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Oceanography

February 16, 2024

For the scientific journal, see Oceanography (journal) and Ocean Science (journal).

Oceanography (from Ancient Greek ὠκεανός (ōkeanós) 'ocean', and γραφή (graphḗ) 'writing'), also known as oceanology, sea science, ocean science, and marine science, is the scientific study of the oceans. It is an Earth science, which covers a wide range of topics, including ecosystem dynamics; ocean currents, waves, and geophysical fluid dynamics; plate tectonics and seabed geology; and fluxes of various chemical substances and physical properties within the ocean and across its boundaries. These diverse topics reflect multiple disciplines that oceanographers utilize to glean further knowledge of the world ocean, including astronomy, biology, chemistry, geography, geology, hydrology, meteorology and physics. Paleoceanography studies the history of the oceans in the geologic past. An oceanographer is a person who studies many matters concerned with oceans, including marine geology, physics, chemistry, and biology.

Thermohaline circulation

History edit

 
Benjamin Franklin's 1770 map of the Gulf Stream

Early history edit

Humans first acquired knowledge of the waves and currents of the seas and oceans in pre-historic times. Observations on tides were recorded by Aristotle and Strabo in 384–322 BC.[1] Early exploration of the oceans was primarily for cartography and mainly limited to its surfaces and of the animals that fishermen brought up in nets, though depth soundings by lead line were taken.

The Portuguese campaign of Atlantic navigation is the earliest example of a systematic scientific large project, sustained over many decades, studying the currents and winds of the Atlantic.

The work of Pedro Nunes (1502–1578) is remembered in the navigation context for the determination of the loxodromic curve: the shortest course between two points on the surface of a sphere represented onto a two-dimensional map.[2][3] When he published his "Treatise of the Sphere" (1537), mostly a commentated translation of earlier work by others, he included a treatise on geometrical and astronomic methods of navigation. There he states clearly that Portuguese navigations were not an adventurous endeavour:

"nam se fezeram indo a acertar: mas partiam os nossos mareantes muy ensinados e prouidos de estromentos e regras de astrologia e geometria que sam as cousas que os cosmographos ham dadar apercebidas (...) e leuaua cartas muy particularmente rumadas e na ja as de que os antigos vsauam" (were not done by chance: but our seafarers departed well taught and provided with instruments and rules of astrology (astronomy) and geometry which were matters the cosmographers would provide (...) and they took charts with exact routes and no longer those used by the ancient).[4]

His credibility rests on being personally involved in the instruction of pilots and senior seafarers from 1527 onwards by Royal appointment, along with his recognized competence as mathematician and astronomer.[2] The main problem in navigating back from the south of the Canary Islands (or south of Boujdour) by sail alone, is due to the change in the regime of winds and currents: the North Atlantic gyre and the Equatorial counter current [5] will push south along the northwest bulge of Africa, while the uncertain winds where the Northeast trades meet the Southeast trades (the doldrums) [6] leave a sailing ship to the mercy of the currents. Together, prevalent current and wind make northwards progress very difficult or impossible. It was to overcome this problem and clear the passage to India around Africa as a viable maritime trade route, that a systematic plan of exploration was devised by the Portuguese. The return route from regions south of the Canaries became the 'volta do largo' or 'volta do mar'. The 'rediscovery' of the Azores islands in 1427 is merely a reflection of the heightened strategic importance of the islands, now sitting on the return route from the western coast of Africa (sequentially called 'volta de Guiné' and 'volta da Mina'); and the references to the Sargasso Sea (also called at the time 'Mar da Baga'), to the west of the Azores, in 1436, reveals the western extent of the return route.[7] This is necessary, under sail, to make use of the southeasterly and northeasterly winds away from the western coast of Africa, up to the northern latitudes where the westerly winds will bring the seafarers towards the western coasts of Europe.[8]

The secrecy involving the Portuguese navigations, with the death penalty for the leaking of maps and routes, concentrated all sensitive records in the Royal Archives, completely destroyed by the Lisbon earthquake of 1775. However, the systematic nature of the Portuguese campaign, mapping the currents and winds of the Atlantic, is demonstrated by the understanding of the seasonal variations, with expeditions setting sail at different times of the year taking different routes to take account of seasonal predominate winds. This happens from as early as late 15th century and early 16th: Bartolomeu Dias followed the African coast on his way south in August 1487, while Vasco da Gama would take an open sea route from the latitude of Sierra Leone, spending 3 months in the open sea of the South Atlantic to profit from the southwards deflection of the southwesterly on the Brazilian side (and the Brazilian current going southward) - Gama departed in July 1497); and Pedro Alvares Cabral, departing March 1500) took an even larger arch to the west, from the latitude of Cape Verde, thus avoiding the summer monsoon (which would have blocked the route taken by Gama at the time he set sail).[9] Furthermore, there were systematic expeditions pushing into the western Northern Atlantic (Teive, 1454; Vogado, 1462; Teles, 1474; Ulmo, 1486).[10] The documents relating to the supplying of ships, and the ordering of sun declination tables for the southern Atlantic for as early as 1493–1496,[11] all suggest a well-planned and systematic activity happening during the decade long period between Bartolomeu Dias finding the southern tip of Africa, and Gama's departure; additionally, there are indications of further travels by Bartolomeu Dias in the area.[7] The most significant consequence of this systematic knowledge was the negotiation of the Treaty of Tordesillas in 1494, moving the line of demarcation 270 leagues to the west (from 100 to 370 leagues west of the Azores), bringing what is now Brazil into the Portuguese area of domination. The knowledge gathered from open sea exploration allowed for the well-documented extended periods of sail without sight of land, not by accident but as pre-determined planned route; for example, 30 days for Bartolomeu Dias culminating on Mossel Bay, the 3 months Gama spent in the South Atlantic to use the Brazil current (southward), or the 29 days Cabral took from Cape Verde up to landing in Monte Pascoal, Brazil.

The Danish expedition to Arabia 1761–67 can be said to be the world's first oceanographic expedition, as the ship Grønland had on board a group of scientists, including naturalist Peter Forsskål, who was assigned an explicit task by the king, Frederik V, to study and describe the marine life in the open sea, including finding the cause of mareel, or milky seas. For this purpose, the expedition was equipped with nets and scrapers, specifically designed to collect samples from the open waters and the bottom at great depth.[12]

Although Juan Ponce de León in 1513 first identified the Gulf Stream, and the current was well known to mariners, Benjamin Franklin made the first scientific study of it and gave it its name. Franklin measured water temperatures during several Atlantic crossings and correctly explained the Gulf Stream's cause. Franklin and Timothy Folger printed the first map of the Gulf Stream in 1769–1770.[13][14]

 
1799 map of the currents in the Atlantic and Indian Oceans, by James Rennell

Information on the currents of the Pacific Ocean was gathered by explorers of the late 18th century, including James Cook and Louis Antoine de Bougainville. James Rennell wrote the first scientific textbooks on oceanography, detailing the current flows of the Atlantic and Indian oceans. During a voyage around the Cape of Good Hope in 1777, he mapped "the banks and currents at the Lagullas". He was also the first to understand the nature of the intermittent current near the Isles of Scilly, (now known as Rennell's Current).[15]

Sir James Clark Ross took the first modern sounding in deep sea in 1840, and Charles Darwin published a paper on reefs and the formation of atolls as a result of the second voyage of HMS Beagle in 1831–1836. Robert FitzRoy published a four-volume report of Beagle's three voyages. In 1841–1842 Edward Forbes undertook dredging in the Aegean Sea that founded marine ecology.

The first superintendent of the United States Naval Observatory (1842–1861), Matthew Fontaine Maury devoted his time to the study of marine meteorology, navigation, and charting prevailing winds and currents. His 1855 textbook Physical Geography of the Sea was one of the first comprehensive oceanography studies. Many nations sent oceanographic observations to Maury at the Naval Observatory, where he and his colleagues evaluated the information and distributed the results worldwide.[16]

Modern oceanography edit

Knowledge of the oceans remained confined to the topmost few fathoms of the water and a small amount of the bottom, mainly in shallow areas. Almost nothing was known of the ocean depths. The British Royal Navy's efforts to chart all of the world's coastlines in the mid-19th century reinforced the vague idea that most of the ocean was very deep, although little more was known. As exploration ignited both popular and scientific interest in the polar regions and Africa, so too did the mysteries of the unexplored oceans.

 
HMS Challenger undertook the first global marine research expedition in 1872.

The seminal event in the founding of the modern science of oceanography was the 1872–1876 Challenger expedition. As the first true oceanographic cruise, this expedition laid the groundwork for an entire academic and research discipline.[17] In response to a recommendation from the Royal Society, the British Government announced in 1871 an expedition to explore world's oceans and conduct appropriate scientific investigation. Charles Wyville Thomson and Sir John Murray launched the Challenger expedition. Challenger, leased from the Royal Navy, was modified for scientific work and equipped with separate laboratories for natural history and chemistry.[18] Under the scientific supervision of Thomson, Challenger travelled nearly 70,000 nautical miles (130,000 km) surveying and exploring. On her journey circumnavigating the globe,[18] 492 deep sea soundings, 133 bottom dredges, 151 open water trawls and 263 serial water temperature observations were taken.[19] Around 4,700 new species of marine life were discovered. The result was the Report Of The Scientific Results of the Exploring Voyage of H.M.S. Challenger during the years 1873–76. Murray, who supervised the publication, described the report as "the greatest advance in the knowledge of our planet since the celebrated discoveries of the fifteenth and sixteenth centuries". He went on to found the academic discipline of oceanography at the University of Edinburgh, which remained the centre for oceanographic research well into the 20th century.[20] Murray was the first to study marine trenches and in particular the Mid-Atlantic Ridge, and map the sedimentary deposits in the oceans. He tried to map out the world's ocean currents based on salinity and temperature observations, and was the first to correctly understand the nature of coral reef development.

In the late 19th century, other Western nations also sent out scientific expeditions (as did private individuals and institutions). The first purpose-built oceanographic ship, Albatros, was built in 1882. In 1893, Fridtjof Nansen allowed his ship, Fram, to be frozen in the Arctic ice. This enabled him to obtain oceanographic, meteorological and astronomical data at a stationary spot over an extended period.

 
Ocean currents (1911)
 
Writer and geographer John Francon Williams FRGS commemorative plaque, Clackmannan Cemetery 2019

In 1881 the geographer John Francon Williams published a seminal book, Geography of the Oceans.[21][22][23] Between 1907 and 1911 Otto Krümmel published the Handbuch der Ozeanographie, which became influential in awakening public interest in oceanography.[24] The four-month 1910 North Atlantic expedition headed by John Murray and Johan Hjort was the most ambitious research oceanographic and marine zoological project ever mounted until then, and led to the classic 1912 book The Depths of the Ocean.

The first acoustic measurement of sea depth was made in 1914. Between 1925 and 1927 the "Meteor" expedition gathered 70,000 ocean depth measurements using an echo sounder, surveying the Mid-Atlantic Ridge.

In 1934, Easter Ellen Cupp, the first woman to have earned a PhD (at Scripps) in the United States, completed a major work on diatoms[25] that remained the standard taxonomy in the field until well after her death in 1999. In 1940, Cupp was let go from her position at Scripps. Sverdrup specifically commended Cupp as a conscientious and industrious worker and commented that his decision was no reflection on her ability as a scientist. Sverdrup used the instructor billet vacated by Cupp to employ Marston Sargent,a biologist studying marine algae, which was not a new research program at Scripps. Financial pressures did not prevent Sverdrup from retaining the services of two other young post-doctoral students, Walter Munk and Roger Revelle. Cupp's partner, Dorothy Rosenbury, found her a position teaching high school, where she remained for the rest of her career. (Russell, 2000)

Sverdrup, Johnson and Fleming published The Oceans in 1942,[26] which was a major landmark. The Sea (in three volumes, covering physical oceanography, seawater and geology) edited by M.N. Hill was published in 1962, while Rhodes Fairbridge's Encyclopedia of Oceanography was published in 1966.

The Great Global Rift, running along the Mid Atlantic Ridge, was discovered by Maurice Ewing and Bruce Heezen in 1953 and mapped by Heezen and Marie Tharp using bathymetric data; in 1954 a mountain range under the Arctic Ocean was found by the Arctic Institute of the USSR. The theory of seafloor spreading was developed in 1960 by Harry Hammond Hess. The Ocean Drilling Program started in 1966. Deep-sea vents were discovered in 1977 by Jack Corliss and Robert Ballard in the submersible DSV Alvin.

In the 1950s, Auguste Piccard invented the bathyscaphe and used the bathyscaphe Trieste to investigate the ocean's depths. The United States nuclear submarine Nautilus made the first journey under the ice to the North Pole in 1958. In 1962 the FLIP (Floating Instrument Platform), a 355-foot (108 m) spar buoy, was first deployed.

In 1968, Tanya Atwater led the first all-woman oceanographic expedition. Until that time, gender policies restricted women oceanographers from participating in voyages to a significant extent.

From the 1970s, there has been much emphasis on the application of large scale computers to oceanography to allow numerical predictions of ocean conditions and as a part of overall environmental change prediction. Early techniques included analog computers (such as the Ishiguro Storm Surge Computer) generally now replaced by numerical methods (e.g. SLOSH.) An oceanographic buoy array was established in the Pacific to allow prediction of El Niño events.

1990 saw the start of the World Ocean Circulation Experiment (WOCE) which continued until 2002. Geosat seafloor mapping data became available in 1995.

Study of the oceans is critical to understanding shifts in Earth's energy balance along with related global and regional changes in climate, the biosphere and biogeochemistry. The atmosphere and ocean are linked because of evaporation and precipitation as well as thermal flux (and solar insolation). Recent studies have advanced knowledge on ocean acidification, ocean heat content, ocean currents, sea level rise, the oceanic carbon cycle, the water cycle, Arctic sea ice decline, coral bleaching, marine heatwaves, extreme weather, coastal erosion and many other phenomena in regards to ongoing climate change and climate feedbacks.

In general, understanding the world ocean through further scientific study enables better stewardship and sustainable utilization of Earth's resources.[27] The Intergovernmental Oceanographic Commission reports that 1.7% of the total national research expenditure of its members is focused on ocean science.[28]

Branches edit

 
Oceanographic frontal systems on the Southern Hemisphere
 
The Applied Marine Physics Building at the University of Miami's Rosenstiel School of Marine, Atmospheric, and Earth Science on Virginia Key, in September 2007

The study of oceanography is divided into these five branches:

Biological oceanography edit

Main article: Biological oceanography
See also: Marine biology

Biological oceanography investigates the ecology and biology of marine organisms in the context of the physical, chemical and geological characteristics of their ocean environment.

Chemical oceanography edit

Main article: Chemical oceanography

Chemical oceanography is the study of the chemistry of the ocean. Whereas chemical oceanography is primarily occupied with the study and understanding of seawater properties and its changes, ocean chemistry focuses primarily on the geochemical cycles. The following is a central topic investigated by chemical oceanography.

Ocean acidification edit

Main article: Ocean acidification

Ocean acidification describes the decrease in ocean pH that is caused by anthropogenic carbon dioxide (CO2) emissions into the atmosphere.[29] Seawater is slightly alkaline and had a preindustrial pH of about 8.2. More recently, anthropogenic activities have steadily increased the carbon dioxide content of the atmosphere; about 30–40% of the added CO2 is absorbed by the oceans, forming carbonic acid and lowering the pH (now below 8.1[30]) through ocean acidification.[31][32][33] The pH is expected to reach 7.7 by the year 2100.[34]

An important element for the skeletons of marine animals is calcium, but calcium carbonate becomes more soluble with pressure, so carbonate shells and skeletons dissolve below the carbonate compensation depth.[35] Calcium carbonate becomes more soluble at lower pH, so ocean acidification is likely to affect marine organisms with calcareous shells, such as oysters, clams, sea urchins and corals,[36][37] and the carbonate compensation depth will rise closer to the sea surface. Affected planktonic organisms will include pteropods, coccolithophorids and foraminifera, all important in the food chain. In tropical regions, corals are likely to be severely affected as they become less able to build their calcium carbonate skeletons,[38] in turn adversely impacting other reef dwellers.[34]

The current rate of ocean chemistry change seems to be unprecedented in Earth's geological history, making it unclear how well marine ecosystems will adapt to the shifting conditions of the near future.[39] Of particular concern is the manner in which the combination of acidification with the expected additional stressors of higher ocean temperatures and lower oxygen levels will impact the seas.[40]

Geological oceanography edit

Main article: Marine geology

Geological oceanography is the study of the geology of the ocean floor including plate tectonics and paleoceanography.

Physical oceanography edit

Main article: Physical oceanography

Physical oceanography studies the ocean's physical attributes including temperature-salinity structure, mixing, surface waves, internal waves, surface tides, internal tides, and currents. The following are central topics investigated by physical oceanography.

Seismic Oceanography edit

Main article: Seismic Oceanography

Ocean currents edit

Further information: Ocean current

Since the early ocean expeditions in oceanography, a major interest was the study of ocean currents and temperature measurements. The tides, the Coriolis effect, changes in direction and strength of wind, salinity, and temperature are the main factors determining ocean currents. The thermohaline circulation (THC) (thermo- referring to temperature and -haline referring to salt content) connects the ocean basins and is primarily dependent on the density of sea water. It is becoming more common to refer to this system as the 'meridional overturning circulation' because it more accurately accounts for other driving factors beyond temperature and salinity.

Ocean heat content edit

Oceans of Climate Change NASA
Further information: Oceanic heat content

Oceanic heat content (OHC) refers to the extra heat stored in the ocean from changes in Earth's energy balance. The increase in the ocean heat play an important role in sea level rise, because of thermal expansion. Ocean warming accounts for 90% of the energy accumulation associated with global warming since 1971.[41][42]

Paleoceanography edit

Main article: Paleoceanography

Paleoceanography is the study of the history of the oceans in the geologic past with regard to circulation, chemistry, biology, geology and patterns of sedimentation and biological productivity. Paleoceanographic studies using environment models and different proxies enable the scientific community to assess the role of the oceanic processes in the global climate by the reconstruction of past climate at various intervals. Paleoceanographic research is also intimately tied to palaeoclimatology.

Oceanographic institutions edit

 
Stazione Zoologica of Naples in the 1890s
See also: List of oceanographic institutions and programs

The earliest international organizations of oceanography were founded at the turn of the 20th century, starting with the International Council for the Exploration of the Sea created in 1902, followed in 1919 by the Mediterranean Science Commission. Marine research institutes were already in existence, starting with the Stazione Zoologica Anton Dohrn in Naples, Italy (1872), the Biological Station of Roscoff, France (1876), the Arago Laboratory in Banyuls-sur-mer, France (1882), the Laboratory of the Marine Biological Association in Plymouth, UK (1884), the Norwegian Institute for Marine Research in Bergen, Norway (1900), the Laboratory für internationale Meeresforschung, Kiel, Germany (1902). On the other side of the Atlantic, the Scripps Institution of Oceanography was founded in 1903, followed by the Woods Hole Oceanographic Institution in 1930, the Virginia Institute of Marine Science in 1938, the Lamont–Doherty Earth Observatory at Columbia University in 1949, and later the School of Oceanography at University of Washington. In Australia, the Australian Institute of Marine Science (AIMS), established in 1972 soon became a key player in marine tropical research.

In 1921 the International Hydrographic Bureau, called since 1970 the International Hydrographic Organization, was established to develop hydrographic and nautical charting standards

Related disciplines edit

  • Biogeochemistry – Study of chemical cycles of the earth that are either driven by or influence biological activity
  • Biogeography – Study of the distribution of species and ecosystems in geographic space and through geological time
  • Climatology – Scientific study of climate, defined as weather conditions averaged over a period of time
  • Coastal geography – Study of the region between the ocean and the land
  • Environmental science – The integrated, quantitative, and interdisciplinary approach to the study of environmental systems.
  • Geophysics – Physics of the Earth and its vicinity
  • Glaciology – Scientific study of ice and natural phenomena involving ice
  • Hydrography – Applied science of measurement and description of physical features of bodies of water
  • Hydrology – Science of the movement, distribution, and quality of water on Earth and other planets
  • Limnology – Science of inland aquatic ecosystems
  • Meteorology – Interdisciplinary scientific study of the atmosphere focusing on weather forecasting
  • MetOcean – The syllabic abbreviation of meteorology and (physical) oceanography.

See also edit

References edit

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Sources and further reading edit

  • Boling Guo, Daiwen Huang. Infinite-Dimensional Dynamical Systems in Atmospheric and Oceanic Science, 2014, World Scientific Publishing, ISBN 978-981-4590-37-2. Sample Chapter
  • Hamblin, Jacob Darwin (2005) Oceanographers and the Cold War: Disciples of Marine Science. University of Washington Press. ISBN 978-0-295-98482-7
  • Lang, Michael A., Ian G. Macintyre, and Klaus Rützler, eds. Proceedings of the Smithsonian Marine Science Symposium. Smithsonian Contributions to the Marine Sciences, no. 38. Washington, D.C.: Smithsonian Institution Scholarly Press (2009)
  • Roorda, Eric Paul, ed. The Ocean Reader: History, Culture, Politics (Duke University Press, 2020) 523 pp. online review
  • Steele, J., K. Turekian and S. Thorpe. (2001). Encyclopedia of Ocean Sciences. San Diego: Academic Press. (6 vols.) ISBN 0-12-227430-X
  • Sverdrup, Keith A., Duxbury, Alyn C., Duxbury, Alison B. (2006). Fundamentals of Oceanography, McGraw-Hill, ISBN 0-07-282678-9
  • Russell, Joellen Louise. Easter Ellen Cupp, 2000, Regents of the University of California.

External links edit

 
Wikisource has the text of the 1922 Encyclopædia Britannica article "Oceanography".
 
Wikimedia Commons has media related to Oceanography.
  • NASA Jet Propulsion Laboratory – Physical Oceanography Distributed Active Archive Center (PO.DAAC). A data centre responsible for archiving and distributing data about the physical state of the ocean.
  • Scripps Institution of Oceanography. One of the world's oldest, largest, and most important centres for ocean and Earth science research, education, and public service.
  • Woods Hole Oceanographic Institution (WHOI). One of the world's largest private, non-profit ocean research, engineering and education organizations.
  • British Oceanographic Data Centre. A source of oceanographic data and information.
  • . Plot and download ocean data.
  • Freeview Video 'Voyage to the Bottom of the Deep Deep Sea' Oceanography Programme by the Vega Science Trust and the BBC/Open University.
  • Atlas of Spanish Oceanography by .
  • by Steven K. Baum, Department of Oceanography, Texas A&M University
  • Barcelona-Ocean.com . Inspiring Education in Marine Sciences
  • . A source of oceanographic live data (buoy monitoring) and education for South African coasts.
  • Oceanography on In Our Time at the BBC
  • Memorial website for USNS Bowditch, USNS Dutton, USNS Michelson and USNS H. H. Hess

February 16, 2024
oceanography, scientific, journal, journal, ocean, science, journal, from, ancient, greek, ὠκεανός, ōkeanós, ocean, γραφή, graphḗ, writing, also, known, oceanology, science, ocean, science, marine, science, scientific, study, oceans, earth, science, which, cov. For the scientific journal see Oceanography journal and Ocean Science journal Oceanography from Ancient Greek ὠkeanos ōkeanos ocean and grafh graphḗ writing also known as oceanology sea science ocean science and marine science is the scientific study of the oceans It is an Earth science which covers a wide range of topics including ecosystem dynamics ocean currents waves and geophysical fluid dynamics plate tectonics and seabed geology and fluxes of various chemical substances and physical properties within the ocean and across its boundaries These diverse topics reflect multiple disciplines that oceanographers utilize to glean further knowledge of the world ocean including astronomy biology chemistry geography geology hydrology meteorology and physics Paleoceanography studies the history of the oceans in the geologic past An oceanographer is a person who studies many matters concerned with oceans including marine geology physics chemistry and biology Thermohaline circulation Contents 1 History 1 1 Early history 1 2 Modern oceanography 2 Branches 2 1 Biological oceanography 2 2 Chemical oceanography 2 2 1 Ocean acidification 2 3 Geological oceanography 2 4 Physical oceanography 2 4 1 Seismic Oceanography 2 4 2 Ocean currents 2 4 3 Ocean heat content 2 5 Paleoceanography 3 Oceanographic institutions 4 Related disciplines 5 See also 6 References 6 1 Sources and further reading 7 External linksHistory edit nbsp Benjamin Franklin s 1770 map of the Gulf StreamEarly history edit Humans first acquired knowledge of the waves and currents of the seas and oceans in pre historic times Observations on tides were recorded by Aristotle and Strabo in 384 322 BC 1 Early exploration of the oceans was primarily for cartography and mainly limited to its surfaces and of the animals that fishermen brought up in nets though depth soundings by lead line were taken The Portuguese campaign of Atlantic navigation is the earliest example of a systematic scientific large project sustained over many decades studying the currents and winds of the Atlantic The work of Pedro Nunes 1502 1578 is remembered in the navigation context for the determination of the loxodromic curve the shortest course between two points on the surface of a sphere represented onto a two dimensional map 2 3 When he published his Treatise of the Sphere 1537 mostly a commentated translation of earlier work by others he included a treatise on geometrical and astronomic methods of navigation There he states clearly that Portuguese navigations were not an adventurous endeavour nam se fezeram indo a acertar mas partiam os nossos mareantes muy ensinados e prouidos de estromentos e regras de astrologia e geometria que sam as cousas que os cosmographos ham dadar apercebidas e leuaua cartas muy particularmente rumadas e na ja as de que os antigos vsauam were not done by chance but our seafarers departed well taught and provided with instruments and rules of astrology astronomy and geometry which were matters the cosmographers would provide and they took charts with exact routes and no longer those used by the ancient 4 His credibility rests on being personally involved in the instruction of pilots and senior seafarers from 1527 onwards by Royal appointment along with his recognized competence as mathematician and astronomer 2 The main problem in navigating back from the south of the Canary Islands or south of Boujdour by sail alone is due to the change in the regime of winds and currents the North Atlantic gyre and the Equatorial counter current 5 will push south along the northwest bulge of Africa while the uncertain winds where the Northeast trades meet the Southeast trades the doldrums 6 leave a sailing ship to the mercy of the currents Together prevalent current and wind make northwards progress very difficult or impossible It was to overcome this problem and clear the passage to India around Africa as a viable maritime trade route that a systematic plan of exploration was devised by the Portuguese The return route from regions south of the Canaries became the volta do largo or volta do mar The rediscovery of the Azores islands in 1427 is merely a reflection of the heightened strategic importance of the islands now sitting on the return route from the western coast of Africa sequentially called volta de Guine and volta da Mina and the references to the Sargasso Sea also called at the time Mar da Baga to the west of the Azores in 1436 reveals the western extent of the return route 7 This is necessary under sail to make use of the southeasterly and northeasterly winds away from the western coast of Africa up to the northern latitudes where the westerly winds will bring the seafarers towards the western coasts of Europe 8 The secrecy involving the Portuguese navigations with the death penalty for the leaking of maps and routes concentrated all sensitive records in the Royal Archives completely destroyed by the Lisbon earthquake of 1775 However the systematic nature of the Portuguese campaign mapping the currents and winds of the Atlantic is demonstrated by the understanding of the seasonal variations with expeditions setting sail at different times of the year taking different routes to take account of seasonal predominate winds This happens from as early as late 15th century and early 16th Bartolomeu Dias followed the African coast on his way south in August 1487 while Vasco da Gama would take an open sea route from the latitude of Sierra Leone spending 3 months in the open sea of the South Atlantic to profit from the southwards deflection of the southwesterly on the Brazilian side and the Brazilian current going southward Gama departed in July 1497 and Pedro Alvares Cabral departing March 1500 took an even larger arch to the west from the latitude of Cape Verde thus avoiding the summer monsoon which would have blocked the route taken by Gama at the time he set sail 9 Furthermore there were systematic expeditions pushing into the western Northern Atlantic Teive 1454 Vogado 1462 Teles 1474 Ulmo 1486 10 The documents relating to the supplying of ships and the ordering of sun declination tables for the southern Atlantic for as early as 1493 1496 11 all suggest a well planned and systematic activity happening during the decade long period between Bartolomeu Dias finding the southern tip of Africa and Gama s departure additionally there are indications of further travels by Bartolomeu Dias in the area 7 The most significant consequence of this systematic knowledge was the negotiation of the Treaty of Tordesillas in 1494 moving the line of demarcation 270 leagues to the west from 100 to 370 leagues west of the Azores bringing what is now Brazil into the Portuguese area of domination The knowledge gathered from open sea exploration allowed for the well documented extended periods of sail without sight of land not by accident but as pre determined planned route for example 30 days for Bartolomeu Dias culminating on Mossel Bay the 3 months Gama spent in the South Atlantic to use the Brazil current southward or the 29 days Cabral took from Cape Verde up to landing in Monte Pascoal Brazil The Danish expedition to Arabia 1761 67 can be said to be the world s first oceanographic expedition as the ship Gronland had on board a group of scientists including naturalist Peter Forsskal who was assigned an explicit task by the king Frederik V to study and describe the marine life in the open sea including finding the cause of mareel or milky seas For this purpose the expedition was equipped with nets and scrapers specifically designed to collect samples from the open waters and the bottom at great depth 12 Although Juan Ponce de Leon in 1513 first identified the Gulf Stream and the current was well known to mariners Benjamin Franklin made the first scientific study of it and gave it its name Franklin measured water temperatures during several Atlantic crossings and correctly explained the Gulf Stream s cause Franklin and Timothy Folger printed the first map of the Gulf Stream in 1769 1770 13 14 nbsp 1799 map of the currents in the Atlantic and Indian Oceans by James RennellInformation on the currents of the Pacific Ocean was gathered by explorers of the late 18th century including James Cook and Louis Antoine de Bougainville James Rennell wrote the first scientific textbooks on oceanography detailing the current flows of the Atlantic and Indian oceans During a voyage around the Cape of Good Hope in 1777 he mapped the banks and currents at the Lagullas He was also the first to understand the nature of the intermittent current near the Isles of Scilly now known as Rennell s Current 15 Sir James Clark Ross took the first modern sounding in deep sea in 1840 and Charles Darwin published a paper on reefs and the formation of atolls as a result of the second voyage of HMS Beagle in 1831 1836 Robert FitzRoy published a four volume report of Beagle s three voyages In 1841 1842 Edward Forbes undertook dredging in the Aegean Sea that founded marine ecology The first superintendent of the United States Naval Observatory 1842 1861 Matthew Fontaine Maury devoted his time to the study of marine meteorology navigation and charting prevailing winds and currents His 1855 textbook Physical Geography of the Sea was one of the first comprehensive oceanography studies Many nations sent oceanographic observations to Maury at the Naval Observatory where he and his colleagues evaluated the information and distributed the results worldwide 16 Modern oceanography edit Knowledge of the oceans remained confined to the topmost few fathoms of the water and a small amount of the bottom mainly in shallow areas Almost nothing was known of the ocean depths The British Royal Navy s efforts to chart all of the world s coastlines in the mid 19th century reinforced the vague idea that most of the ocean was very deep although little more was known As exploration ignited both popular and scientific interest in the polar regions and Africa so too did the mysteries of the unexplored oceans nbsp HMS Challenger undertook the first global marine research expedition in 1872 The seminal event in the founding of the modern science of oceanography was the 1872 1876 Challenger expedition As the first true oceanographic cruise this expedition laid the groundwork for an entire academic and research discipline 17 In response to a recommendation from the Royal Society the British Government announced in 1871 an expedition to explore world s oceans and conduct appropriate scientific investigation Charles Wyville Thomson and Sir John Murray launched the Challenger expedition Challenger leased from the Royal Navy was modified for scientific work and equipped with separate laboratories for natural history and chemistry 18 Under the scientific supervision of Thomson Challenger travelled nearly 70 000 nautical miles 130 000 km surveying and exploring On her journey circumnavigating the globe 18 492 deep sea soundings 133 bottom dredges 151 open water trawls and 263 serial water temperature observations were taken 19 Around 4 700 new species of marine life were discovered The result was the Report Of The Scientific Results of the Exploring Voyage of H M S Challenger during the years 1873 76 Murray who supervised the publication described the report as the greatest advance in the knowledge of our planet since the celebrated discoveries of the fifteenth and sixteenth centuries He went on to found the academic discipline of oceanography at the University of Edinburgh which remained the centre for oceanographic research well into the 20th century 20 Murray was the first to study marine trenches and in particular the Mid Atlantic Ridge and map the sedimentary deposits in the oceans He tried to map out the world s ocean currents based on salinity and temperature observations and was the first to correctly understand the nature of coral reef development In the late 19th century other Western nations also sent out scientific expeditions as did private individuals and institutions The first purpose built oceanographic ship Albatros was built in 1882 In 1893 Fridtjof Nansen allowed his ship Fram to be frozen in the Arctic ice This enabled him to obtain oceanographic meteorological and astronomical data at a stationary spot over an extended period nbsp Ocean currents 1911 nbsp Writer and geographer John Francon Williams FRGS commemorative plaque Clackmannan Cemetery 2019In 1881 the geographer John Francon Williams published a seminal book Geography of the Oceans 21 22 23 Between 1907 and 1911 Otto Krummel published the Handbuch der Ozeanographie which became influential in awakening public interest in oceanography 24 The four month 1910 North Atlantic expedition headed by John Murray and Johan Hjort was the most ambitious research oceanographic and marine zoological project ever mounted until then and led to the classic 1912 book The Depths of the Ocean The first acoustic measurement of sea depth was made in 1914 Between 1925 and 1927 the Meteor expedition gathered 70 000 ocean depth measurements using an echo sounder surveying the Mid Atlantic Ridge In 1934 Easter Ellen Cupp the first woman to have earned a PhD at Scripps in the United States completed a major work on diatoms 25 that remained the standard taxonomy in the field until well after her death in 1999 In 1940 Cupp was let go from her position at Scripps Sverdrup specifically commended Cupp as a conscientious and industrious worker and commented that his decision was no reflection on her ability as a scientist Sverdrup used the instructor billet vacated by Cupp to employ Marston Sargent a biologist studying marine algae which was not a new research program at Scripps Financial pressures did not prevent Sverdrup from retaining the services of two other young post doctoral students Walter Munk and Roger Revelle Cupp s partner Dorothy Rosenbury found her a position teaching high school where she remained for the rest of her career Russell 2000 Sverdrup Johnson and Fleming published The Oceans in 1942 26 which was a major landmark The Sea in three volumes covering physical oceanography seawater and geology edited by M N Hill was published in 1962 while Rhodes Fairbridge s Encyclopedia of Oceanography was published in 1966 The Great Global Rift running along the Mid Atlantic Ridge was discovered by Maurice Ewing and Bruce Heezen in 1953 and mapped by Heezen and Marie Tharp using bathymetric data in 1954 a mountain range under the Arctic Ocean was found by the Arctic Institute of the USSR The theory of seafloor spreading was developed in 1960 by Harry Hammond Hess The Ocean Drilling Program started in 1966 Deep sea vents were discovered in 1977 by Jack Corliss and Robert Ballard in the submersible DSV Alvin In the 1950s Auguste Piccard invented the bathyscaphe and used the bathyscaphe Trieste to investigate the ocean s depths The United States nuclear submarine Nautilus made the first journey under the ice to the North Pole in 1958 In 1962 the FLIP Floating Instrument Platform a 355 foot 108 m spar buoy was first deployed In 1968 Tanya Atwater led the first all woman oceanographic expedition Until that time gender policies restricted women oceanographers from participating in voyages to a significant extent From the 1970s there has been much emphasis on the application of large scale computers to oceanography to allow numerical predictions of ocean conditions and as a part of overall environmental change prediction Early techniques included analog computers such as the Ishiguro Storm Surge Computer generally now replaced by numerical methods e g SLOSH An oceanographic buoy array was established in the Pacific to allow prediction of El Nino events 1990 saw the start of the World Ocean Circulation Experiment WOCE which continued until 2002 Geosat seafloor mapping data became available in 1995 Study of the oceans is critical to understanding shifts in Earth s energy balance along with related global and regional changes in climate the biosphere and biogeochemistry The atmosphere and ocean are linked because of evaporation and precipitation as well as thermal flux and solar insolation Recent studies have advanced knowledge on ocean acidification ocean heat content ocean currents sea level rise the oceanic carbon cycle the water cycle Arctic sea ice decline coral bleaching marine heatwaves extreme weather coastal erosion and many other phenomena in regards to ongoing climate change and climate feedbacks In general understanding the world ocean through further scientific study enables better stewardship and sustainable utilization of Earth s resources 27 The Intergovernmental Oceanographic Commission reports that 1 7 of the total national research expenditure of its members is focused on ocean science 28 Branches edit nbsp Oceanographic frontal systems on the Southern Hemisphere nbsp The Applied Marine Physics Building at the University of Miami s Rosenstiel School of Marine Atmospheric and Earth Science on Virginia Key in September 2007The study of oceanography is divided into these five branches Biological oceanography edit Main article Biological oceanography See also Marine biology Biological oceanography investigates the ecology and biology of marine organisms in the context of the physical chemical and geological characteristics of their ocean environment Chemical oceanography edit Main article Chemical oceanography Chemical oceanography is the study of the chemistry of the ocean Whereas chemical oceanography is primarily occupied with the study and understanding of seawater properties and its changes ocean chemistry focuses primarily on the geochemical cycles The following is a central topic investigated by chemical oceanography Ocean acidification edit Main article Ocean acidification Ocean acidification describes the decrease in ocean pH that is caused by anthropogenic carbon dioxide CO2 emissions into the atmosphere 29 Seawater is slightly alkaline and had a preindustrial pH of about 8 2 More recently anthropogenic activities have steadily increased the carbon dioxide content of the atmosphere about 30 40 of the added CO2 is absorbed by the oceans forming carbonic acid and lowering the pH now below 8 1 30 through ocean acidification 31 32 33 The pH is expected to reach 7 7 by the year 2100 34 An important element for the skeletons of marine animals is calcium but calcium carbonate becomes more soluble with pressure so carbonate shells and skeletons dissolve below the carbonate compensation depth 35 Calcium carbonate becomes more soluble at lower pH so ocean acidification is likely to affect marine organisms with calcareous shells such as oysters clams sea urchins and corals 36 37 and the carbonate compensation depth will rise closer to the sea surface Affected planktonic organisms will include pteropods coccolithophorids and foraminifera all important in the food chain In tropical regions corals are likely to be severely affected as they become less able to build their calcium carbonate skeletons 38 in turn adversely impacting other reef dwellers 34 The current rate of ocean chemistry change seems to be unprecedented in Earth s geological history making it unclear how well marine ecosystems will adapt to the shifting conditions of the near future 39 Of particular concern is the manner in which the combination of acidification with the expected additional stressors of higher ocean temperatures and lower oxygen levels will impact the seas 40 Geological oceanography edit Main article Marine geology Geological oceanography is the study of the geology of the ocean floor including plate tectonics and paleoceanography Physical oceanography edit Main article Physical oceanography Physical oceanography studies the ocean s physical attributes including temperature salinity structure mixing surface waves internal waves surface tides internal tides and currents The following are central topics investigated by physical oceanography Seismic Oceanography edit Main article Seismic Oceanography Ocean currents edit Further information Ocean current Since the early ocean expeditions in oceanography a major interest was the study of ocean currents and temperature measurements The tides the Coriolis effect changes in direction and strength of wind salinity and temperature are the main factors determining ocean currents The thermohaline circulation THC thermo referring to temperature and haline referring to salt content connects the ocean basins and is primarily dependent on the density of sea water It is becoming more common to refer to this system as the meridional overturning circulation because it more accurately accounts for other driving factors beyond temperature and salinity Examples of sustained currents are the Gulf Stream and the Kuroshio Current which are wind driven western boundary currents Ocean heat content edit source source source source source Oceans of Climate Change NASAFurther information Oceanic heat content Oceanic heat content OHC refers to the extra heat stored in the ocean from changes in Earth s energy balance The increase in the ocean heat play an important role in sea level rise because of thermal expansion Ocean warming accounts for 90 of the energy accumulation associated with global warming since 1971 41 42 Paleoceanography edit Main article Paleoceanography Paleoceanography is the study of the history of the oceans in the geologic past with regard to circulation chemistry biology geology and patterns of sedimentation and biological productivity Paleoceanographic studies using environment models and different proxies enable the scientific community to assess the role of the oceanic processes in the global climate by the reconstruction of past climate at various intervals Paleoceanographic research is also intimately tied to palaeoclimatology Oceanographic institutions edit nbsp Stazione Zoologica of Naples in the 1890sSee also List of oceanographic institutions and programs The earliest international organizations of oceanography were founded at the turn of the 20th century starting with the International Council for the Exploration of the Sea created in 1902 followed in 1919 by the Mediterranean Science Commission Marine research institutes were already in existence starting with the Stazione Zoologica Anton Dohrn in Naples Italy 1872 the Biological Station of Roscoff France 1876 the Arago Laboratory in Banyuls sur mer France 1882 the Laboratory of the Marine Biological Association in Plymouth UK 1884 the Norwegian Institute for Marine Research in Bergen Norway 1900 the Laboratory fur internationale Meeresforschung Kiel Germany 1902 On the other side of the Atlantic the Scripps Institution of Oceanography was founded in 1903 followed by the Woods Hole Oceanographic Institution in 1930 the Virginia Institute of Marine Science in 1938 the Lamont Doherty Earth Observatory at Columbia University in 1949 and later the School of Oceanography at University of Washington In Australia the Australian Institute of Marine Science AIMS established in 1972 soon became a key player in marine tropical research In 1921 the International Hydrographic Bureau called since 1970 the International Hydrographic Organization was established to develop hydrographic and nautical charting standardsRelated disciplines editBiogeochemistry Study of chemical cycles of the earth that are either driven by or influence biological activity Biogeography Study of the distribution of species and ecosystems in geographic space and through geological time Climatology Scientific study of climate defined as weather conditions averaged over a period of time Coastal geography Study of the region between the ocean and the land Environmental science The integrated quantitative and interdisciplinary approach to the study of environmental systems Geophysics Physics of the Earth and its vicinity Glaciology Scientific study of ice and natural phenomena involving ice Hydrography Applied science of measurement and description of physical features of bodies of water Hydrology Science of the movement distribution and quality of water on Earth and other planets Limnology Science of inland aquatic ecosystems Meteorology Interdisciplinary scientific study of the atmosphere focusing on weather forecasting MetOcean The syllabic abbreviation of meteorology and physical oceanography Pages displaying short descriptions of redirect targetsSee also edit nbsp Oceans portal nbsp Underwater diving portalAnoxic event Historic oxygen depletion events in Earth s oceans Anoxic waters Areas of sea water fresh water or groundwater that are depleted of dissolved oxygen Argo oceanography International oceanographic observation program Astrooceanography Study of oceans outside planet EarthPages displaying short descriptions of redirect targets Bathymetric chart Map depicting the submerged terrain of bodies of water Cabled observatory Seabed oceanographic research platforms connected to the surface by undersea cables Ecological forecasting forecasting the responses of ecological systems to changing environmentPages displaying wikidata descriptions as a fallback List of ocean circulation models Models used in physical oceanography List of seas List of submarine topographical features Oceanic landforms and topographic elements Maritime archaeology Archaeological study of human interaction with the sea Marine current power Extraction of power from ocean currents Marine engineering Engineering and design of shipboard systems Naval architecture Engineering discipline dealing with the design and construction of marine vessels Ocean colonization Type of ocean claim Oceans Act of 2000 US law to establish policy on the oceans Ocean optics Ocean color Offshore construction Installation of structures and facilities in a marine environment Outline of oceanography Hierarchical outline list of articles related to oceanography Planetary oceanography Study of oceans outside planet Earth Sea level Geographical reference point from which various heights are measured Ocean chemistryReferences edit A History Of The Study Of Marine Biology MarineBio Conservation Society 17 June 2018 Retrieved 17 May 2021 a b Pedro Nunes Salaciense at the MacTutor History of Mathematics archive retrieved 13 06 2020 W G L Randles Pedro Nunes and the Discovery of the Loxodromic Curve or How in the 16th Century Navigating with a Globe had Failed to Solve the Difficulties Encountered with the Plane Chart Revista da Universidade Coimbra 35 1989 119 30 Pedro Nunes Salaciense Tratado da Esfera cap Carta de Marear com o Regimento da Altura p 2 https archive org details tratadodaspherac00sacr page n123 mode 2up retrieved 13 06 2020 http ksuweb kennesaw edu jdirnber oceanography LecuturesOceanogr LecCurrents LecCurrents html retrieved 13 06 2020 https kids britannica com students assembly view 166714 retrieved 13 06 2020 a b Carlos Calinas Correia A Arte de Navegar na Epoca dos Descobrimentos Colibri Lisboa 2017 ISBN 978 989 689 656 0 Map PDF upload wikimedia org Retrieved 15 September 2020 Carlos Viegas Gago Coutinho A Viagem de Bartolomeu Dias Anais Clube Militar Naval May 1946 Carlos Viegas Gago Coutinho As Primeiras Travessia Atlanticas lecture Academia Portuguesa de Historia 22 04 1942 in Anais APH 1949 II serie vol 2 Luis Adao da Fonseca Pedro Alvares Cabral Uma Viagem INAPA Lisboa 1999 p 48 Wolff Torben 1969 Danish Expeditions on the Seven Seas Copenhagen Rhodos 1785 Benjamin Franklin s Sundry Maritime Observations Archived from the original on 18 December 2005 Wilkinson Jerry History of the Gulf Stream 1 January 2008 Lee Sidney ed 1896 Rennell James Dictionary of National Biography Vol 48 London Smith Elder amp Co Williams Frances L Matthew Fontaine Maury Scientist of the Sea 1969 ISBN 0 8135 0433 3 Then and Now The HMS Challenger Expedition and the Mountains in the Sea Expedition Ocean Explorer website NOAA accessed 2 January 2012 a b Rice A L 1999 The Challenger Expedition Understanding the Oceans Marine Science in the Wake of HMS Challenger Routledge pp 27 48 ISBN 978 1 85728 705 9 Oceanography an introduction to the marine environment Peter K Weyl 1970 p 49 Sir John Murray 1841 1914 Founder Of Modern Oceanography Science and Engineering at The University of Edinburgh Archived from the original on 28 May 2013 Retrieved 7 November 2013 Williams J Francon 1881 The Geography of the Oceans Physical Historical and Descriptive George Philip amp Son Geography of the Oceans by John Francon Williams 1881 OCLC 561275070 John Francon Williams commemorated article Alloa Advertiser retrieved 26 September 2019 https www alloaadvertiser com news 17928655 long awaiting tribute pioneering writer buried clacks Otto Krummel 1907 Handbuch der Ozeanographie J Engelhorn Women passes test become oceanographer The Whittier News 10 May 1934 p 13 Retrieved 11 February 2023 Sverdrup Harald Ulrik Johnson Martin Wiggo Fleming Richard H 1942 The Oceans Their Physics Chemistry and General Biology New York Prentice Hall Oceanography science Encyclopedia Britannica Retrieved 13 April 2019 Isensee Kirsten editor Intergovernmental Oceanographic Commission 2020 Global ocean science report 2020 charting capacity for ocean sustainability Executive summary ISBN 978 92 3 100424 7 UNESCO Digital Library website p 16 Retrieved 21 September 2022 Caldeira K Wickett M E 2003 Anthropogenic carbon and ocean pH PDF Nature 425 6956 OS11C 0385 Bibcode 2001AGUFMOS11C0385C doi 10 1038 425365a PMID 14508477 S2CID 4417880 Archived PDF from the original on 4 June 2007 Ocean Acidity EPA 13 September 2013 Retrieved 1 November 2013 Feely R A et al July 2004 Impact of Anthropogenic CO2 on the CaCO3 System in the Oceans Science 305 5682 362 366 Bibcode 2004Sci 305 362F doi 10 1126 science 1097329 PMID 15256664 S2CID 31054160 Zeebe R E Zachos J C Caldeira K Tyrrell T 4 July 2008 OCEANS Carbon Emissions and Acidification Science 321 5885 51 52 doi 10 1126 science 1159124 PMID 18599765 S2CID 206513402 Gattuso J P Hansson L 15 September 2011 Ocean Acidification Oxford University Press ISBN 978 0 19 959109 1 OCLC 730413873 a b Ocean acidification Department of Sustainability Environment Water Population amp Communities Australian Antarctic Division 28 September 2007 Retrieved 17 April 2013 Pinet Paul R 1996 Invitation to Oceanography West Publishing Company pp 126 134 135 ISBN 978 0 314 06339 7 What is Ocean Acidification NOAA PMEL Carbon Program Retrieved 15 September 2013 Orr James C et al 2005 Anthropogenic ocean acidification over the twenty first century and its impact on calcifying organisms PDF Nature 437 7059 681 686 Bibcode 2005Natur 437 681O doi 10 1038 nature04095 PMID 16193043 S2CID 4306199 Archived from the original PDF on 25 June 2008 Cohen A Holcomb M 2009 Why Corals Care About Ocean Acidification Uncovering the Mechanism Oceanography 24 4 118 127 doi 10 5670 oceanog 2009 102 hdl 1912 3179 Honisch Barbel Ridgwell Andy Schmidt Daniela N Thomas E et al 2012 The Geological Record of Ocean Acidification PDF Science 335 6072 1058 1063 Bibcode 2012Sci 335 1058H doi 10 1126 science 1208277 hdl 1983 24fe327a c509 4b6a aa9a a22616c42d49 PMID 22383840 S2CID 6361097 Gruber N 18 April 2011 Warming up turning sour losing breath ocean biogeochemistry under global change Philosophical Transactions of the Royal Society A Mathematical Physical and Engineering Sciences 369 1943 1980 96 Bibcode 2011RSPTA 369 1980G doi 10 1098 rsta 2011 0003 PMID 21502171 IPCC 2013 Climate Change 2013 The Physical Science Basis PDF Report Cambridge University Press p 8 Archived PDF from the original on 29 October 2014 Laura Snider 13 January 2021 2020 was a record breaking year for ocean heat Warmer ocean waters contribute to sea level rise and strengthen storms National Center for Atmospheric Research Sources and further reading edit Boling Guo Daiwen Huang Infinite Dimensional Dynamical Systems in Atmospheric and Oceanic Science 2014 World Scientific Publishing ISBN 978 981 4590 37 2 Sample Chapter Hamblin Jacob Darwin 2005 Oceanographers and the Cold War Disciples of Marine Science University of Washington Press ISBN 978 0 295 98482 7 Lang Michael A Ian G Macintyre and Klaus Rutzler eds Proceedings of the Smithsonian Marine Science Symposium Smithsonian Contributions to the Marine Sciences no 38 Washington D C Smithsonian Institution Scholarly Press 2009 Roorda Eric Paul ed The Ocean Reader History Culture Politics Duke University Press 2020 523 pp online review Steele J K Turekian and S Thorpe 2001 Encyclopedia of Ocean Sciences San Diego Academic Press 6 vols ISBN 0 12 227430 X Sverdrup Keith A Duxbury Alyn C Duxbury Alison B 2006 Fundamentals of Oceanography McGraw Hill ISBN 0 07 282678 9 Russell Joellen Louise Easter Ellen Cupp 2000 Regents of the University of California External links edit nbsp Wikisource has the text of the 1922 Encyclopaedia Britannica article Oceanography nbsp Wikimedia Commons has media related to Oceanography NASA Jet Propulsion Laboratory Physical Oceanography Distributed Active Archive Center PO DAAC A data centre responsible for archiving and distributing data about the physical state of the ocean Scripps Institution of Oceanography One of the world s oldest largest and most important centres for ocean and Earth science research education and public service Woods Hole Oceanographic Institution WHOI One of the world s largest private non profit ocean research engineering and education organizations British Oceanographic Data Centre A source of oceanographic data and information NOAA Ocean and Weather Data Navigator Plot and download ocean data Freeview Video Voyage to the Bottom of the Deep Deep Sea Oceanography Programme by the Vega Science Trust and the BBC Open University Atlas of Spanish Oceanography by InvestigAdHoc Glossary of Physical Oceanography and Related Disciplines by Steven K Baum Department of Oceanography Texas A amp M University Barcelona Ocean com Inspiring Education in Marine Sciences CFOO Sea Atlas A source of oceanographic live data buoy monitoring and education for South African coasts Oceanography on In Our Time at the BBC Memorial website for USNS Bowditch USNS Dutton USNS Michelson and USNS H H Hess Retrieved from https en wikipedia org w index php title Oceanography amp oldid 1205103238, wikipedia, wiki, book, books, library,

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