79-492: Nihonkai (日本海) may refer to: Sea of Japan , the body of water between Japan, Korea and Russia Nihonkai (train) , an overnight sleeping car train service that ran along the Sea of Japan coastline Topics referred to by the same term [REDACTED] This disambiguation page lists articles associated with the title Nihonkai . If an internal link led you here, you may wish to change
158-467: A few plateaus. In addition, an underwater ridge rising up to 3,500 m (11,500 ft) runs from north to south through the middle of the central part. The Japanese coastal area of the sea consists of Okujiri Ridge, Sado Ridge, Hakusan Banks, Wakasa Ridge and Oki Ridge. Yamato Ridge is of continental origin and is composed of granite , rhyolite , andesite and basalt . It has an uneven bottom covered with boulders of volcanic rock. Most other areas of
237-530: A mountainous character. In contrast, numerous large rivers flow from Honshū and Hokkaidō into the sea, including Japan's four largest rivers: the Shinano , Ishikari , Agano and Mogami . The total annual river discharge into the sea is 210 km (50 cu mi) and is relatively constant through the year, except for a minor increase in July. Most water (97% or 52,200 km [12,500 cu mi]) flows into
316-612: A permanent organization was formed and statutes for its operations were prepared. The IHB, now the IHO, began its activities in 1921 with 18 nations as members. The Principality of Monaco was selected as the seat of the Organization as a result of the offer of Albert I of Monaco to provide suitable accommodation for the Bureau in the Principality. The International Hydrographic Organization (IHO)
395-632: A speed of 10–25 cm/s (4–10 in/s) in the open sea. They accelerate in the Korea Strait (40–60 cm/s or 16–24 in/s), La Pérouse Strait (50–100 cm/s or 20–40 in/s) and especially in the Tsugaru Strait (100–200 cm/s or 40–80 in/s). The amplitude of the tides is relatively low and varies strongly across the sea. It reaches 3 meters in the south near the Korea Strait, but quickly drops northwards to 1.5 m (5 ft) at
474-522: A wide southern part narrowing toward the north. The coastal length is about 7,600 km (4,700 mi) with the largest part (3,240 km or 2,010 mi) belonging to Russia. The sea extends from north to south for more than 2,255 km (1,401 mi) and has a maximum width of about 1,070 km (660 mi). It has three major basins : the Yamato Basin in the south-east, the Japan Basin in
553-433: Is August, with an average air temperature of 15 °C (59 °F) in the north and 25 °C (77 °F) in the south. Annual precipitation increases from 310–500 mm (12–20 in) in the north-west to 1,500–2,000 mm (59–79 in) in the south-east. A peculiar turbulent cloud pattern, named von Kármán vortices , is sometimes observed over the Sea of Japan. It requires a stable field of low clouds driven by
632-416: Is about 0 °C (32 °F) in the west and 5–6 °C (41–43 °F) in the east. This east-west difference drops to 1–2 °C (1.8–3.6 °F) in summer, and the temperatures rise to 18–20 °C (64–68 °F) in the north and 25–27 °C (77–81 °F) in the south. Because the sea is enclosed, its waters form clearly separated layers which may show seasonal and spatial dependence. In winter,
711-663: Is called Nihon kai ( 日本海 , literally 'Japan Sea') in Japan, Rìběn hǎi ( 日本海 , 'Japan Sea') or originally Jīng hǎi ( 鲸海 , 'Whale Sea') in China, Yaponskoye more ( Японское море , 'Japanese Sea') in Russia, Chosŏn Tonghae ( 조선동해 , literally 'Korean East Sea') in North Korea , and Donghae ( 동해 , literally 'East Sea') in South Korea . The use of the term "Sea of Japan" as
790-465: Is especially noticeable between October and March when the strong (12–15 m/s [39–49 ft/s] or higher) north-western monsoon wind brings cold and dry continental air. The evaporation is blown further south, causing snowfall in the mountainous western coasts of Japan. This winter monsoon brings typhoons and storms, with the waves reaching 8–10 m (26–33 ft) which erode the western coasts of Japan. Tsunami waves have also been recorded in
869-449: Is relatively constant. The surface layer tends to be more fresh in the sea parts which experience ice melting and rains. The average water density is 1.0270 g/cm in the north and 1.0255 g/cm in the south in winter. It lowers in summer to 1.0253 and 1.0215 g/cm , respectively. Few rivers flow into the Sea of Japan from mainland Asia , the largest being Tumen , Rudnaya, Samarga, Partizanskaya and Tumnin; all of them have
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#1733093697140948-752: Is the marginal sea between the Japanese archipelago , Sakhalin , the Korean Peninsula , and the mainland of the Russian Far East . The Japanese archipelago separates the sea from the Pacific Ocean . Like the Mediterranean Sea , it has almost no tides due to its nearly complete enclosure from the Pacific Ocean. This isolation also affects faunal diversity and salinity , both of which are lower than in
1027-472: Is the dominant economic activity in the region. The intensity of shipments across the sea has been moderate owing to political issues, but it is steadily increasing as a result of the growth of East Asian economies. Sea of Japan is the dominant term used in English for the sea, and the name in most European languages is equivalent, but it is sometimes called by different names in surrounding countries. The sea
1106-502: Is the lowest at 33.8‰ in the south-east and south-west because of frequent rains, and remains at about 34.09‰ in most other parts. Thawing of ice in spring reduces water salinity in the north, but it remains high at 34.60–34.70‰ in the south, partly because of the inflow of salty water through the Korea Strait . A typical variation of salinity across the sea in summer is 31.5‰ to 34.5‰ from north to south. The depth distribution of salinity
1185-718: The Asian mainland and Sakhalin; La Pérouse Strait between Sakhalin and Hokkaidō; the Tsugaru Strait between Hokkaidō and Honshū; the Kanmon Straits between Honshū and Kyūshū; and the Korea Strait between the Korean Peninsula and Kyūshū. The Korea Strait is composed of the Western Channel and the Tsushima Strait , on either side of Tsushima Island . The straits were formed in recent geologic periods. The oldest of them are
1264-765: The Japanese archipelago separated from each other. During the Miocene, the Sea of Japan expanded. The north part of the Japanese archipelago was further fragmented later until orogenesis of the north-eastern Japanese archipelago began in the later Late Miocene . The south part of the Japanese archipelago remained as a relatively large landmass. The land area had expanded northward in the Late Miocene. The orogenesis of high mountain ranges in north-eastern Japan started in Late Miocene and lasted in Pliocene also. The eastern margin of
1343-635: The Kuril Islands . It is also reflected in various legends, such as the legend of the Heishi rock , which says that once when herring vanished, an old fairy threw a bottle with magic water into the sea, and the herring returned. The bottle got stuck to the seabed and turned into a rock, which became a representation of the God of the Sea of Japan. Vladivostok is a base for the Russian whaling fleet. Although it operates in
1422-719: The United Nations , where it is the recognized competent authority on hydrographic surveying and nautical charting . When referring to hydrography and nautical charting in conventions and similar instruments, it is the IHO standards and specifications that are normally used. During the 19th century, many maritime nations established hydrographic offices to provide means for improving the navigation of naval and merchant vessels by providing nautical publications, nautical charts, and other navigational services. There were substantial differences in hydrographic procedures charts, and publications. In 1889, an International Maritime Conference
1501-620: The Year Book are available to the general public free of charge from the IHO website. The IHO publishes the international standards related to charting and hydrography, including S-57, IHO Transfer Standard for Digital Hydrographic Data , the encoding standard that is used primarily for electronic navigational charts . In 2010, the IHO introduced a new, contemporary hydrographic geospatial standard for modelling marine data and information, known as S-100. S-100 and any dependent product specifications are underpinned by an on-line registry accessible via
1580-604: The 1920s. American , Canadian and French whaleships cruised for whales in the sea between 1847 and 1892. Most entered the sea via Korea Strait and left via La Pérouse Strait , but some entered and exited via Tsugaru Strait . They primarily targeted right whales , but began catching humpbacks as right whale catches declined. They also made attempts to catch blue and fin whales , but these species invariably sank after being killed. Right whales were caught from March to September, with peak catches in May and June. During
1659-514: The Convention on the IHO, the secretariat is headed by a Secretary-General, supported by two Directors. As before, all three senior members of the secretariat continue to be elected to their positions by the Member States at the regular Assembly of the IHO (formerly, IHO Conferences). The secretariat staff comprise a number of technical specialists, administrators, and support personnel. The bulk of
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#17330936971401738-476: The Electronic Chart Display and Information System (ECDIS) made it clear to the IHO it also needed to standardize how electronic navigational data is transferred and displayed on ships. Electronic chart data was standardized and categorized in an international database referred to as Electronic Navigational Charts (ENCs). The way this data is transferred from publishers to users was also standardized, as
1817-412: The IHO comprised 100 member states. A principal aim of the IHO is to ensure that the world's seas, oceans and navigable waters are properly surveyed and charted. It does this through the setting of international standards for hydrographic surveys, the co-ordination of the endeavors of the world's national hydrographic offices, and through its capacity building program. The IHO enjoys observer status at
1896-530: The IHO has regularly published updated editions of the Standards of Hydrographic Surveys, with the most recent being published in 2008. Each of these publications was designed to incorporate technological advancements and international shipping demands. This is especially true with regards to the rise of electronic navigation equipment in the 1980s. The IHO also works to standardize the specifications, style, and symbols used in producing nautical charts. In 1971,
1975-432: The IHO was able to get its member states to use one single chart series, also known as INT charts. According to this IHO agreement, if one member state wants to publish a chart for an area covered by another member's existing chart, the duplicate must be created using the same data as the original chart. IHO Publication M-4, which was published in 1984, set specific international standards for nautical charts. The advent of
2054-474: The IHO website. S-100 is aligned with the ISO 19100 series of geographic standards, thereby making it fully compatible with contemporary geospatial data standards. Because S-100 is based on ISO 19100, it can be used by other data providers for their maritime-related (non-hydrographic) data and information. Various data and information providers from both the government and private sector are now using S-100 as part of
2133-420: The IHO's Standards of Competence. These standards are used to educate and train member states' respective hydrographic offices and nautical chart makers. Additionally, the IHO also creates syllabi higher education institutions who teach hydrography and nautical navigation. The IHO also has an Advisory Board which is tasked with supervising and approving member states' education and training programs. Since 1968,
2212-470: The IHO's technical and specialist expertise comes from Member States' personnel, often assisted by invited industry experts, who all provide technical contributions through participation in various IHO committees and working groups. A Council, comprising a sub-set of all the IHO Member States, meets annually and oversees the work of the IHO. A full description, together with details of the workings of all
2291-813: The Intergovernmental Oceanographic Commission, directs the General Bathymetric Chart of the Oceans program. Establishment of the Chart Specifications Committee and International Charts: Most IHO publications, including the standards, guidelines and associated documents such as the International Hydrographic Review , International Hydrographic Bulletin , the Hydrographic Dictionary and
2370-661: The Japanese islands. The largest bays are Peter the Great Gulf , Sovetskaya Gavan ; Vladimira Bay, Olga ; Posyet Bay in Russia; East Korea Bay in North Korea; and Ishikari (Hokkaidō), Toyama (Honshū), and Wakasa (Honshū) Bays in Japan. Prominent capes include Lazareva, Peschanyi (sandy), Povorotny , Gromova, Pogibi , Tyk, and Korsakova in Russia; Crillon on Sakhalin ; Sōya , Nosappu , Tappi , Nyuda, Rebun , Rishiri , Okushiri , Daso and Oki in Japan; and Musu Dan in North Korea. As world sea level dropped during
2449-544: The Japanese islands. In the 1780s, the Frenchman Jean-François de Galaup, comte de Lapérouse , traveled northward across the sea through the strait later named after him . In 1796, a British naval officer, William Robert Broughton , explored the Strait of Tartary, the eastern coast of the Russian Far East and the Korean Peninsula . In 1803–1806, the Russian navigator Adam Johann von Krusenstern while sailing across
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2528-540: The Korean Peninsula, but they also mainly target countries not bordering the Sea of Japan. The major Russian port of Vladivostok mainly serves inland cargos, whereas Nakhodka and Vostochny are more international and have a busy exchange with Japan and South Korea . Other prominent Russian ports are Sovetskaya Gavan , Alexandrovsk-Sakhalinsky and Kholmsk , and the major ports of North Korea are Wonsan , Hamhung and Chongjin . The intensity of shipments across
2607-402: The Sea of Japan is steadily increasing as a result of the growth of East Asian economies. This article incorporates CC-BY-2.0 text from this reference: International Hydrographic Organization The International Hydrographic Organization ( IHO ) (French: Organisation Hydrographique Internationale ) is an intergovernmental organization representing hydrography . As of May 2024 ,
2686-520: The Tsugaru and Tsushima straits. Their formation had interrupted the migration of elephants into the Japanese islands at the end of the Neogene Period (about 2.6 million years ago). The most recent is La Perouse Strait, which formed about 60,000 to 11,000 years ago closing the path used by mammoths which had earlier moved to northern Hokkaidō. All the straits are rather shallow, with a minimal depth of
2765-403: The atmosphere in the northern part of the sea and by the currents in the southern part. Winter temperatures are 0 °C (32 °F) or below in the north and 10–14 °C (50–57 °F) in the south. In this season, there is a significant temperature difference between the western and eastern parts owing to the circular currents. So at the latitude of Peter the Great Gulf, the water temperature
2844-476: The basin in Chinese was "Sea of Whales" ), and the crustaceans by shrimps and crabs. Because of the shallow straits connecting the sea with Pacific Ocean, the Sea of Japan has no characteristic oceanic deep-water fauna. Flora and fauna unique to the region near the Sea of Japan are known as "Japan Sea elements". Fishery had long been the main economic activity on the Sea of Japan. It is mainly carried out on and near
2923-564: The bays as early as October and its remains may be seen even in June. Ice cover is continuous only in the bays and forms floating patches in the open sea. Ice melting in spring results in cold currents in the northern areas. In summer the wind weakens to 2–7 m/s (6.6–23.0 ft/s) and reverses its direction, blowing warm and humid air from the North Pacific onto the Asian mainland. The warmest month
3002-462: The continental shelves and focuses on herring, sardines and bluefin tuna. These species are however depleted from after World War II . Squid is mostly caught near the sea center and salmon near the northern and south-western shores. There is also a well-developed seaweed production. The importance of the fishery in the sea is illustrated by the territorial disputes between Japan and South Korea over Liancourt Rocks and between Japan and Russia over
3081-489: The cyclonal character of the sea currents. Other notable expeditions of the 19th century include the American North Pacific Exploring and Surveying Expedition (1853–1856) and British Challenger expedition (1872–1876). The aquatic life was described by V. K. Brazhnikov in 1899–1902 and P. Yu. Schmidt in 1903–1904. The Japanese scientific studies of the sea began only in 1915 and became systematic since
3160-493: The deeper regions. There are no large islands in the sea. Most of the smaller ones are near the eastern coast, except for Ulleungdo (South Korea). The most significant islands are Moneron , Rebun , Rishiri , Okushiri , Ōshima , Sado , Okinoshima , Ulleungdo , Askold, Russky and Putyatin. The shorelines are relatively straight and lack large bays and capes; the coastal shapes are simplest in Sakhalin and are more winding in
3239-413: The dominant name is a point of contention. South Korea wants the name "East Sea" to be used, either instead of or in addition to "Sea of Japan;" while North Korea prefers the name "East Sea of Korea". The primary issue in the dispute revolves around a disagreement about when the name "Sea of Japan" became the international standard. Japan claims the term has been the international standard since at least
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3318-532: The early 19th century, while the Koreas claim that the term "Sea of Japan" arose later while Korea was under Japanese rule , and before that occupation, other names such as "Sea of Korea" or "East Sea" were used in English. In 2012, the International Hydrographic Organization (IHO), the intergovernmental organization that maintains a publication listing the limits of ocean and sea areas around
3397-815: The eastern and southern areas. The oxygen concentration is 95% of the saturation point near the surface; it decreases with the depth to about 70% at 3,000 m (9,800 ft). The high concentration of dissolved oxygen results in the rich aquatic life of the Sea of Japan – there are more than 800 species of aquatic plants and more than 3,500 animal species, including more than 900 species of crustaceans, about 1,000 of fish and 26 of mammals. The coastal areas contain several kg/m of biomass. Pelagic (oceanic) fishes include saury , mackerel, Jack mackerels , sardines, anchovies, herring, sea bream , squid and various species of salmon and trout. The demersal (sea-bottom) fishes include cod , pollock and Atka mackerel . Mammals are represented by seals and whales (ancient name for
3476-525: The entire sea with the highest levels observed in summer and lowest in winter. Wind may also locally change the water level by 20–25 cm (8–10 in); for example, it is higher in summer at the Korean and lower at the Japanese coasts. The sea waters have blue to green-blue color and a transparency of about 10 m (33 ft). They are rich in dissolved oxygen , especially in the western and northern parts, which are colder and have more phytoplankton than
3555-484: The evolutionary process from the analogue to the digital era. The IHO approved the proposal of the new official nautical chart. The new chart will be marked with a numerical identifier without a name. For centuries, the sea had protected Japan from land invasions, particularly by the Mongols. It had long been navigated by Asian and, from the 18th century, by European ships. Russian expeditions of 1733–1743 mapped Sakhalin and
3634-651: The extremity of Esan Saki (41°48′ N). On the Northeast. In La Perouse Strait (Sôya Kaikyô). A line joining Sôni Misaki and Nishi Notoro Misaki (45°55′ N). On the North. From Cape Tuik (51°45′ N) to Cape Sushcheva. The sea currents circulate in the counterclockwise direction. The Kuroshio (Japan Current), the Tsushima Current and the East Korea Warm Current bring warmer and more saline water to
3713-424: The globe in the ship Nadezhda also explored, in passing, the Sea of Japan and the eastern shores of Japanese islands . In 1849, another Russian explorer Gennady Nevelskoy discovered the strait between the continent and Sakhalin and mapped the northern part of the Strait of Tartary. Russian expeditions were made in 1853–1854 and 1886–1889 to measure the surface temperatures and record the tides. They also documented
3792-513: The ice cap advances of the last Ice Age , the exit straits of the Sea of Japan one by one dried and closed. There is controversy as to whether or not in each ice cap advance the world sea level fell low enough for the deepest, the western channel of the Korea Strait , to dry and close, turning the Sea of Japan into a huge cold inland lake with a surface layer of fresh water, freezing over in the winters. The sea climate has warm waters and monsoons. This combination results in strong evaporation, which
3871-563: The implementation of the e-Navigation concept that has been endorsed by the UN International Maritime Organization (IMO). Another in the series of publications of interest is S-23, Limits of Oceans and Seas . The 3rd edition dates back to 1953 while the potential 4th edition, started in 1986, has remained a draft since 2002. It was distributed to IHO members, but its official publication has been suspended pending agreement between South Korea and Japan regarding
3950-624: The limits of the "Japan Sea" as follows: On the Southwest. The Northeastern limit of the Eastern China Sea [From Nomo Saki (32°35′ N) in Kyusyu to the South point of Hukae Sima ( Goto Retto ) and on through this island to Ose Saki (Cape Goto) and to Hunan Kan, the South point of Saisyu To (Quelpart), through this island to its Western extreme and thence along the parallel of 33°17′ North to
4029-414: The link to point directly to the intended article. Retrieved from " https://en.wikipedia.org/w/index.php?title=Nihonkai&oldid=1216500121 " Category : Disambiguation pages Hidden categories: Short description is different from Wikidata All article disambiguation pages All disambiguation pages Sea of Japan The Sea of Japan ( see below for other names)
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#17330936971404108-841: The mainland] and the Western limit of the Inland Sea [defined circuitously as "The Southeastern limit of the Japan Sea"]. On the Southeast. In Simonoseki Kaikyo . A line running from Nagoya Saki (130°49′,5 E) in Kyûsyû through the islands of Uma Sima and Muture Sima (33°58′,5 N) to Murasaki Hana (34°01′ N) in Honsyû . On the East. In the Tsugaru Kaikô . From the extremity of Siriya Saki (141°28′ E) to
4187-404: The most convenient form to enable them to be readily used; of instituting a prompt system of mutual exchange of hydrographic information between all countries; and of providing an opportunity to consultations and discussions to be carried out on hydrographic subjects generally by the hydrographic experts of the world." This is still the major purpose of the IHO. As a result of the 1919 Conference,
4266-598: The north and the Tsushima Basin (Ulleung Basin) in the south-west. The Japan Basin is of oceanic origin and is the deepest part of the sea, whereas the Tsushima Basin is the shallowest with the depths below 2,300 m (7,500 ft). On the eastern shores, the continental shelves of the sea are wide, but on the western shores, particularly along the Korean coast, they are narrow, averaging about 30 km (19 mi). There are three distinct continental shelves in
4345-653: The north. There they merge into the Tsugaru Current and flow into the Pacific Ocean through the Tsugaru Strait. They also feed the Sōya Current and exit through the La Perouse Strait to the Sea of Okhotsk. The returning branch is composed of the Liman, North Korea and Central (or Mid-) Japan Sea currents which bring fresh and cold water along the Asian coast to the south. Water temperature is mostly affected by exchange with
4424-425: The northern part (above 44° N). They form a staircase-like structure with the steps slightly inclined southwards and submerged to the depths of 900–1,400 (3,000–4,600), 1,700–2,000 (5,600–6,600) and 2,300–2,600 m (7,500–8,500 ft). The last step sharply drops to the depths of about 3,500 m (11,500 ft) toward the central (deepest) part of the sea. The bottom of this part is relatively flat, but has
4503-514: The northern part of Japan and Sakhalin Island. The intensity of shipments across the sea is moderate, owing to the cold relations between many bordering countries. As a result, the largest Japanese ports are on the Pacific coast, and the significant ports on the Sea of Japan are Niigata , Tsuruta and Maizuru . Major South Korean ports are Busan , Ulsan , and Pohang situated on the south-eastern coast of
4582-436: The northern part of the sea in winter and is brought south by the sea currents; it is rather stable and is observed all through the year. The hydrological isolation of the Sea of Japan also results in slightly lower average water salinity (34.09‰, where ‰ means parts per thousand) compared with the Pacific Ocean. In winter, the highest salinity at 34.5‰ is observed in the south where evaporation dominates over precipitation. It
4661-562: The northern seas, its production is processed and partly distributed in the Vladivostok area. Vladivostok is also a terminal point of the Trans-Siberian Railway which brings many goods to and from this major port . There is a regular ferry service across the Strait of Tartary between the Russian continental port of Vanino and Kholmsk in Sakhalin. The sea has magnetite sands as well as natural gas and petroleum fields near
4740-437: The open ocean. The sea has no large islands, bays or capes. Its water balance is mostly determined by the inflow and outflow through the straits connecting it to the neighboring seas and the Pacific Ocean. Few rivers discharge into the sea and their total contribution to the water exchange is within 1%. The seawater has an elevated concentration of dissolved oxygen that results in high biological productivity. Therefore, fishing
4819-440: The order of 100 meters or less. This hinders water exchange, thereby isolating the water and aquatic life of the Sea of Japan from the neighboring seas and oceans. The sea has a surface area of about 1,050,000 km (410,000 sq mi), a mean depth of 1,752 m (5,748 ft) and a maximum depth of 4,568 m (14,987 ft). It has a carrot-like shape, with the major axis extending from south-west to north-east and
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#17330936971404898-596: The organs of the IHO is available on the IHO website: www.iho.int The IHO ensures the safety of maritime navigation by developing hydrographic survey capability and nautical charting standards. To develop and standardize its member states' hydrographic survey capabilities, the IHO worked with the International Federation of Surveyors (Fédération Internationale des Géomètres) and the International Cartographic Association (ICA) to create
4977-523: The peak years of 1848 and 1849 a total of over 170 vessels (over 60 in 1848, and over 110 in 1849) cruised in the Sea of Japan, with significantly lesser numbers in following years. The Sea of Japan was landlocked when the land bridge of East Asia existed. The Japan Arc started to form in the Early Miocene . In the Early Miocene the Japan Sea started to open, and the northern and southern parts of
5056-403: The sea are of oceanic origin. Seabed down to 300 m (980 ft) is of continental nature and is covered with a mixture of mud, sand, gravel and fragments of rock. The depths between 300 and 800 m (980 and 2,620 ft) are covered in hemipelagic sediments (i.e., of semi-oceanic origin); these sediments are composed of blue mud rich in organic matter. Pelagic sediments of red mud dominate
5135-421: The sea may host an incipient subduction zone responsible for large earthquakes in 1940 , 1964 , 1983 and 1993 . Nowadays the Sea of Japan is bounded by the Russian mainland and Sakhalin island to the north, the Korean Peninsula to the west, and the Japanese islands of Hokkaidō , Honshū and Kyūshū to the east and south. It is connected to other seas by five straits : the Strait of Tartary between
5214-485: The sea through the Korea Strait and discharges through the Tsugaru (64% or 34,610 km [8,300 cu mi], La Pérouse 10,380 km [2,490 cu mi]) and Korea straits. Rainfall, evaporation and riverine inflow make only 1% of the water balance. Between October and April, the outflow exceeds the inflow due to the lower income through the Korea Strait; this balance reverses between May and September. The sea has complex tides , which are induced by
5293-492: The sea. In addition, the monsoon enhances the surface water convection, down to the depths of 30 m (98 ft). The coldest months are January and February, with an average air temperature of −20 °C (−4 °F) in the north and 5 °C (41 °F) in the south. The northern one-quarter of the sea, particularly the Siberian coast and the Strait of Tartary, freezes for about 4−5 months. The timing and extent of freezing vary from year to year, so ice may start forming in
5372-407: The secretariat was renamed the "IHO Secretariat," which consists of an elected Secretary-General, two supporting Directors, and a small permanent staff (18 in 2020) at the Organization’s headquarters in Monaco. Until 2016 the IHO was administered by a secretariat headed by a Directing Committee comprising a President and two Directors. Since 8 November 2016, upon the entry in to force of revisions to
5451-399: The southern tip of Korean Peninsula and to 0.5 m (1.6 ft) at the North Korean shores. Similar low tides are observed in Hokkaidō, Honshū and south Sakhalin. The amplitude however increases to 2.3–2.8 m (7.5–9.2 ft) toward the north of the Strait of Tartary due to its funnel-like shape. Apart from tides, the water level also displays seasonal, monsoon-related variations across
5530-404: The sun and tropical monsoons increases the depth gradient in spring–summer. In the north the surface layer (down to 15 m or 49 ft) may heat up to 18–20 °C (64–68 °F). The temperature would drop sharply to 4 °C (39 °F) at 50 m (160 ft), then slowly decrease to 1 °C (34 °F) at 250 m (820 ft) and remain so down to the seabed. On the contrary,
5609-427: The temperature in the south could gradually decrease to 6 °C (43 °F) at 200 m (660 ft), then to 2 °C (36 °F) at 260 m (850 ft) and to 0.04–0.14 °C (32.07–32.25 °F) at 1,000–1,500 m (3,300–4,900 ft), but then it would rise to about 0.3 °C (32.5 °F) near the bottom. This cold layer at about 1,000 m (3,300 ft) is formed by sinking of cold water in
5688-417: The temperature is almost constant with the depth in the northern part of the sea. However, in central-southern parts, it may be 8–10 °C (46–50 °F) down to 100–150 m (330–490 ft), 2–4 °C (36–39 °F) at 200–250 m (660–820 ft), 1.0–1.5 °C (33.8–34.7 °F) at 400–500 m (1,300–1,600 ft) and then remain at about 0 °C (32 °F) until the bottom. Heating by
5767-457: The tidal wave of the Pacific Ocean penetrating through the Korea Strait and Tsugaru strait. The tides are semi-diurnal (rise twice a day) in the Korea Strait and in the northern part of the Strait of Tartary. They are diurnal at the eastern shore of Korea, Russian Far East and the Japanese islands of Honshū and Hokkaidō. Mixed tides occur in Peter the Great Gulf and Korea strait. The tidal waves have
5846-411: The wind over a small (isolated) and tall obstacle, and usually forms over small mountainous islands. The Sea of Japan meets these conditions as it has frequent winds and cloudy skies, as well as compact, tall islands such as Rishiri (1,721 m or 5,646 ft), Ulleungdo (984 m or 3,228 ft) and Ōshima (732 m or 2,402 ft). The International Hydrographic Organization defines
5925-469: The world, abandoned its most recent of several attempts in the last 25 years to revise its publication of the sea's name. This was primarily because of the lack of agreement between the Koreas and Japan over the naming issue. In September 2020, the IHO announced that it would adopt a new numerical system, also known as "S-130". In November 2020, S-23, the previous version of the nautical chart made in 1953 will be made public as an IHO publication to demonstrate
6004-491: Was established in June 1921 as the International Hydrographic Bureau (IHB). In 1970, the organization adopted its current name as part of a new International Convention on the IHO, which was agreed upon by its member nations. The term "International Hydrographic Bureau" continued to describe the IHO's secretariat until 8 November 2016, when a major revision to the Convention took effect. Following this change,
6083-620: Was held at Washington, D.C. , and it was proposed to establish a "permanent international commission." Similar proposals were made at the sessions of the International Congress of Navigation held at Saint Petersburg in 1908 and the International Maritime Conference held at Saint Petersburg in 1912. In 1919, the national Hydrographers of Great Britain and France cooperated in taking the necessary steps to convene an international conference of Hydrographers. London
6162-534: Was selected as the most suitable place for this conference, and on 24 July 1919, the First International Conference opened, attended by the Hydrographers of 24 nations. The object of the conference was "To consider the advisability of all maritime nations adopting similar methods in preparation, construction, and production of their charts and all hydrographic publications; of rendering the results in
6241-548: Was the display and capabilities of the ECDIS. The IHO has encouraged the formation of Regional Hydrographic Commissions (RHCs). Each RHC coordinates the national surveying and charting activities of countries within each region and acts as a forum to address other matters of common hydrographic interest. The 15 RHCs plus the IHO Hydrographic Commission on Antarctica effectively cover the world. The IHO, in partnership with
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