A huge chunk of ice floating in the ocean is called an iceberg. Many icebergs are the size of houses or large buildings. Most of their size, however, is hidden underwater. Icebergs can easily damage or destroy passing ships. Show Icebergs come from glaciers, or large masses of slowly moving ice. In a process called calving, pieces of a glacier break off into the ocean. The pieces, or icebergs, can drift for thousands of miles. When they reach waters that are warm enough, they melt away. Thousands of icebergs form each year in the Arctic and in Antarctica. The largest icebergs ever seen were miles across and hundreds of feet high. Although icebergs are extremely heavy, they float for the same reason that an ice cube floats in a glass of water: ice is less dense, or lighter, than water. Any ship that hits an iceberg can be damaged. The most famous iceberg in history sank the Titanic, a ship traveling in the northern Atlantic Ocean, on April 15, 1912. The ship’s side scraped the iceberg, which tore holes in the hull. Within three hours the ship was at the bottom of the ocean. After the loss of the Titanic, several nations worked together to establish the International Ice Patrol. Today the U.S. Coast Guard runs the patrol, which warns ships about icebergs floating in Atlantic shipping routes. An iceberg in the Arctic OceanIcebergs in Greenland as filmed by NASA in 2015 An iceberg is a piece of freshwater ice more than 15 m long[1] that has broken off a glacier or an ice shelf and is floating freely in open (salt) water.[2][3] Smaller chunks of floating glacially-derived ice are called "growlers" or "bergy bits".[4][5] The 1912 loss of the RMS Titanic led to the formation of the International Ice Patrol in 1914. Much of an iceberg is below the surface, which led to the expression "tip of the iceberg" to illustrate a small part of a larger unseen issue. Icebergs are considered a serious maritime hazard. Icebergs vary considerably in size and shape. Icebergs that calve from glaciers in Greenland are often irregularly shaped while Antarctic ice shelves often produce large tabular (table top) icebergs. The largest iceberg in recent history (2000), named B-15, measured nearly 300 km × 40 km.[6] The largest iceberg on record was an Antarctic tabular iceberg of over 31,000 square kilometres (12,000 sq mi) [335 by 97 kilometres (208 by 60 mi)] sighted 240 kilometres (150 mi) west of Scott Island, in the South Pacific Ocean, by the USS Glacier on November 12, 1956. This iceberg was larger than Belgium.[7] Big icebergs are also often compared in size to the area of Manhattan.[8][9][10] EtymologyThe word iceberg is a partial loan translation from the Dutch word ijsberg, literally meaning ice mountain,[11] cognate to Danish isbjerg, German Eisberg, Low Saxon Iesbarg and Swedish isberg. OverviewTypically about one-tenth of the volume of an iceberg is above water, which follows from Archimedes's Principle of buoyancy; the density of pure ice is about 920 kg/m3 (57 lb/cu ft), and that of seawater about 1,025 kg/m3 (64 lb/cu ft). The contour of the underwater portion can be difficult to judge by looking at the portion above the surface.
The largest icebergs recorded have been calved, or broken off, from the Ross Ice Shelf of Antarctica. Icebergs may reach a height of more than 100 metres (300 ft) above the sea surface and have mass ranging from about 100,000 tonnes up to more than 10 million tonnes. Icebergs or pieces of floating ice smaller than 5 meters above the sea surface are classified as "bergy bits"; smaller than 1 meter—"growlers".[12] The largest known iceberg in the North Atlantic was 168 metres (551 ft) above sea level, reported by the USCG icebreaker Eastwind in 1958, making it the height of a 55-story building. These icebergs originate from the glaciers of western Greenland and may have interior temperatures of −15 to −20 °C (5 to −4 °F).[13] Grotto in an iceberg, photographed during the British Antarctic Expedition of 1911–1913, 5 Jan 1911DriftA given iceberg's trajectory through the ocean can be modelled by integrating the equation m d v → d t = − m f k → × v → + F → a + F → w + F → r + F → s + F → p , {\displaystyle m{\frac {d{\vec {v}}}{dt}}=-mf{\vec {k}}\times {\vec {v}}+{\vec {F}}_{\text{a}}+{\vec {F}}_{\text{w}}+{\vec {F}}_{\text{r}}+{\vec {F}}_{\text{s}}+{\vec {F}}_{\text{p}},}where m is the iceberg mass, v the drift velocity, and the variables f, k, and F correspond to the Coriolis force, the vertical unit vector, and a given force. The subscripts a, w, r, s, and p correspond to the air drag, water drag, wave radiation force, sea ice drag, and the horizontal pressure gradient force.[14][15] Icebergs deteriorate through melting and fracturing, which changes the mass m, as well as the surface area, volume, and stability of the iceberg.[15][16] Iceberg deterioration and drift, therefore, are interconnected iceberg thermodynamics, and fracturing must be considered when modelling iceberg drift.[15] Winds and currents may move icebergs close to coastlines, where they can become frozen into pack ice (one form of sea ice), or drift into shallow waters, where they can come into contact with the seabed, a phenomenon called seabed gouging. BubblesAir trapped in snow forms bubbles as the snow is compressed to form firn and then glacial ice.[17] Icebergs can contain up to 10% air bubbles by volume.[17][failed verification] These bubbles are released during melting, producing a fizzing sound that some may call "Bergie Seltzer". This sound results when the water-ice interface reaches compressed air bubbles trapped in the ice. As each bubble bursts it makes a "popping" sound[13] and the acoustic properties of these bubbles can be used to study iceberg melt.[18] StabilityAn iceberg may flip, or capsize, as it melts and breaks apart, changing the center of gravity. Capsizing can occur shortly after calving when the iceberg is young and establishing balance.[19] Icebergs are unpredictable and can capsize anytime and without warning. Large icebergs that break off from a glacier front and flip onto the glacier face can push the entire glacier backwards for a few minutes, producing earthquakes that give off as much energy as an atomic bomb.[20][21] ColorIcebergs are generally white because they are covered in snow, but can be green, blue, yellow, black, striped, or even rainbow-colored.[22] Seawater, algae and lack of air bubbles in the ice can create diverse colors. Sediment can create the dirty black coloration present in some icebergs.[23] Different shapes of icebergsShapeTabular iceberg, near Brown Bluff in the Antarctic Sound off Tabarin Peninsula Non-tabular iceberg off Elephant Island in the Southern OceanIn addition to size classification (Table 1), icebergs can be classified on the basis of their shapes. The two basic types of iceberg forms are tabular and non-tabular. Tabular icebergs have steep sides and a flat top, much like a plateau, with a length-to-height ratio of more than 5:1.[24] This type of iceberg, also known as an ice island,[25] can be quite large, as in the case of Pobeda Ice Island. Antarctic icebergs formed by breaking off from an ice shelf, such as the Ross Ice Shelf or Filchner-Ronne Ice Shelf, are typically tabular. The largest icebergs in the world are formed this way.
Monitoring and controlHistoryOne of the icebergs suspected of sinking the RMS Titanic; a smudge of red paint much like the Titanic's red hull stripe was seen near its base at the waterline.Prior to 1914 there was no system in place to track icebergs to guard ships against collisions.[citation needed] despite fatal sinkings of ships by icebergs. In 1907, SS Kronprinz Wilhelm, a German liner, rammed an iceberg and suffered a crushed bow, but was still able to complete her voyage. The advent of steel ship construction led designers to declare their ships "unsinkable". The April 1912 sinking of the Titanic, which killed 1,496 of its 2,223 passengers and crew, discredited this claim. For the remainder of the ice season of that year, the United States Navy patrolled the waters and monitored ice movements. In November 1913, the International Conference on the Safety of Life at Sea met in London to devise a more permanent system of observing icebergs. Within three months the participating maritime nations had formed the International Ice Patrol (IIP). The goal of the IIP was to collect data on meteorology and oceanography to measure currents, ice-flow, ocean temperature, and salinity levels. They monitored iceberg dangers near the Grand Banks of Newfoundland and provided the "limits of all known ice" in that vicinity to the maritime community. The IIP published their first records in 1921, which allowed for a year-by-year comparison of iceberg movement. Technological developmentAn iceberg being pushed by three U.S. Navy ships in McMurdo Sound, AntarcticaAerial surveillance of the seas in the early 1930s allowed for the development of charter systems that could accurately detail the ocean currents and iceberg locations. In 1945, experiments tested the effectiveness of radar in detecting icebergs. A decade later, oceanographic monitoring outposts were established for the purpose of collecting data; these outposts continue to serve in environmental study. A computer was first installed on a ship for the purpose of oceanographic monitoring in 1964, which allowed for a faster evaluation of data. By the 1970s, ice-breaking ships were equipped with automatic transmissions of satellite photographs of ice in Antarctica. Systems for optical satellites had been developed but were still limited by weather conditions. In the 1980s, drifting buoys were used in Antarctic waters for oceanographic and climate research. They are equipped with sensors that measure ocean temperature and currents.
Side looking airborne radar (SLAR) made it possible to acquire images regardless of weather conditions. On November 4, 1995, Canada launched RADARSAT-1. Developed by the Canadian Space Agency, it provides images of Earth for scientific and commercial purposes. This system was the first to use synthetic aperture radar (SAR), which sends microwave energy to the ocean surface and records the reflections to track icebergs. The European Space Agency launched ENVISAT (an observation satellite that orbits the Earth's poles)[27] on March 1, 2002. ENVISAT employs advanced synthetic aperture radar (ASAR) technology, which can detect changes in surface height accurately. The Canadian Space Agency launched RADARSAT-2 in December 2007, which uses SAR and multi-polarization modes and follows the same orbit path as RADARSAT-1.[28] Modern monitoringIceberg concentrations and size distributions are monitored worldwide by the U.S. National Ice Center (NIC), established in 1995, which produces analyses and forecasts of Arctic, Antarctic, Great Lakes and Chesapeake Bay ice conditions. More than 95% of the data used in its sea ice analyses are derived from the remote sensors on polar-orbiting satellites that survey these remote regions of the Earth. Iceberg A22A in the South Atlantic OceanThe NIC is the only organization that names and tracks all Antarctic Icebergs. It assigns each iceberg larger than 10 nautical miles (19 km) along at least one axis a name composed of a letter indicating its point of origin and a running number. The letters used are as follows:[29] A – longitude 0° to 90° W (Bellingshausen Sea, Weddell Sea) B – longitude 90° W to 180° (Amundsen Sea, Eastern Ross Sea) C – longitude 90° E to 180° (Western Ross Sea, Wilkes Land) D – longitude 0° to 90° E (Amery Ice Shelf, Eastern Weddell Sea)The Danish Meteorological Institute monitors iceberg populations around Greenland using data collected by the synthetic aperture radar (SAR) on the Sentinel-1 satellites. Iceberg managementIn Labrador and Newfoundland, iceberg management plans have been developed to protect offshore installations from impacts with icebergs.[30] Commercial useIn the late 2010s, a business from the UAE wanted to tow an iceberg from Antarctica to the Middle East, but the plan failed as the estimated cost of $200 million was too high.[31] In 2019, a German company, Polewater, announced plans to tow Antarctic icebergs to places like South Africa.[32][33] Companies have used iceberg water in products such as bottled water, fizzy ice cubes and alcoholic drinks.[32] For example, Iceberg Beer by Quidi Vidi Brewing Company is made from icebergs found around St. John's, Newfoundland.[34] Although annual iceberg supply in Newfoundland and Labrador exceeds the total freshwater consumption of the United States, in 2016 the province introduced a tax on iceberg harvesting and imposed a limit on how much fresh water can be exported yearly.[32] Oceanography and ecologyIcebergs in Disko BayThe freshwater injected into the ocean by melting icebergs can change the density of the seawater in the vicinity of the iceberg.[35][36] Fresh melt water released at depth is lighter, and therefore more buoyant, than the surrounding seawater causing it to rise towards the surface.[35][36] Icebergs can also act as floating breakwaters, impacting ocean waves.[37] Icebergs contain variable concentrations of nutrients and minerals that are released into the ocean during melting.[38][39] Iceberg-derived nutrients, particularly the iron contained in sediments, can fuel blooms of phytoplankton.[38][40] Samples collected from icebergs in Antarctica, Patagonia, Greenland, Svalbard, and Iceland, however, show that iron concentrations vary significantly,[39] complicating efforts to generalize the impacts of icebergs on marine ecosystems. Recent large icebergsIceberg B15 calved from the Ross Ice Shelf in 2000 and initially had an area of 11,000 square kilometres (4,200 sq mi). It broke apart in November 2002. The largest remaining piece of it, Iceberg B-15A, with an area of 3,000 square kilometres (1,200 sq mi), was still the largest iceberg on Earth until it ran aground and split into several pieces October 27, 2005, an event that was observed by seismographs both on the iceberg and across Antarctica.[41] It has been hypothesized that this breakup may also have been abetted by ocean swell generated by an Alaskan storm 6 days earlier and 13,500 kilometres (8,400 mi) away.[42][43]
See also
Iceberg pictured in the coat of arms of Ilulissat
References
External links
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