroleum and natural gas also has been under way in the Arabian Sea and the Bay of Bengal, both of which are believed to have large reserves. Other sites of exploration activity are off the northwestern coast of Australia, in the Andaman Sea, off the coast of Africa south of the Equator, and off the southwestern coast of Madagascar. Other than the countries of the Persian Gulf, only India produces commercial quantities of oil from offshore areas, with a large proportion of its total production coming from fields off the coast of Mumbai. Some natural gas also is produced from fields off the northwestern coast of Australia.

      Another potentially valuable mineral resource is contained in manganese nodules, which abound in the Indian Ocean. Sampling sites throughout the central part of the ocean, as far south as South Africa, and east in the South Australian Basin have yielded nodules; the manganese content has been highest in the east and lowest toward the northwest. The difficulty in mining and processing these minerals, despite advances in technology, has precluded their commercial extraction. Other minerals of potential commercial value are ilmenite (a mixture of iron and titanium oxide), tin, monazite (a rare earth), zircon, and chromite, all of which are found in nearshore sand bodies.

Biological resources
      The greater part of the water area of the Indian Ocean lies within the tropical and temperate zones. The shallow waters of the tropical zone are characterized by numerous corals and other organisms capable of building, together with calcareous red algae, reefs and coral islands. These coralline structures shelter a thriving marine fauna consisting of sponges, worms, crabs, mollusks, sea urchins, brittle stars, starfish, and small but exceedingly brightly coloured reef fish.

      The major portion of the tropical coasts is covered with mangrove thickets with an animal life specific to that environment. Mangroves act to stabilize the land along the coastal margin and are important breeding and nursery grounds for offshore species.

      Small crustaceans, including more than 100 species of minute copepods, form the bulk of the animal life, followed by small mollusks, jellyfish, and polyps, and other invertebrate animals ranging from single-celled radiolaria to large Portuguese man-of-war, the tentacles of which may reach a length of some 165 feet (50 metres). The squid form large schools. Of the fishes, the most abundant are several species of flying fish, luminous anchovies, lantern fish, large and small tunnies, sailfish, and various types of sharks. Here and there are found sea turtles and large marine mammals, such as dugongs (or sea cows), toothed and baleen whales, dolphins, and seals. Among the birds, the most common are the albatross and frigate birds, and several species of penguins populate the islands lying in the ocean's temperate zone and the Antarctic coast.

Fisheries
      The upwellings that occur in several coastal regions of the Indian Ocean—particularly in the northern Arabian Sea and along the South African coast—cause nutrients to concentrate in surface waters. This, in turn, produces immense quantities of phytoplankton that are the basis for large populations of commercially valuable marine animals. Despite great fishery potentials, however, most commercial fishing is done by small-scale fishermen at lower depths, while deep-sea resources (with the exception of tuna) remain poorly fished.

      The principal coastal species—shrimp, croakers, snappers, skates, and grunts—are caught by littoral countries, while pelagic fish of higher value—including species of tuna and tunalike species such as billfish that are found in tropical and subtropical waters—are taken mostly by the world's major fishing nations (e.g., Japan, South Korea, and Russia). Shrimp is the most important commercial species for coastal countries, with India accounting for the largest catch. Lesser quantities of sardines, mackerel, and anchovies also are exploited by littoral states. Since coastal nations now can claim sovereignty over resources within an exclusive economic zone that extends 200 nautical miles (230 statute miles, or 370 km) from their coasts, it has become possible for small countries such as the Maldives to increase national income by selling fishing rights in their zones to the major fishing nations that have the capital and technology to exploit pelagic resources.

Trade and transportation
 The economic development of the littoral countries since the mid-20th century has been uneven, following attainment of independence by most states. The formation of regional trade blocs led to an increase in sea trade and the development of new products. Most Indian Ocean states have continued to export raw materials and import manufactured goods produced elsewhere, with a few exceptions like Australia, India, and South Africa. Petroleum dominates commerce, as the Indian Ocean has come to be an important throughway for transport of crude oil to Europe, North America, and East Asia. Other major commodities include iron, coal, rubber, and tea. Iron ore from Western Australia and from India and South Africa is shipped to Japan, while coal is exported to the United Kingdom from Australia via the Indian Ocean. Processed seafood has emerged as a major export item from the littoral states. In addition, tourism has grown in importance on many of the islands.

      Shipping in the Indian Ocean can be divided into three components: dhows (dhow), dry-cargo carriers, and tankers (tanker). For more than two millennia the small, lateen-rigged sailing vessels called dhows were predominant. The dhow trade was particularly important in the western Indian Ocean, where these vessels could take advantage of the monsoon winds; a great variety of products were transported between ports on the coast of East Africa and ports on the Arabian Peninsula and on the west coast of India (notably Mumbai, Mangalore, and Surat). Most dhow traffic has been supplanted by larger, powered ships and by land transport, and the remaining dhows have been equipped with auxiliary engines.

      Much of the Indian Ocean's dry-cargo shipping is now containerized. Most container ships enter and exit the Indian Ocean via the Cape of Good Hope (Good Hope, Cape of), the Suez Canal and Red Sea, and the Strait of Malacca (Malacca, Strait of). South Africa and India have their own merchant fleets, but most of the other littoral states have only a few merchant vessels and depend on the ships of other countries to carry their cargoes. Most other dry cargo is transported by bulk carriers, mainly those used to carry iron ore from India, southern Africa, and western Australia to Japan and Europe. An important route from western Australia is via the Sunda Strait and the South China Sea to Japan. Major ports of the Indian Ocean include Durban (S.Af.), Maputo (Mozam.), and Djibouti (Djib.) along the African coast; Aden (Yemen) on the Arabian Peninsula; Karachi, Mumbai, Chennai, and Kolkata on the Indian subcontinent and Colombo in Sri Lanka; and Melbourne, Port Adelaide Enfield, and Port Hedland in Australia.

      Tanker traffic moves primarily from ports in the Persian Gulf across the northern Indian Ocean to the Strait of Malacca and from the Persian Gulf south along the coast of Africa and around the Cape of Good Hope. The route via the Suez Canal has become far less important as the size of tankers has surpassed the canal's capacity; the size of these tankers, however, compensates for the longer distances now required to move oil from the Persian Gulf to Europe. The largest tankers must now use the Lombok Strait through the Lesser Sunda Islands to carry oil to Japan, since their drafts are too great for the route through the Malacca and Singapore straits.

Environmental impact of human activity
      European colonial exploitation of Indian Ocean resources resulted in the first clear evidence of the degradation of both the terrestrial and oceanic environments. Deforestation, cultivation, and guano mining have had undesirable effects on terrestrial ecosystems. Guano mining, which removed vegetation and scraped the land surface, has caused the destruction of much native flora and fauna, and hunting and the introduction of exotic species have altered the ecological balance that previously existed. Man-made threats to the oceanic environment are of more recent origin. One is the quantity of domestic and industrial waste that has accumulated in nearshore waters as a result of increased urbanization and industrialization along the coast. This has been most evident in India, which is the most populous country of the region. Another is the concern caused by the transport of large quantities of crude oil across the ocean and its adjacent semienclosed seas. Oil spills from normal tanker operations and occasional large-scale tanker catastrophes have had deleterious effects on phytoplankton and zooplankton, both necessary parts of the food chain of commercial fisheries. The East African coast, the Arabian Sea, and the approaches to the Strait of Malacca are areas in which the threat of oil pollution and major phytoplankton productivity coincide.

Study and exploration

Early exploration
      There is evidence that the Egyptians (Egypt, ancient) explored the Indian Ocean as early as about 2300 BC, when they sent maritime expeditions to the “land of Punt,” which was somewhere on the Somali coast. The expeditions, which may have begun even earlier—perhaps about 2900 BC, were numerous until about 2200 BC. Egyptian annals make no mention of journeys to Punt during the period 2200–2100 BC, but they began again in the 11th dynasty (2081–1938 BC), and records mention them continuously until the 20th dynasty (1190–1075 BC).

      Early trade in the northwestern Indian Ocean was aided by an irrigation canal (navigable in high water) through the Isthmus of Suez that was built by the Egyptians during the 12th dynasty (1938–c. 1756 BC) and operated almost continuously until it was filled in AD 775. Early seafarers made good use of their knowledge of the monsoons and their associated currents; Arab sailors in their lateen-rigged dhows traded along the East African coast as far south as Sofala (present-day Nova Sofala, Mozam.) and north into the Red Sea and Persian Gulf. The writings of medieval Arab and Persian pilots from the 9th to the 15th century include detailed sailing instructions and information on navigation, winds, currents, coasts, islands, and ports from Sofala to China. It was on an Indian trading vessel that the Russian voyager Afanasy Nikitin reached India in 1469. Vasco da Gama (Gama, Vasco da), sailing around Africa in 1497, signed on an Arabian pilot at Malindi before he crossed the Indian Ocean to reach the western shores of India.

      The Dutch, English, and French followed the Portuguese to the Indian Ocean. In 1521 the Spanish navigator Juan Sebastián de Elcano (Cano, Juan Sebastián del) crossed the central part of the ocean, continuing the first voyage of circumnavigation of the globe after the death of the original commander, Ferdinand Magellan (Magellan, Ferdinand), in the Philippine Islands. The Dutch navigator Abel Tasman (Tasman, Abel Janszoon), pursuing voyages of discovery in the eastern Indian Ocean from 1642 to 1644, explored the northern coast of Australia and discovered the island of Tasmania. The southern waters of the Indian Ocean were explored by James Cook (Cook, James) in 1772. Beginning in 1806 the Indian Ocean was crossed repeatedly by Russian ships commanded by Adam Johann Krusenstern (Krusenstern, Adam Johann), Otto von Kotzebue (Kotzebue, Otto von), and others.

      Between 1819 and 1821 the expedition of the Russian explorer Fabian Gottlieb von Bellingshausen (Bellingshausen, Fabian Gottlieb von) that circumnavigated Antarctica penetrated the Indian Ocean south of the 60th parallel. A number of important voyages to Antarctica followed in the 19th and early 20th centuries, led by the explorers Charles Wilkes (Wilkes, Charles) (American), Jules-Sébastien-César Dumont d'Urville (Dumont d'Urville, Jules-Sébastien-César) and Jean-Baptiste-Étienne-Auguste Charcot (Charcot, Jean-Baptiste-Étienne-Auguste) (French), James Clark Ross (Ross, Sir James Clark) (Scottish), and others.

Systematic investigations
      The famous round-the-world expedition of the British naval vessel Challenger (Challenger Expedition), which began in 1872, marked the beginning of systematic investigation of the oceans, including the Indian Ocean. Thereafter, numerous expeditions were mounted.

      Other circumnavigational voyages were made following World War II by the Danish Galathea, the Swedish Albatross, and the British Challenger II, which explored the northern portion of the Indian Ocean. During the preparation and execution of the International Geophysical Year (1957–58) and in subsequent years, scientific explorations of the southern Indian Ocean were carried out by Australian, New Zealand, Soviet, French, Japanese, and other expeditions. The International Indian Ocean Expedition (1960–65) was a cooperative effort by some three dozen research ships of many countries.

      Research activity since then has built on the work of that expedition, with studies on the nature of monsoons. Several ships have crossed the Indian Ocean to collect information on mineral resources of the continental shelves and the deep ocean floor. Several legs of the Deep Sea Drilling Project (1968–83) were in the Indian Ocean. These more recent and technologically advanced scientific explorations have provided insights into the marine geology, geophysics, and resource potentials of the Indian Ocean.

Viktor Filipovich Kanayev Joseph R. Morgan Philomene A. Verlaan Ed.

Additional Reading

General works
Oceanographic texts and atlases that include information on the Indian Ocean and its seas include Rhodes W. Fairbridge (ed.), The Encyclopedia of Oceanography (1966, reissued 1979); James P. Kennett, Marine Geology (1982); George L. Pickard and William J. Emery, Descriptive Physical Oceanography: An Introduction, 5th enlarged ed. (1990, reprinted 2003); M. Grant Gross, Oceanography, 6th ed. (1990); Alastair Couper (ed.), The Times Atlas and Encyclopedia of the Sea, 2nd ed. (1990); and Martyn Bramwell (ed.), The Rand McNally Atlas of the Oceans (also published as Mitchell Beazley Atlas of the Oceans and The Macmillan Atlas of the Oceans, 1977, reissued 1987). Julia J. Gotthold and Donald W. Gotthold (comps.), Indian Ocean (1988), is an annotated bibliography of works on the area's history, sea power, and ocean science, on the island groups in the region, and on the Indian Ocean's strategic military importance.

Physical environment
Indian Ocean geology and oceanography are explored in Alan E.M. Nairn and Francis G. Stehli (eds.), The Ocean Basins and Margins, vol. 6, The Indian Ocean (1982), which includes treatment of the marginal seas; United States Defense Mapping Agency Hydrographic Center, Sailing Directions (Planning Guide) for the Indian Ocean, 3rd ed. (1988); and D.J. Rochford, “Salinity Maxima in the Upper 1000 m of the Indian Ocean,” Australian Journal of Marine and Freshwater Research, 15:1-24 (1964). There are many useful essays in Bernt Zeitzschel and Sebastian A. Gerlach (eds.), The Biology of the Indian Ocean (1973), including a summary introduction to the area by Klaus Wyrtki, “Physical Oceanography of the Indian Ocean,” pp. 18–36. Ocean physics, chemistry, biology, and geology are examined by B.N. Desai (ed.), Oceanography of the Indian Ocean (1992). Graphic presentations of information include United States Central Intelligence Agency, Indian Ocean Atlas (1976); Klaus Wyrtki, Edward B. Bennett, and David J. Rochford, Oceanographic Atlas of the International Indian Ocean Expedition (1971); and Stefan Hastenrath and Peter J. Lamb, Climatic Atlas of the Indian Ocean, 3 vol. (1979–89).

Economic aspects
The history of commerce in the area is examined by K.N. Chaudhuri, Trade and Civilisation in the Indian Ocean: An Economic History from the Rise of Islam to 1750 (1985). Present-day economic development is the focus of Ganpat Singh Roonwal, The Indian Ocean: Exploitable Mineral and Petroleum Resources (1986); Kenneth Sherman et al. (eds.), Large Marine Ecosystems of the Indian Ocean: Assessment, Sustainability, and Management (1998); and Mukhtar Alam, Economic Development and Contemporary Politics: The Indian Ocean Rim (2004).

Study and exploration
A.L. Rice (ed.), Deep-sea Challenge: The John Murray/Mabahiss Expedition to the Indian Ocean, 1933–34 (1986), presents the history of the voyage and its influence on oceanographic research in the area. Other works on the area's history include Satish Chandra (ed.), The Indian Ocean: Explorations in History, Commerce, and Politics (1987); G.A. Ballard, Rulers of the Indian Ocean (1927, reprinted 1984); Auguste Toussaint, History of the Indian Ocean (1961; originally published in French, 1961); and Himanshu Prabha Ray (ed.), Archaeology of Seafaring: The Indian Ocean in the Ancient Period (1999).Joseph R. Morgan Philomene A. Verlaan Ed.

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Universalium. 2010.

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