Jump to content

Ocean: Difference between revisions

Edit links
Page semi-protected
From Wikipedia, the free encyclopedia
Browse history interactively
← Previous editNext edit →
Content deleted Content added
VisualWikitext
the webster ref said nearly three fourth, but I guess the 71% value is better.
→‎Terminology: moved content from World ocean in preparation for merger. See that page for attribution history.
Line 24: Line 24:
The phrases "the ocean" or "the [[sea]]" used without specification refer to the interconnected body of salt water covering the majority of the Earth's surface.<ref name="oed.130201">{{cite web |url=http://www.oed.com/view/Entry/130201?redirectedFrom=ocean#eid |title=ocean, n |publisher=Oxford English Dictionary |access-date=February 5, 2012 }}</ref><ref name="mw.ocean">{{cite web |url=http://www.merriam-webster.com/dictionary/ocean |title=ocean |publisher=Merriam-Webster |access-date=February 6, 2012 }}</ref> it includes the [[Atlantic Ocean|Atlantic]], [[Pacific Ocean|Pacific]], [[Indian Ocean|Indian]], [[Southern Ocean|Southern]] and [[Arctic Ocean|Arctic Oceans]].<ref>{{cite web|title=Sea|url=http://www.merriam-webster.com/dictionary/sea|access-date=13 March 2013|publisher=Merriam-webster.com}}</ref> As a general term, "the ocean" is mostly interchangeable with "the sea" in [[American English]], but not in [[British English]].<ref>Bromhead, Helen, [https://books.google.co.uk/books?id=L4JvDwAAQBAJ&pg=PA92 ''Landscape and Culture – Cross-linguistic Perspectives''], p. 92, John Benjamins Publishing Company, 2018, {{ISBN|9027264007}}, 9789027264008; unlike Americans, speakers of [[British English]] do not go swimming in "the ocean" but always "the sea".</ref> Strictly speaking, a ''[[sea]]'' is a body of water (generally a division of the world ocean) partly or fully enclosed by land.<ref name="pri.sea">{{cite web|title=WordNet Search — sea|url=http://wordnetweb.princeton.edu/perl/webwn?s=sea|access-date=February 21, 2012|publisher=Princeton University}}</ref> The word "sea" can also be used for many specific, much smaller bodies of seawater, such as the [[North Sea]] or the [[Red Sea]]. There is no sharp distinction between seas and oceans, though generally seas are smaller, and are often partly (as [[Marginal sea|marginal seas]]) or wholly (as [[Inland sea (geology)|inland seas]]) bordered by land.<ref name="oceanservice.noaa2">{{cite web|title=What's the difference between an ocean and a sea?|url=http://oceanservice.noaa.gov/facts/oceanorsea.html|access-date=19 April 2013|work=Ocean facts|publisher=National Oceanic and Atmospheric Administration}}</ref>
The phrases "the ocean" or "the [[sea]]" used without specification refer to the interconnected body of salt water covering the majority of the Earth's surface.<ref name="oed.130201">{{cite web |url=http://www.oed.com/view/Entry/130201?redirectedFrom=ocean#eid |title=ocean, n |publisher=Oxford English Dictionary |access-date=February 5, 2012 }}</ref><ref name="mw.ocean">{{cite web |url=http://www.merriam-webster.com/dictionary/ocean |title=ocean |publisher=Merriam-Webster |access-date=February 6, 2012 }}</ref> it includes the [[Atlantic Ocean|Atlantic]], [[Pacific Ocean|Pacific]], [[Indian Ocean|Indian]], [[Southern Ocean|Southern]] and [[Arctic Ocean|Arctic Oceans]].<ref>{{cite web|title=Sea|url=http://www.merriam-webster.com/dictionary/sea|access-date=13 March 2013|publisher=Merriam-webster.com}}</ref> As a general term, "the ocean" is mostly interchangeable with "the sea" in [[American English]], but not in [[British English]].<ref>Bromhead, Helen, [https://books.google.co.uk/books?id=L4JvDwAAQBAJ&pg=PA92 ''Landscape and Culture – Cross-linguistic Perspectives''], p. 92, John Benjamins Publishing Company, 2018, {{ISBN|9027264007}}, 9789027264008; unlike Americans, speakers of [[British English]] do not go swimming in "the ocean" but always "the sea".</ref> Strictly speaking, a ''[[sea]]'' is a body of water (generally a division of the world ocean) partly or fully enclosed by land.<ref name="pri.sea">{{cite web|title=WordNet Search — sea|url=http://wordnetweb.princeton.edu/perl/webwn?s=sea|access-date=February 21, 2012|publisher=Princeton University}}</ref> The word "sea" can also be used for many specific, much smaller bodies of seawater, such as the [[North Sea]] or the [[Red Sea]]. There is no sharp distinction between seas and oceans, though generally seas are smaller, and are often partly (as [[Marginal sea|marginal seas]]) or wholly (as [[Inland sea (geology)|inland seas]]) bordered by land.<ref name="oceanservice.noaa2">{{cite web|title=What's the difference between an ocean and a sea?|url=http://oceanservice.noaa.gov/facts/oceanorsea.html|access-date=19 April 2013|work=Ocean facts|publisher=National Oceanic and Atmospheric Administration}}</ref>


===World Ocean===
The global, interconnected body of salt water is sometimes referred to as the "[[World Ocean]]" or global ocean.<ref name="autogenerated1">{{cite web|title=Ocean|url=https://www.sciencedaily.com/articles/o/ocean.htm|access-date=2012-11-08|publisher=Sciencedaily.com}}</ref><ref name="UNAoO">"{{cite web|title=Distribution of land and water on the planet|url=http://www.oceansatlas.org/unatlas/about/physicalandchemicalproperties/background/seemore1.html|url-status=dead|archive-url=https://web.archive.org/web/20160303234925/http://www.oceansatlas.org/unatlas/about/physicalandchemicalproperties/background/seemore1.html|archive-date=2016-03-03|work=UN Atlas of the Oceans}}</ref> The concept of a continuous body of water with relatively free interchange among its parts is of fundamental importance to [[oceanography]].<ref name="spil.42">{{cite journal|last=Spilhaus|first=Athelstan F.|date=July 1942|title=Maps of the whole world ocean|journal=Geographical Review|volume=32|issue=3|pages=431–5|doi=10.2307/210385|jstor=210385}}</ref> The contemporary concept of the ''World Ocean'' was coined in the early 20th century by the [[Russian Empire|Russian]] oceanographer [[Yuly Shokalsky]] to refer to the continuous ocean that covers and encircles most of Earth.<ref>{{cite book|author=Bruckner, Lynne and Dan Brayton|url=https://archive.org/details/ecocriticalshake0000bruc|title=Ecocritical Shakespeare (Literary and Scientific Cultures of Early Modernity)|publisher=Ashgate Publishing, Ltd|year=2011|isbn=978-0754669197|url-access=registration}}</ref> A global ocean has existed in one form or another on Earth for eons.
{{See|Ocean current|Thermohaline circulation|Ocean general circulation model}}
The global, interconnected body of salt water is sometimes referred to as the "[[World Ocean]]" or global ocean.<ref name="autogenerated1">{{cite web|title=Ocean|url=https://www.sciencedaily.com/articles/o/ocean.htm|access-date=2012-11-08|publisher=Sciencedaily.com}}</ref><ref name="UNAoO">"{{cite web|title=Distribution of land and water on the planet|url=http://www.oceansatlas.org/unatlas/about/physicalandchemicalproperties/background/seemore1.html|url-status=dead|archive-url=https://web.archive.org/web/20160303234925/http://www.oceansatlas.org/unatlas/about/physicalandchemicalproperties/background/seemore1.html|archive-date=2016-03-03|work=UN Atlas of the Oceans}}</ref> The concept of a continuous body of water with relatively free interchange among its parts is of fundamental importance to [[oceanography]].<ref name="spil.42">{{cite journal|last=Spilhaus|first=Athelstan F.|date=July 1942|title=Maps of the whole world ocean|journal=Geographical Review|volume=32|issue=3|pages=431–5|doi=10.2307/210385|jstor=210385}}</ref> The contemporary concept of the ''World Ocean'' was coined in the early 20th century by the [[Russian Empire|Russian]] oceanographer [[Yuly Shokalsky]] to refer to the continuous ocean that covers and encircles most of Earth.<ref>{{cite book|author=Bruckner, Lynne and Dan Brayton|url=https://archive.org/details/ecocriticalshake0000bruc|title=Ecocritical Shakespeare (Literary and Scientific Cultures of Early Modernity)|publisher=Ashgate Publishing, Ltd|year=2011|isbn=978-0754669197|url-access=registration}}</ref> [[Plate tectonics]], [[post-glacial rebound]], and [[sea level rise]] continually change the coastline and structure of the world ocean. That said a global ocean has existed in one form or another on Earth for eons.


===Etymology===
===Etymology===

Revision as of 14:07, 14 March 2021

See also: Sea

For other uses, see Ocean (disambiguation).
World map of the five-ocean model with approximate boundaries
Earth's ocean

Main five oceans division:

Further subdivision:

Marginal seas

An ocean (or sea) is the body of salt water which covers approximately 71% of the surface of the Earth.[1] It is also "any of the large bodies of water into which the great ocean is divided".[1] These five oceans are, in descending order by area, the Pacific, Atlantic, Indian, Southern (Antarctic), and Arctic Oceans.[2][3]

Saline seawater covers approximately 361,000,000 km2 (139,000,000 sq mi) and is customarily divided into several principal oceans and smaller seas, with the ocean as a whole covering approximately 71% of Earth's surface and 90% of the Earth's biosphere.[4] The oceans contains 97% of Earth's water, and oceanographers have stated that less than 20% of the oceans have been mapped.[4] The total volume is approximately 1.35 billion cubic kilometers (320 million cu mi) with an average depth of nearly 3,700 meters (12,100 ft).[5][6][7]

As the world's ocean is the principal component of Earth's hydrosphere, it is integral to life, forms part of the carbon cycle, and influences climate and weather patterns. The ocean is the habitat of 230,000 known species, but because much of it is unexplored, the number of species in the ocean is much larger, possibly over two million.[8] The origin of Earth's oceans is unknown; oceans are thought to have formed in the Hadean eon and may have been the cause for the emergence of life.

There are numerous environmental issues for oceans which include for example marine pollution, overfishing, ocean acidification and other effects of climate change on oceans.

Extraterrestrial oceans may be composed of water or other elements and compounds. The only confirmed large stable bodies of extraterrestrial surface liquids are the lakes of Titan, although there is evidence for oceans' existence elsewhere in the Solar System.

Terminology

The Atlantic, one component of the system, makes up 23% of the "global ocean".
Surface view of the Atlantic Ocean

The phrases "the ocean" or "the sea" used without specification refer to the interconnected body of salt water covering the majority of the Earth's surface.[2][3] it includes the Atlantic, Pacific, Indian, Southern and Arctic Oceans.[9] As a general term, "the ocean" is mostly interchangeable with "the sea" in American English, but not in British English.[10] Strictly speaking, a sea is a body of water (generally a division of the world ocean) partly or fully enclosed by land.[11] The word "sea" can also be used for many specific, much smaller bodies of seawater, such as the North Sea or the Red Sea. There is no sharp distinction between seas and oceans, though generally seas are smaller, and are often partly (as marginal seas) or wholly (as inland seas) bordered by land.[12]

World Ocean

Further information: Ocean current, Thermohaline circulation, and Ocean general circulation model

The global, interconnected body of salt water is sometimes referred to as the "World Ocean" or global ocean.[13][14] The concept of a continuous body of water with relatively free interchange among its parts is of fundamental importance to oceanography.[15] The contemporary concept of the World Ocean was coined in the early 20th century by the Russian oceanographer Yuly Shokalsky to refer to the continuous ocean that covers and encircles most of Earth.[16] Plate tectonics, post-glacial rebound, and sea level rise continually change the coastline and structure of the world ocean. That said a global ocean has existed in one form or another on Earth for eons.

Etymology

The word ocean comes from the figure in classical antiquity, Oceanus (/ˈsənəs/; Greek: Ὠκεανός Ōkeanós,[17] pronounced [ɔːkeanós]), the elder of the Titans in classical Greek mythology, believed by the ancient Greeks and Romans to be the divine personification of an enormous river encircling the world.

The concept of Ōkeanós has an Indo-European connection. Greek Ōkeanós has been compared to the Vedic epithet ā-śáyāna-, predicated of the dragon Vṛtra-, who captured the cows/rivers. Related to this notion, the Okeanos is represented with a dragon-tail on some early Greek vases.[18]

Geography

Rotating series of maps showing alternate divisions of the oceans
Various ways to divide the World Ocean

Oceanic divisions

Further information: Borders of the oceans

The major oceanic divisions – listed below in descending order of area and volume – are defined in part by the continents, various archipelagos, and other criteria.[7][19][20]

Oceans
# Ocean Location Area
(km2)
(%)		 Volume
(km3)
(%)		 Avg. depth
(m)		 Coastline
(km)
1 Pacific Ocean Separates Asia and Australasia from the Americas[21] 168,723,000
46.6		 669,880,000
50.1		 3,970 135,663
2 Atlantic Ocean Separates the Americas from Europe and Africa[22] 85,133,000
23.5		 310,410,900
23.3		 3,646 111,866
3 Indian Ocean Borders southern Asia and separates Africa and Australia[23] 70,560,000
19.5		 264,000,000
19.8		 3,741 66,526
4 Southern Ocean Encircles Antarctica. Sometimes considered an extension of the Pacific, Atlantic and Indian Oceans,[24][25] 21,960,000
6.1		 71,800,000
5.4		 3,270 17,968
5 Arctic Ocean Borders northern North America and Eurasia and covers much of the Arctic. Sometimes considered a sea or estuary of the Atlantic.[26][27] [28] 15,558,000
4.3		 18,750,000
1.4		 1,205 45,389
Total 361,900,000
100		 1.335×10^9
100		 3,688 377,412
[29]
NB: Volume, area, and average depth figures include NOAA ETOPO1 figures for marginal South China Sea.
Sources: Encyclopedia of Earth,[21][22][23][24][28] International Hydrographic Organization,[25] Regional Oceanography: an Introduction (Tomczak, 2005),[26] Encyclopædia Britannica,[27] and the International Telecommunication Union.[29]

Oceans are fringed by smaller, adjoining bodies of water such as, seas, gulfs, bays, bights, and straits.

Seas and Bays
# Sea Location Area
(km2)
1 Arabian Sea Between the Arabian Peninsula and the Indian subcontinent 3,862,000
2 Bay of Bengal Between the Indian subcontinent and the Malay Peninsula 2,600,000

Ocean ridges

World Distribution of Mid-Oceanic Ridges; USGS
Three main types of plate boundaries.

The mid-ocean ridges of the world are connected and form a single global mid-oceanic ridge system that is part of every ocean and the longest mountain range in the world. The continuous mountain range is 65,000 km (40,000 mi) long (several times longer than the Andes, the longest continental mountain range).[30]

Physical properties

Main article: Seawater

The total mass of the hydrosphere is about 1.4 quintillion tonnes (1.4×1018 long tons or 1.5×1018 short tons), which is about 0.023% of Earth's total mass. Less than 3% is freshwater; the rest is saltwater, almost all of which is in the ocean. The area of the World Ocean is about 361.9 million square kilometers (139.7 million square miles),[7] which covers about 70.9% of Earth's surface, and its volume is approximately 1.335 billion cubic kilometers (320.3 million cubic miles).[7] This can be thought of as a cube of water with an edge length of 1,101 kilometers (684 mi). Its average depth is about 3,688 meters (12,100 ft),[7] and its maximum depth is 10,994 meters (6.831 mi) at the Mariana Trench.[31] Nearly half of the world's marine waters are over 3,000 meters (9,800 ft) deep.[14] The vast expanses of deep ocean (anything below 200 meters or 660 feet) cover about 66% of Earth's surface.[32] This does not include seas not connected to the World Ocean, such as the Caspian Sea.

The bluish ocean color is a composite of several contributing agents. Prominent contributors include dissolved organic matter and chlorophyll.[33] Mariners and other seafarers have reported that the ocean often emits a visible glow which extends for miles at night. In 2005, scientists announced that for the first time, they had obtained photographic evidence of this glow.[34] It is most likely caused by bioluminescence.[35][36][37]

Oceanic zones

Drawing showing divisions according to depth and distance from shore
The major oceanic zones, based on depth and biophysical conditions
Further information: Pelagic zone and Oceanic zone

Oceanographers divide the ocean into different vertical zones defined by physical and biological conditions. The pelagic zone includes all open ocean regions, and can be divided into further regions categorized by depth and light abundance. The photic zone includes the oceans from the surface to a depth of 200 m; it is the region where photosynthesis can occur and is, therefore, the most biodiverse. Because plants require photosynthesis, life found deeper than the photic zone must either rely on material sinking from above (see marine snow) or find another energy source. Hydrothermal vents are the primary source of energy in what is known as the aphotic zone (depths exceeding 200 m). The pelagic part of the photic zone is known as the epipelagic.

The pelagic part of the aphotic zone can be further divided into vertical regions according to temperature. The mesopelagic is the uppermost region. Its lowermost boundary is at a thermocline of 12 °C (54 °F), which, in the tropics generally lies at 700–1,000 meters (2,300–3,300 ft). Next is the bathypelagic lying between 10 and 4 °C (50 and 39 °F), typically between 700–1,000 meters (2,300–3,300 ft) and 2,000–4,000 meters (6,600–13,100 ft), lying along the top of the abyssal plain is the abyssopelagic, whose lower boundary lies at about 6,000 meters (20,000 ft). The last zone includes the deep oceanic trench, and is known as the hadalpelagic. This lies between 6,000–11,000 meters (20,000–36,000 ft) and is the deepest oceanic zone.

The benthic zones are aphotic and correspond to the three deepest zones of the deep-sea. The bathyal zone covers the continental slope down to about 4,000 meters (13,000 ft). The abyssal zone covers the abyssal plains between 4,000 and 6,000 m. Lastly, the hadal zone corresponds to the hadalpelagic zone, which is found in oceanic trenches.

The pelagic zone can be further subdivided into two sub regions: the neritic zone and the oceanic zone. The neritic zone encompasses the water mass directly above the continental shelves whereas the oceanic zone includes all the completely open water.

In contrast, the littoral zone covers the region between low and high tide and represents the transitional area between marine and terrestrial conditions. It is also known as the intertidal zone because it is the area where tide level affects the conditions of the region.

If a zone undergoes dramatic changes in temperature with depth, it contains a thermocline. The tropical thermocline is typically deeper than the thermocline at higher latitudes. Polar waters, which receive relatively little solar energy, are not stratified by temperature and generally lack a thermocline because surface water at polar latitudes are nearly as cold as water at greater depths. Below the thermocline, water is very cold, ranging from −1 °C to 3 °C. Because this deep and cold layer contains the bulk of ocean water, the average temperature of the world ocean is 3.9 °C. [38] If a zone undergoes dramatic changes in salinity with depth, it contains a halocline. If a zone undergoes a strong, vertical chemistry gradient with depth, it contains a chemocline.

The halocline often coincides with the thermocline, and the combination produces a pronounced pycnocline.

Deepest point

False color photo
Map of large underwater features (1995, NOAA)

The deepest point in the ocean is the Mariana Trench, located in the Pacific Ocean near the Northern Mariana Islands. Its maximum depth has been estimated to be 10,971 meters (35,994 ft) (plus or minus 11 meters; see the Mariana Trench article for discussion of the various estimates of the maximum depth.) The British naval vessel Challenger II surveyed the trench in 1951 and named the deepest part of the trench the "Challenger Deep". In 1960, the Trieste successfully reached the bottom of the trench, manned by a crew of two men.

Oceanic maritime currents

Oceanic surface currents (U.S. Army, 1943).
Amphidromic points showing the direction of tides per incrementation periods along with resonating directions of wavelength movements.
Main article: Ocean current

Oceanic maritime currents have different origins. Tidal currents are in phase with the tide, hence are quasiperiodic; they may form various knots in certain places, most notably around headlands.[39] Non-periodic currents have for origin the waves, wind and different densities.

The wind and waves create surface currents (designated as “drift currents”). These currents can decompose in one quasi-permanent current (which varies within the hourly scale) and one movement of Stokes drift under the effect of rapid waves movement (at the echelon of a couple of seconds).).[40] The quasi-permanent current is accelerated by the breaking of waves, and in a lesser governing effect, by the friction of the wind on the surface.[41]

This acceleration of the current takes place in the direction of waves and dominant wind. Accordingly, when the sea depth increases, the rotation of the earth changes the direction of currents in proportion with the increase of depth, while friction lowers their speed. At a certain sea depth, the current changes direction and is seen inverted in the opposite direction with current speed becoming null: known as the Ekman spiral. The influence of these currents is mainly experienced at the mixed layer of the ocean surface, often from 400 to 800 meters of maximum depth. These currents can considerably alter, change and are dependent on the various yearly seasons. If the mixed layer is less thick (10 to 20 meters), the quasi-permanent current at the surface adopts an extreme oblique direction in relation to the direction of the wind, becoming virtually homogeneous, until the Thermocline.[42]

In the deep however, maritime currents are caused by the temperature gradients and the salinity between water density masses.

In littoral zones, breaking waves are so intense and the depth measurement so low, that maritime currents reach often 1 to 2 knots.

Climate

World map with colored, directed lines showing how water moves through the oceans. Cold deep water rises and warms in the central Pacific and in the Indian, whereas warm water sinks and cools near Greenland in the North Atlantic and near Antarctica in the South Atlantic.
A map of the global thermohaline circulation; blue represent deep-water currents, whereas red represent surface currents

Ocean currents greatly affect Earth's climate by transferring heat from the tropics to the polar regions. Transferring warm or cold air and precipitation to coastal regions, winds may carry them inland. Surface heat and freshwater fluxes create global density gradients that drive the thermohaline circulation part of large-scale ocean circulation. It plays an important role in supplying heat to the polar regions, and thus in sea ice regulation. Changes in the thermohaline circulation are thought to have significant impacts on Earth's energy budget. In so far as the thermohaline circulation governs the rate at which deep waters reach the surface, it may also significantly influence atmospheric carbon dioxide concentrations.

For a discussion of the possibilities of changes to the thermohaline circulation under global warming, see shutdown of thermohaline circulation.

The Antarctic Circumpolar Current encircles that continent, influencing the area's climate and connecting currents in several oceans.

One of the most dramatic forms of weather occurs over the oceans: tropical cyclones (also called "typhoons" and "hurricanes" depending upon where the system forms).

Characteristics

Biology

Further information: Marine biology and Marine life

Oceans have a significant effect on the biosphere. Oceanic evaporation, as a phase of the water cycle, is the source of most rainfall, and ocean temperatures determine climate and wind patterns that affect life on land. Life within the ocean evolved 3 billion years prior to life on land. Both the depth and the distance from shore strongly influence the biodiversity of the plants and animals present in each region.[43]

As it is thought that life evolved in the ocean, the diversity of life is immense, including:

In addition, many land animals have adapted to living a major part of their life on the oceans. For instance, seabirds are a diverse group of birds that have adapted to a life mainly on the oceans. They feed on marine animals and spend most of their lifetime on water, many only going on land for breeding. Other birds that have adapted to oceans as their living space are penguins, seagulls and pelicans. Seven species of turtles, the sea turtles, also spend most of their time in the oceans.

Gases

Characteristics of oceanic gases [44][45][46]
Gas Concentration of seawater, by mass (in parts per million), for the whole ocean % Dissolved gas, by volume, in seawater at the ocean surface
Carbon dioxide (CO2) 64 to 107 15%
Nitrogen (N2) 10 to 18 48%
Oxygen (O2) 0 to 13 36%
Solubility of oceanic gases (in mL/L) with temperature at salinity of 33‰ and atmospheric pressure[47]
Temperature O2 CO2 N2
0 °C 8.14 8,700 14.47
10 °C 6.42 8,030 11.59
20 °C 5.26 7,350 9.65
30 °C 4.41 6,600 8.26

Surface

Generalized characteristics of ocean surface by latitude [48][49][50][51][52][53][54]
Characteristic Oceanic waters in polar regions Oceanic waters in temperate regions Oceanic waters in tropical regions
Precipitation vs. evaporation P > E P > E E > P
Sea surface temperature in winter −2 °C 5 to 20 °C 20 to 25 °C
Average salinity 28‰ to 32‰ 35‰ 35‰ to 37‰
Annual variation of air temperature ≤ 40ªC 10 °C < 5 °C
Annual variation of water temperature < 5ªC 10 °C < 5 °C

Mixing time

Mean oceanic residence time for various constituents [55][56]
Constituent Residence time (in years)
Iron (Fe) 200
Aluminum (Al) 600
Manganese (Mn) 1,300
Water (H2O) 4,100
Silicon (Si) 20,000
Carbonate (CO32−) 110,000
Calcium (Ca2+) 1,000,000
Sulfate (SO42−) 11,000,000
Potassium (K+) 12,000,000
Magnesium (Mg2+) 13,000,000
Sodium (Na+) 68,000,000
Chloride (Cl) 100,000,000

Salinity

Further information: Salinity § Seawater

A zone of rapid salinity increase with depth is called a halocline. The temperature of maximum density of seawater decreases as its salt content increases. Freezing temperature of water decreases with salinity, and boiling temperature of water increases with salinity. Typical seawater freezes at around −2 °C at atmospheric pressure.[57] If precipitation exceeds evaporation, as is the case in polar and temperate regions, salinity will be lower. If evaporation exceeds precipitation, as is the case in tropical regions, salinity will be higher. Thus, oceanic waters in polar regions have lower salinity content than oceanic waters in temperate and tropical regions.[58]

Salinity can be calculated using the chlorinity, which is a measure of the total mass of halogen ions (includes fluorine, chlorine, bromine, and iodine) in seawater. By international agreement, the following formula is used to determine salinity:

Salinity (in ‰) = 1.80655 × Chlorinity (in ‰)

The average chlorinity is about 19.2‰, and, thus, the average salinity is around 34.7‰ [58]

Absorption of light

Absorption of light in different wavelengths by ocean [58]
Color: Wavelength (nm) Depth at which 99 percent of the wavelength is absorbed (in meters) Percent absorbed in 1 meter of water
Ultraviolet (UV): 310 31 14.0
Violet (V): 400 107 4.2
Blue (B): 475 254 1.8
Green (G): 525 113 4.0
Yellow (Y): 575 51 8.7
Orange (O): 600 25 16.7
Red (R): 725 4 71.0
Infrared (IR): 800 3 82.0

Economic value

Many of the world's goods are moved by ship between the world's seaports.[59] Oceans are also the major supply source for the fishing industry. Some of the major harvests are shrimp, fish, crabs, and lobster.[4]

Waves and swell

Further information: Wind wave
See also: Sea § Waves

The motions of the ocean surface, known as undulations or waves, are the partial and alternate rising and falling of the ocean surface. The series of mechanical waves that propagate along the interface between water and air is called swell. [citation needed]

Human uses of the oceans

Main article: Sea § Humans and the sea

Humans have been using the ocean for a variety of purposes, for example navigation, exploration, war, travel, trade, food, leisure, power generation, extractive industries.

Environmental issues

Global cumulative human impact on the ocean[60]
Further information: Human impact on marine life

Human activities affect marine life and marine habitats through overfishing, habitat loss, the introduction of invasive species, ocean pollution, ocean acidification and ocean warming. These impact marine ecosystems and food webs and may result in consequences as yet unrecognized for the biodiversity and continuation of marine life forms.[61]

Marine pollution

This section is an excerpt from Marine pollution.[edit]
Marine pollution occurs when substances used or spread by humans, such as industrial, agricultural and residential waste, particles, noise, excess carbon dioxide or invasive organisms enter the ocean and cause harmful effects there. The majority of this waste (80%) comes from land-based activity, although marine transportation significantly contributes as well.[62] It is a combination of chemicals and trash, most of which comes from land sources and is washed or blown into the ocean. This pollution results in damage to the environment, to the health of all organisms, and to economic structures worldwide.[63] Since most inputs come from land, either via the rivers, sewage or the atmosphere, it means that continental shelves are more vulnerable to pollution. Air pollution is also a contributing factor by carrying off iron, carbonic acid, nitrogen, silicon, sulfur, pesticides or dust particles into the ocean.[64] The pollution often comes from nonpoint sources such as agricultural runoff, wind-blown debris, and dust. These nonpoint sources are largely due to runoff that enters the ocean through rivers, but wind-blown debris and dust can also play a role, as these pollutants can settle into waterways and oceans.[65] Pathways of pollution include direct discharge, land runoff, ship pollution, bilge pollution, atmospheric pollution and, potentially, deep sea mining.

Overfishing

This section is an excerpt from Overfishing.[edit]
Overfishing is the removal of a species of fish (i.e. fishing) from a body of water at a rate greater than that the species can replenish its population naturally (i.e. the overexploitation of the fishery's existing fish stock), resulting in the species becoming increasingly underpopulated in that area. Overfishing can occur in water bodies of any sizes, such as ponds, wetlands, rivers, lakes or oceans, and can result in resource depletion, reduced biological growth rates and low biomass levels. Sustained overfishing can lead to critical depensation, where the fish population is no longer able to sustain itself. Some forms of overfishing, such as the overfishing of sharks, has led to the upset of entire marine ecosystems.[66] Types of overfishing include growth overfishing, recruitment overfishing, and ecosystem overfishing.

Ocean acidification

This section is an excerpt from Ocean acidification.[edit]
Ocean acidification is the ongoing decrease in the pH of the Earth's ocean. Between 1950 and 2020, the average pH of the ocean surface fell from approximately 8.15 to 8.05.[67] Carbon dioxide emissions from human activities are the primary cause of ocean acidification, with atmospheric carbon dioxide (CO2) levels exceeding 422 ppm (as of 2024).[68] CO2 from the atmosphere is absorbed by the oceans. This chemical reaction produces carbonic acid (H2CO3) which dissociates into a bicarbonate ion (HCO3) and a hydrogen ion (H+). The presence of free hydrogen ions (H+) lowers the pH of the ocean, increasing acidity (this does not mean that seawater is acidic yet; it is still alkaline, with a pH higher than 8). Marine calcifying organisms, such as mollusks and corals, are especially vulnerable because they rely on calcium carbonate to build shells and skeletons.[69]

Other effects of climate change on oceans

This section is an excerpt from Effects of climate change on oceans.[edit]
There are many effects of climate change on oceans. One of the main ones is an increase in ocean temperatures. More frequent marine heatwaves are linked to this. The rising temperature contributes to a rise in sea levels due to melting ice sheets. Other effects on oceans include sea ice decline, reducing pH values and oxygen levels, as well as increased ocean stratification. All this can lead to changes of ocean currents, for example a weakening of the Atlantic meridional overturning circulation (AMOC).[70] The main root cause of these changes are the emissions of greenhouse gases from human activities, mainly burning of fossil fuels. Carbon dioxide and methane are examples of greenhouse gases. The additional greenhouse effect leads to ocean warming because the ocean takes up most of the additional heat in the climate system.[71] The ocean also absorbs some of the extra carbon dioxide that is in the atmosphere. This causes the pH value of the seawater to drop.[72] Scientists estimate that the ocean absorbs about 25% of all human-caused CO2 emissions.[72]

Extraterrestrial oceans

Main articles: Astrooceanography and Extraterrestrial liquid water
Further information: List of largest lakes and seas in the Solar System

Although Earth is the only known planet with large stable bodies of liquid water on its surface and the only one in the Solar System, other celestial bodies are thought to have large oceans.[73] In June 2020, NASA scientists reported that it's likely that exoplanets with oceans may be common in the Milky Way galaxy, based on mathematical modeling studies.[74][75]

See also


References

  1. ^ a b “Ocean.” Merriam-Webster.com Dictionary, Merriam-Webster, https://www.merriam-webster.com/dictionary/ocean. Accessed 14 Mar. 2021.
  2. ^ a b "ocean, n". Oxford English Dictionary. Retrieved February 5, 2012.
  3. ^ a b "ocean". Merriam-Webster. Retrieved February 6, 2012.
  4. ^ a b c "NOAA – National Oceanic and Atmospheric Administration – Ocean". Noaa.gov. Retrieved 2020-02-16.
  5. ^ Qadri, Syed (2003). "Volume of Earth's Oceans". The Physics Factbook. Retrieved 2007-06-07.
  6. ^ Charette, Matthew; Smith, Walter H. F. (2010). "The volume of Earth's ocean". Oceanography. 23 (2): 112–114. doi:10.5670/oceanog.2010.51. Retrieved 27 September 2012.
  7. ^ a b c d e "Volumes of the World's Oceans from ETOPO1". NOAA. Archived from the original on 2015-03-11. Retrieved 2015-03-07.{{cite web}}: CS1 maint: bot: original URL status unknown (link)
  8. ^ Drogin, Bob (August 2, 2009). "Mapping an ocean of species". Los Angeles Times. Retrieved August 18, 2009.
  9. ^ "Sea". Merriam-webster.com. Retrieved 13 March 2013.
  10. ^ Bromhead, Helen, Landscape and Culture – Cross-linguistic Perspectives, p. 92, John Benjamins Publishing Company, 2018, ISBN 9027264007, 9789027264008; unlike Americans, speakers of British English do not go swimming in "the ocean" but always "the sea".
  11. ^ "WordNet Search — sea". Princeton University. Retrieved February 21, 2012.
  12. ^ "What's the difference between an ocean and a sea?". Ocean facts. National Oceanic and Atmospheric Administration. Retrieved 19 April 2013.
  13. ^ "Ocean". Sciencedaily.com. Retrieved 2012-11-08.
  14. ^ a b ""Distribution of land and water on the planet". UN Atlas of the Oceans. Archived from the original on 2016-03-03.
  15. ^ Spilhaus, Athelstan F. (July 1942). "Maps of the whole world ocean". Geographical Review. 32 (3): 431–5. doi:10.2307/210385. JSTOR 210385.
  16. ^ Bruckner, Lynne and Dan Brayton (2011). Ecocritical Shakespeare (Literary and Scientific Cultures of Early Modernity). Ashgate Publishing, Ltd. ISBN 978-0754669197.
  17. ^ Ὠκεανός, Henry George Liddell, Robert Scott, A Greek-English Lexicon, at Perseus project
  18. ^ Matasović, Ranko, A Reader in Comparative Indo-European Religion Zagreb: Univ of Zagreb, 2016. p. 20.
  19. ^ "Ocean-bearing Planets: Looking For Extraterrestrial Life In All The Right Places". Sciencedaily.com. Retrieved 2012-11-08.
  20. ^ "CIA World Factbook". CIA. Retrieved 2015-04-05.
  21. ^ a b "Pacific Ocean". Encyclopedia of Earth. Retrieved 2015-03-07.
  22. ^ a b "Atlantic Ocean". Encyclopedia of Earth. Retrieved 2015-03-07.
  23. ^ a b "Indian Ocean". Encyclopedia of Earth. Retrieved 2015-03-07.
  24. ^ a b "Southern Ocean". Encyclopedia of Earth. Retrieved 2015-03-10.
  25. ^ a b "Limits of Oceans and Seas, 3rd edition" (PDF). International Hydrographic Organization. 1953. Archived from the original (PDF) on 8 October 2011. Retrieved 28 December 2020.
  26. ^ a b Tomczak, Matthias; Godfrey, J. Stuart (2003). Regional Oceanography: an Introduction (2 ed.). Delhi: Daya Publishing House. ISBN 978-81-7035-306-5. Archived from the original on 2007-06-30. Retrieved 2006-04-10.
  27. ^ a b "'Arctic Ocean' – Encyclopædia Britannica". Retrieved 2012-07-02. As an approximation, the Arctic Ocean may be regarded as an estuary of the Atlantic Ocean.
  28. ^ a b "Arctic Ocean". Encyclopedia of Earth. Retrieved 2015-03-07.
  29. ^ a b "Recommendation ITU-R RS.1624: Sharing between the Earth exploration-satellite (passive) and airborne altimeters in the aeronautical radionavigation service in the band 4 200–4 400 MHz (Question ITU-R 229/7)" (PDF). ITU Radiotelecommunication Sector (ITU-R). Retrieved 2015-04-05. The oceans occupy about 3.35×108 km2 of area. There are 377412 km of oceanic coastlines in the world.
  30. ^ "What is the longest mountain range on earth?". Ocean Facts. NOAA. Retrieved 17 October 2014.
  31. ^ "Scientists map Mariana Trench, deepest known section of ocean in the world". The Telegraph. Telegraph Media Group. 7 December 2011. Retrieved 23 March 2012.
  32. ^ Drazen, Jeffrey C. "Deep-Sea Fishes". School of Ocean and Earth Science and Technology, the University of Hawaiʻi at Mānoa. Archived from the original on 2012-05-24. Retrieved 2007-06-07.
  33. ^ Coble, Paula G. (2007). "Marine Optical Biogeochemistry: The Chemistry of Ocean Color". Chemical Reviews. 107 (2): 402–418. doi:10.1021/cr050350+. PMID 17256912.
  34. ^ Britt, Robert Roy (October 4, 2005). "Mystery Ocean Glow Confirmed in Satellite Photos".
  35. ^ Holladay, April (November 21, 2005). "A glowing sea, courtesy of algae". USA Today.
  36. ^ "Sea's eerie glow seen from space". New Scientist. October 5, 2005.
  37. ^ Casey, Amy (August 8, 2003). "The Incredible Glowing Algae". NASA Earth Observatory. NASA.
  38. ^ US Department of Commerce, National Oceanic and Atmospheric Administration. "What is a thermocline?". oceanservice.noaa.gov. Retrieved 2021-02-07.
  39. ^ US Department of Commerce, National Oceanic and Atmospheric Administration. "Tidal Currents - Currents: NOAA's National Ocean Service Education". oceanservice.noaa.gov. Retrieved 2021-02-07.
  40. ^ Étude de la dérive à la surface sous l’effet du vent, Observation and estimation of Lagrangian, Stokes and Eulerian currents induced by wind and waves at the sea surface, F. Ardhuin, L. Marié, N. Rascle, P. Forget, and A. Roland, 2009: J. Phys. Oceanogr., vol. 39, n° 11, pp. 2820–2838.
  41. ^ Mesure de l’effet de frottement à la surface de la mer, "Tangential stress beneath wind-driven air-water interfaces", M. L. Banner and W. L. Peirson, J. Fluid Mech., vol. 364, pp. 115–145, 1998.
  42. ^ Courants mesurés près de la surface, The drift current from observations made on the bouee laboratoire, Joseph Gonella, 1971: Cahiers Océanographiques, vol. 23, pp. 1–15.
  43. ^ "Chapter 34: The Biosphere: An Introduction to Earth's Diverse Environment". Biology: Concepts & Connections. section 34.7.
  44. ^ "Dissolved Gases other than Carbon Dioxide in Seawater" (PDF). soest.hawaii.edu. Retrieved 2014-05-05.
  45. ^ "Dissolved Oxygen and Carbon Dioxide" (PDF). chem.uiuc.edu.
  46. ^ Anthoni, Floor. "Composition of seawater". Seafriends.org.nz. Retrieved 2014-05-05.
  47. ^ "12.742. Marine Chemistry. Lecture 8. Dissolved Gases and Air-sea exchange" (PDF). Retrieved 2014-05-05.
  48. ^ "5.6 Synthesis – AR4 WGI Chapter 5: Observations: Oceanic Climate Change and Sea Level". Ipcc.ch. Retrieved 2014-05-05.
  49. ^ "Evaporation minus precipitation, Latitude-Longitude, Annual mean". ERA-40 Atlas. ECMWF. Archived from the original on 2014-02-02.
  50. ^ Barry, Roger Graham; Chorley, Richard J. (2003). Atmosphere, Weather, and Climate. Routledge. p. 68.
  51. ^ "Ocean Stratification". Eesc.columbia.edu. Retrieved 2014-05-05.
  52. ^ Huang, Rui Xin (2010). Ocean Circulation: Wind-Driven and Thermohaline Processes. Cambridge University Press.
  53. ^ Deser, C.; Alexander, M. A.; Xie, S. P.; Phillips, A. S. (2010). "Sea Surface Temperature Variability: Patterns and Mechanisms" (PDF). Annual Review of Marine Science. 2: 115–43. Bibcode:2010ARMS....2..115D. doi:10.1146/annurev-marine-120408-151453. PMID 21141660. Archived from the original (PDF) on 2014-05-14.
  54. ^ "Chapter 6 – Temperature, Salinity, and Density – Geographical Distribution of Surface Temperature and Salinity". Introduction to Physical Oceanography. Oceanworld.tamu.edu. 2009-03-23. Retrieved 2014-05-05.
  55. ^ "Calculation of residence times in seawater of some important solutes" (PDF). gly.uga.edu.
  56. ^ Chester, Roy; Jickells, Tim (2012). Marine Geochemistry. Blackwell Publishing. pp. 225–230. ISBN 978-1-118-34907-6.
  57. ^ "Can the ocean freeze? Ocean water freezes at a lower temperature than freshwater". NOAA. Retrieved January 2, 2019.
  58. ^ a b c Chester, Roy; Jickells, Tim (2012). Marine Geochemistry. Blackwell Publishing. ISBN 978-1-118-34907-6.
  59. ^ Zacharias, Mark (2014-03-14). Marine Policy: An Introduction to Governance and International Law of the Oceans. Routledge. ISBN 9781136212475.
  60. ^ Halpern, B.S.; Frazier, M.; Afflerbach, J.; et al. (2019). "Recent pace of change in human impact on the world's ocean". Scientific Reports. 9 (1): 11609. Bibcode:2019NatSR...911609H. doi:10.1038/s41598-019-47201-9. PMC 6691109. PMID 31406130.
  61. ^ Human impacts on marine ecosystems GEOMAR Helmholtz Centre for Ocean Research. Retrieved 22 October 2019.
  62. ^ Sheppard, Charles, ed. (2019). World seas: an Environmental Evaluation. Vol. III, Ecological Issues and Environmental Impacts (Second ed.). London: Academic Press. ISBN 978-0-12-805204-4. OCLC 1052566532.
  63. ^ "Marine Pollution". Education | National Geographic Society. Retrieved 2023-06-19.
  64. ^ Duce, Robert; Galloway, J.; Liss, P. (2009). "The Impacts of Atmospheric Deposition to the Ocean on Marine Ecosystems and Climate WMO Bulletin Vol 58 (1)". Archived from the original on 18 December 2023. Retrieved 22 September 2020.
  65. ^ "What is the biggest source of pollution in the ocean?". National Ocean Service (US). Silver Spring, MD: National Oceanic and Atmospheric Administration. Retrieved 2022-09-21.
  66. ^ Scales, Helen (29 March 2007). "Shark Declines Threaten Shellfish Stocks, Study Says". National Geographic News. Archived from the original on November 6, 2007. Retrieved 1 May 2012.
  67. ^ Terhaar, Jens; Frölicher, Thomas L.; Joos, Fortunat (2023). "Ocean acidification in emission-driven temperature stabilization scenarios: the role of TCRE and non-CO2 greenhouse gases". Environmental Research Letters. 18 (2): 024033. Bibcode:2023ERL....18b4033T. doi:10.1088/1748-9326/acaf91. ISSN 1748-9326. S2CID 255431338. Figure 1f
  68. ^ Oxygen, Pro (2024-09-21). "Earth's CO2 Home Page". Retrieved 2024-09-21.
  69. ^ Ocean acidification due to increasing atmospheric carbon dioxide (PDF). Royal Society. 2005. ISBN 0-85403-617-2.
  70. ^ "Summary for Policymakers". The Ocean and Cryosphere in a Changing Climate (PDF). 2019. pp. 3–36. doi:10.1017/9781009157964.001. ISBN 978-1-00-915796-4. Archived (PDF) from the original on 2023-03-29. Retrieved 2023-03-26.
  71. ^ Cheng, Lijing; Abraham, John; Hausfather, Zeke; Trenberth, Kevin E. (11 January 2019). "How fast are the oceans warming?". Science. 363 (6423): 128–129. Bibcode:2019Sci...363..128C. doi:10.1126/science.aav7619. PMID 30630919. S2CID 57825894.
  72. ^ a b Doney, Scott C.; Busch, D. Shallin; Cooley, Sarah R.; Kroeker, Kristy J. (2020-10-17). "The Impacts of Ocean Acidification on Marine Ecosystems and Reliant Human Communities". Annual Review of Environment and Resources. 45 (1): 83–112. doi:10.1146/annurev-environ-012320-083019. Text was copied from this source, which is available under a Creative Commons Attribution 4.0 International License Archived 2017-10-16 at the Wayback Machine
  73. ^ Dyches, Preston; Chou, Felcia (7 April 2015). "The Solar System and Beyond is Awash in Water". NASA. Retrieved 8 April 2015.
  74. ^ NASA (18 June 2020). "Are planets with oceans common in the galaxy? It's likely, NASA scientists find". EurekAlert!. Retrieved 20 June 2020.
  75. ^ Shekhtman, Lonnie; et al. (18 June 2020). "Are Planets with Oceans Common in the Galaxy? It's Likely, NASA Scientists Find". NASA. Retrieved 20 June 2020.
Retrieved from "https://en.wikipedia.org/w/index.php?title=Ocean&oldid=1012080429"