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Amundsen Sea

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The Amundsen Sea is an arm of the Southern Ocean off Marie Byrd Land in western Antarctica . It lies between Cape Flying Fish (the northwestern tip of Thurston Island ) to the east and Cape Dart on Siple Island to the west. Cape Flying Fish marks the boundary between the Amundsen Sea and the Bellingshausen Sea . West of Cape Dart there is no named marginal sea of the Southern Ocean between the Amundsen and Ross Seas. The Norwegian expedition of 1928–1929 under Captain Nils Larsen named the body of water for the Norwegian polar explorer Roald Amundsen while exploring this area in February 1929.

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79-682: The sea is mostly ice-covered, and the Thwaites Ice Tongue protrudes into it. The ice sheet which drains into the Amundsen Sea averages about 3 km (1.9 mi) in thickness; roughly the size of the state of Texas, this area is known as the Amundsen Sea Embayment (ASE); it forms one of the three major ice-drainage basins of the West Antarctic Ice Sheet . The ice sheet that drains into

158-571: A machine learning algorithm normally used in microbiology to identify crevasses in the remains of the ice tongue and project how they may affect its stability. On 15 March 2002, a notable calving event took place, when the National Ice Center reported that an iceberg named B-22 broke off. This iceberg was about 85 km (53 mi) long by 65 km (40 mi) wide, with a total area of some 5,490 km (2,120 sq mi), comparable to Rhode Island . While most of

237-467: A flexible material and anchored to the Amundsen Sea floor would be able to interrupt warm water flow. This approach would reduce costs and increase the longevity of the material (conservatively estimated at 25 years for curtain elements and up to 100 years for the foundations) relative to more rigid structures. With them in place, Thwaites Ice Shelf and Pine Island Ice Shelf would presumably regrow to

316-405: A flexible material and anchored to the Amundsen Sea floor would be able to interrupt warm water flow. This approach would reduce costs and increase the longevity of the material (conservatively estimated at 25 years for curtain elements and up to 100 years for the foundations) relative to more rigid structures. With them in place, Thwaites Ice Shelf and Pine Island Ice Shelf would presumably regrow to

395-534: A floating ice shelf which braces and restrains the eastern portion of Thwaites Glacier, is likely to collapse within a decade from 2021. The glacier's outflow is likely to accelerate substantially after the shelf's disappearance; while the outflow currently accounts for 4% of global sea level rise , it would quickly reach 5%, before accelerating further. The amount of ice from Thwaites likely to be lost in this century will only amount to several centimetres of sea level rise, but its breakdown will rapidly accelerate in

474-436: A high-emission climate change scenario in the absence of this feedback. If confirmed, this would mean that the melting of Thwaites Glacier can be expected to accelerate at a similar rate for the next century, regardless of whether ocean temperature keeps going up, or stops increasing at all. Other 2023 research suggests that over the 21st century, water temperatures in the entire Amundsen Sea are likely to increase at triple

553-424: A loose collection of icebergs occupying an area as large as 150 kilometres (93 mi) long and 35–65 kilometres (22–40 mi) wide at the time. After breaking off from Thwaites Glacier Tongue, those icebergs ran aground in the Amundsen Sea, about 20 mi (32 km) northeast of Bear Peninsula . Initially, their southern extent was only 3 mi (4.8 km) north of Thwaites Glacier Tongue, but as parts of

632-510: A much larger spectrum of climate change impacts, their estimated annual costs range from $ 7–70 billion for SAI to $ 160–4500 billion for CDR powerful enough to help meet the 1.5 °C (2.7 °F) Paris Agreement target. Siple Island Siple Island is a 110 km (68 mi) long snow-covered island lying east of Wrigley Gulf along the Getz Ice Shelf off Bakutis Coast of Marie Byrd Land , Antarctica . Its centre

711-488: A state they last had a century ago, thus stabilizing these glaciers. To achieve this, the curtains would have to be placed at a depth of around 600 metres (0.37 miles) (to avoid damage from icebergs which would be regularly drifting above) and be 80 km (50 mi) long. The authors acknowledged that while work on this scale would be unprecedented and face many challenges in the Antarctic (including polar night and

790-428: A state they last had a century ago, thus stabilizing these glaciers. To achieve this, the curtains would have to be placed at a depth of around 600 metres (0.37 miles) (to avoid damage from icebergs which would be regularly drifting above) and be 80 km (50 mi) long. The authors acknowledged that while work on this scale would be unprecedented and face many challenges in the Antarctic (including polar night and

869-602: A substantial amount of area and may retain a stabilizing effect on the glacier. However, future retreat of the surrounding sea ice is likely to trigger disintegration of ever-larger sections, like during the 2019 disintegration of icebergs on its western margin. In 2023, scientists found that ice tongue retreat rates are subject to wide fluctuations after its break-up: over six years of observations, annual retreat accelerated by as much as 40% (from around 4 kilometres (2.5 mi) to 6 kilometres (3.7 mi) per year) twice, before slowing back down. These researchers have also repurposed

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948-663: A team of scientists from Chile and NASA on board a P-3 Orion from the Chilean Navy collected the first radar sounding and laser altimetry survey of the glacier, confirming the acceleration in thinning and retreat, and concluding that local seabed topography provides no obstacles to rapid retreat. These discoveries prompted an extensive airborne campaign in 2004–2005 by the University of Texas at Austin , followed by NASA's IceBridge Campaign in 2009–2018. Geophysical data collected from IceBridge campaign flights showed that

1027-490: A width of 45 km (28 mi) and a vertical thickness of at least 587 m (1,926 ft)), it is relatively light for its size, and is stabilized by partially resting on an underwater mountain 50 km (31 mi) offshore. While it only shields the eastern part of the glacier (with the western formerly covered by the Ice Tongue), its presence is already sufficient to counter large calving events on that side of

1106-555: Is a rather open bay in southwestern Amundsen Sea, extending along the north sides of Siple Island , Getz Ice Shelf and Carney Island , from Pranke Island to Cape Gates . It was mapped by the United States Geological Survey from surveys and USN air photos, 1959–66, and named by the Advisory Committee on Antarctic Names for Admiral James S. Russell, Vice Chief of Naval Operations during

1185-433: Is centered between 50 and 100 kilometres (31 and 62 mi) east of Mount Murphy. Like many other parts of the cryosphere , it has been adversely affected by climate change , and provides one of the more notable examples of the retreat of glaciers since 1850 . Thwaites Glacier is closely monitored for its potential to elevate sea levels . Since the 1980s, Thwaites and Pine Island Glacier have been described as part of

1264-435: Is expected to take place over multiple centuries), it would be sufficient to raise the global sea level by 65 cm ( 25 + 1 ⁄ 2  in). This is more than twice as large as all of the sea level rise which occurred between 1901 and 2018 (estimated at 15–25 cm (6–10 in)), though only a fraction of the total sea level rise which would be seen in the future, particularly under high warming. Fears of

1343-531: Is located at 73°51′S 125°50′W  /  73.850°S 125.833°W  / -73.850; -125.833 . Its area is 6,390 km (2,467 sq mi) and it is dominated by the dormant shield volcano Mount Siple , rising to 3,110 m (10,203 ft) — making Siple the 15th ranking island in the world in terms of maximum elevation . The feature was first indicated as an island on U.S. Geological Survey (USGS) maps compiled from ground surveys and U.S. Navy air photos, 1959–65.Island

1422-438: Is located at the northern edge of the West Antarctic Ice Sheet , next to Pine Island Glacier . Both glaciers continually shed ice from their grounding line into Pine Island Bay, which is part of the Amundsen Sea . The fastest flows of ice occur between 50 and 100 kilometres (31 and 62 mi) east of Mount Murphy, where they can exceed 2 kilometres (1.2 mi) per year. At 120 km (75 mi) in width, Thwaites Glacier

1501-494: Is now widespread agreement that its loss is likely to pave the way for the loss of the entire West Antarctic Ice Sheet, which would raise the sea levels by around 3.3 m (10 ft) over several centuries or millennia. Once the potential contribution of Thwaites to future sea level rise became better known, some stories have started to refer to it as the Doomsday Glacier . The first known usage of that nickname

1580-509: Is regularly exposed to water. Some areas of the glacier are additionally exposed to meltwater flowing another 6 km (3.7 mi) inwards during the strong spring tides. This increased exposure to meltwater would increase the rate of ice loss, potentially doubling the rate of the previous projections. A 2014 study, using satellite measurements and computer models, predicted that only the lowest possible warming offered any chance of preserving Thwaites Glacier: otherwise, it will inevitably reach

1659-440: Is shed when the repeated ice calving events occur at the glacier's marine terminus – the point where grounding line is in contact with water. The largest events, on the glacier's more vulnerable western side, are seismically detectable at ranges up to 1,600 km (990 mi). The third Antarctic expedition of Richard E. Byrd in 1940 is believed to be first official sighting of the coastline of Thwaites. Detailed mapping of

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1738-586: Is the single widest glacier in the world, and it has an area of 192,000 km (74,000 sq mi). This makes it larger than the American state of Florida (170,000 km (66,000 sq mi)), and a little smaller than the entire island of Great Britain (209,000 square kilometres (81,000 square miles)). It is also very tall, with ice thickness from bedrock to surface measuring between 800 metres ( 2,624 + 1 ⁄ 2  ft) and 1,200 metres (3,937 ft). Due to this immense size, enormous mass

1817-469: The Walgreen Coast of Marie Byrd Land . It was initially sighted by polar researchers in 1940, mapped in 1959–1966 and officially named in 1967, after the late American glaciologist Fredrik T. Thwaites. The glacier flows into Pine Island Bay , part of the Amundsen Sea , at surface speeds which exceed 2 kilometres (1.2 mi) per year near its grounding line . Its fastest-flowing grounded ice

1896-633: The West Antarctic Ice Sheet , with 91 of them previously unknown. Marie Byrd Land , the location of Thwaites and Pine Island Glaciers , was found to harbor around one volcano per every 11,200 km (4,300 sq mi) of area. This density is relatively high, though it is lower than in other global hotspots such as the East African Rift (one per 7,200 km (2,800 sq mi)) or even Antarctica's own central rift (one per 7,800 km (3,000 sq mi)). The heat from magma flows beneath these volcanoes can affect melting, and

1975-456: The sea level . This topography , in addition to proximity to powerful ocean currents , makes both glaciers particularly vulnerable to increases in ocean heat content . Subsequent research reinforced the hypothesis that Thwaites is the single part of the cryosphere that would have the largest near-term impact on the sea levels, and that it is likely to disappear even in response to climate change which had already occurred. Similarly, there

2054-408: The "tipping point" for Pine Island Glacier may have been passed in 1996, with a retreat of 200 kilometers (120 miles) possible by 2100, producing a corresponding 24 cm (0.79 ft) of sea level rise . It was suggested that these estimates were conservative. The modelling study also stated that "Given the complex, three-dimensional nature of the real Pine Island glacier ... it should be clear that

2133-418: The "weak underbelly" of the West Antarctic Ice Sheet , in part because they seem vulnerable to irreversible retreat and collapse even under relatively little warming, yet also because if they go, the entire ice sheet is likely to eventually follow. This hypothesis is based on both theoretical studies of the stability of marine ice sheets and observations of large changes on these two glaciers. In recent years,

2212-400: The 21st century, this would eventually increase to over 1 mm per year during its "rapid collapse" phase. In 2018, a team of glaciologists, including Eric Rignot, had published projections of Thwaites Glacier contribution to sea level rise for the next 100 years. They estimated that the ice lost from Thwaites alone over the next 30 years would amount to 5 mm of sea level rise, but there

2291-404: The 22nd and 23rd centuries, and the volume of ice contained in the entire glacier can ultimately contribute 65 cm ( 25 + 1 ⁄ 2  in) to global sea level rise, which is more than twice the total sea level rise to date. Some researchers have proposed engineering interventions to stabilize the glacier, but they are very new, costly and their success uncertain. Thwaites Glacier

2370-704: The Amundsen Sea averages about 3 km (1.9 mi) in thickness. It is roughly the size of the state of Texas and is known as the Amundsen Sea Embayment (ASE); it forms one of the three major ice drainage basins of the West Antarctic Ice Sheet along with the Ross Sea Embayment and the Weddell Sea Embayment. Some scientists proposed that this region may be a weak underbelly of the West Antarctic Ice Sheet . The Pine Island and Thwaites Glaciers, which both flow into

2449-534: The Amundsen Sea, are two of Antarctica's largest five. Researchers reported that the flow of these glaciers increased starting in the mid-2000s; if they were to melt completely, global sea levels would rise by about 0.9–1.9 meters (3.0–6.2 feet). Other researchers suggested that the loss of these glaciers would destabilise the entire West Antarctic ice sheet and possibly sections of the East Antarctic Ice Sheet . A 2004 study suggested that because

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2528-581: The International Thwaites Glacier Collaboration (ITGC). The Thwaites Glacier Tongue, or Western Glacier Tongue ( 75°0′S 106°50′W  /  75.000°S 106.833°W  / -75.000; -106.833 ) was a narrow, floating part of the glacier, located about 30 mi (48 km) east of Mount Murphy . It was the first part of the glacier to be mapped, based on 65,000 aerial photographs collected during Operation Highjump in 1947. Back then, it

2607-602: The Thwaites Glacier, could start to collapse within five years. This would lead to a greater outflow from the glacier, increasing its annual contribution to sea level rise from 4% to 5% in the near term. In December 2021, ITGC glaciologist Erin Pettit noted in an interview that Thwaites, along with the rest of the West Antarctic Ice Sheet, would start to see major losses "within decades" after

2686-586: The Thwaites' grounding line to either physically reinforce it, or to block some fraction of warm water flow. The former would be the simplest intervention, yet equivalent to "the largest civil engineering projects that humanity has ever attempted". It is also only 30% likely to work. Constructions blocking even 50% of the warm water flow are expected to be far more effective, yet far more difficult as well. Some researchers argued that this proposal could be ineffective, or even accelerate sea level rise. The authors of

2765-528: The Thwaites' grounding line to either physically reinforce it, or to block some fraction of warm water flow. The former would be the simplest intervention, yet equivalent to "the largest civil engineering projects that humanity has ever attempted". It is also only 30% likely to work. Constructions blocking even 50% of the warm water flow are expected to be far more effective, yet far more difficult as well. Some researchers argued that this proposal could be ineffective, or even accelerate sea level rise. The authors of

2844-522: The WAIS lay in the Amundsen Sea region, with the collapse of Thwaites and Pine Island Glaciers serving as the trigger for the subsequent collapse of the entire ice sheet. This theory was informed by radar measurement data from research flights over West Antarctica in the 1960s and 1970s, which had revealed that in Pine Island Bay , the glacier bed slopes downwards at an angle, and lies well below

2923-403: The [...] model is a very crude representation of reality." A 2023 study estimated that the area lost 3.3 trillion tons of ice between 1996 and 2021, raising sea levels by 9 millimeters. Pine Island Bay ( 74°50′S 102°40′W  /  74.833°S 102.667°W  / -74.833; -102.667 ) is a bay about 40 miles (64 km) long and 30 miles (48 km) wide, into which flows

3002-412: The course of several days to months, far faster than any rate observed today, because its bed, the ground it rested on, was completely flat. As Thwaites Glacier continues to retreat, the grounding line will eventually reach a similarly flat portion, and the researchers suggested that a part of the glacier could then disappear similarly quickly. This finding does not change the annual average melting rate for

3081-453: The currently insufficient numbers of specialized polar ships and underwater vessels), it would also not require any new technology and there is already experience of laying down pipelines at such depths. 73°S 112°W  /  73°S 112°W  / -73; -112 Thwaites Glacier#Thwaites Glacier Tongue Thwaites Glacier is an unusually broad and vast Antarctic glacier located east of Mount Murphy , on

3160-421: The currently insufficient numbers of specialized polar ships and underwater vessels), it would also not require any new technology and there is already experience of laying down pipelines at such depths. The authors estimated this project would take a decade to construct, at $ 40–80 billion initial cost, while the ongoing maintenance would cost $ 1–2 billion a year. Yet, a single seawall capable of protecting

3239-415: The early 21st century. In May 2023, a modelling study considered the future of Thwaites Glacier over the course of 500 years. Due to computational limitations, it was only able to simulate about two-thirds of the glacier catchment (volume of ice equivalent to 40 cm ( 15 + 1 ⁄ 2  in) of the global sea level rise , rather than the 65 cm ( 25 + 1 ⁄ 2  in) contained in

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3318-420: The entire New York City may cost twice as much on its own, and the global costs of adaptation to sea level rise caused by the glaciers' collapse are estimated to reach $ 40 billion annually: The authors also suggested that their proposal would be competitive with the other climate engineering proposals like stratospheric aerosol injection (SAI) or carbon dioxide removal (CDR), as while those would stop

3397-433: The entire West Antarctic Ice Sheet (WAIS) being prone to geologically rapid (centuries or even decades) collapse in response to accelerated warming from greenhouse gas emissions have been present since the seminal 1968 paper by glaciologist J.H. Mercer. These concerns were reiterated by Mercer's 1978 follow-up study and by another study in 1973. In 1981, scientists also advanced the theory that "the weak underbelly" of

3476-515: The entire research period. In 2020, ITGC researchers discovered that at the glacier's baseline, the temperature of the water is already over 2 °C (36 °F) above freezing point . Follow-up ITGC research published in 2023, which observed the underside of the glacier over nine months through a 587 m (1,926 ft)-deep borehole and a robotic mini-submarine called Icefin, found numerous unexpected cracks, or crevasses , where melting proceeded much faster. Crevassed areas amount to 10% of

3555-404: The flow of both of these glaciers has accelerated, their surfaces have lowered, and their grounding lines have retreated. They are believed very likely to eventually collapse even without any further warming. The outsized danger Thwaites poses has led to some reporters nicknaming it the Doomsday Glacier , although this nickname is controversial among scientists. The Thwaites Ice Shelf ,

3634-402: The full glacier). It found that the uncertainty about glacier bed friction was almost as important as the future ocean temperature. Another finding was that lower-resolution models (those which simulated the glacier as a mesh of 20 km (7.7 sq mi) areas) consistently estimated faster break-up than the more detailed models with mesh size of 6.5 km (2.5 sq mi). While in

3713-419: The glacier's surface took place between 1959 and 1966. In 1967, it was officially named by the Advisory Committee on Antarctic Names after Fredrik T. Thwaites (1883–1961), who had never personally visited the glacier, but was a renowned glacial geologist , geomorphologist and professor emeritus at the University of Wisconsin–Madison . McMurdo Station is used by researchers studying the glacier, such as

3792-481: The glacier's underside, yet 27% of its current ice loss. At the same time, their research had also found that stratification between the fresh meltwater from the glacier and the salty ocean water caused the overall melting rate to proceed "far less rapidly than predicted by models". In 2021, further ITGC research suggested that the Thwaites Ice Shelf, which currently restrains the eastern portion of

3871-402: The glacier. The upstream swamp canals feed streams, while the dry areas between those streams retard flow of the glacier. Due to this friction, the glacier is considered stable in the short term. As warming progresses, these streams expand and form larger structures underneath the glacier. The largest one to date was discovered by NASA researchers in 2019 – an underwater cavity formed mostly in

3950-501: The glacier. Under the hypothesis of marine ice cliff instability , ice cliffs at the edge of the glacier would end up unsustainably tall once this ice shelf fails and no longer buttresses them, leading to a chain reaction of collapse over centuries. However, the accuracy of this hypothesis has been disputed in multiple papers, and some research suggests that the loss of the ice shelf would result in almost no change to glacier's trajectory. Swamp -like canal areas and streams underlie

4029-485: The grounding line of Thwaites Glacier had retreated by 1.4 km (0.87 mi) between 1992 and 1996, while its strongly negative mass balance (annual loss of around 16 billion tonnes of ice, equivalent to 17 cubic kilometers of volume) meant that the retreat was going to continue. Further analysis of this data suggested that each 0.1 °C (0.18 °F) increase in ocean temperature would accelerate annual bottom-up melting by 1 m (3 ft 3 in). In 2002,

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4108-450: The grounding line. Altogether, annual ice loss had increased substantially since Rignot's 2001 analysis: from around 16 billion tonnes of ice between 1992 and 1996 to about 50 billion tons between 2002 and 2016. Cumulative ice loss over those 14 years was equivalent to a global sea level rise of 2.07 mm. A 2014 paper noted that while the Thwaites Glacier was expected to add less than 0.25 mm of global sea level rise per year over

4187-399: The historical rate even with low or "medium" atmospheric warming and even faster with high warming, which further "worsens the outlook" for the glacier. In 2024, research indicated that instead of a relatively narrow grounding line which separates the parts of the glacier exposed to water and those safely behind them, there is a wider grounding zone of 2–6 km (1.2–3.7 mi) which

4266-494: The ice in the Amundsen Sea had been melting rapidly and was riven with cracks, the offshore ice shelf was set to collapse "within five years". The study projected a sea level rise of 1.3 m (4.3 ft) from the West Antarctic Ice Sheet if all the sea ice in the Amundsen Sea melted. Measurements made by the British Antarctic Survey in 2005 showed that the ice discharge rate into the Amundsen Sea embayment

4345-704: The ice of the Pine Island Glacier at the southeast extremity of the Amundsen Sea. It was delineated from aerial photographs taken by United States Navy (USN) Operation HIGHJUMP in December 1946, and named by the Advisory Committee on Antarctic Names for the USS Pine Island , seaplane tender and flagship of the eastern task group of USN Operation HIGHJUMP which explored this area. Russell Bay ( 73°27′S 123°54′W  /  73.450°S 123.900°W  / -73.450; -123.900 )

4424-431: The ice shelf's failure, and this would be especially pronounced if the anthropogenic emission trajectory does not decrease by then. In her own words: "We’ll start to see some of that before I leave this Earth." A 2022 study described the "rapid retreat" of the Thwaites Glacier, inferring its past movement in the pre-satellite era by analyzing "ribs" left behind after seabed gouging by ice . It found that at some point in

4503-415: The iceberg broke up quickly, the largest piece, B-22A, with an area of around 3,000 km ( 1,158 + 1 ⁄ 2  sq mi) or "twice the size of Houston, Texas ", drifted in the vicinity of the glacier even as the rest of the glacier tongue continued to break up. In 2012, it got stuck on seafloor, 53 km (33 mi) away from the ice tongue, where its presence had some stabilizing impact on

4582-494: The iceberg tongue continued to calve, it diminished in size (to 70 mi (110 km) long and 20 mi (32 km) wide. By 1986, the entire iceberg tongue had rotated to the side and started to drift away, travelling 140 km (87 mi) west between 1986 and 1992. Thwaites Glacier Tongue had also experienced destructive changes, eventually shortening to 40 mi (64 km) long and 20 mi (32 km) wide. By 2012, it went from an ice tongue firmly attached to

4661-421: The last two centuries, the glacier moved 2.1 km (1.3 mi) per year, twice the rate it did between 2011 and 2019. This rate of retreat could reoccur if the glacier recedes and is dislodged beyond a sea bed that is currently keeping it somewhat stable. In 2023, researchers found that at the end of Last Glacial Maximum , an ice sheet covering what is now Norway retreated at 50 to 600 meters per day over

4740-518: The less-detailed models, practically the entirety of the simulated area was lost around a 250-year mark under the combination of high warming and low friction, higher-resolution simulation showed that about quarter would remain under those conditions, to be lost over 100 more years. Under high warming yet high seabed friction, a quarter was still left at the end of 500 years in the detailed simulations. The same outcome occurred under low warming and low friction. With low warming and high friction, over half of

4819-407: The minimum plausible timescale is 500 years, and could be as long as 13,000 years. It also noted that this tipping point for the entire ice sheet is no more than 3 °C (5.4 °F) of global warming away, and is very likely to be triggered around the near-future levels of 1.5 °C (2.7 °F): at worst, it may have even been triggered by now, after the warming passed 1 °C (1.8 °F) in

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4898-404: The most vulnerable parts of Thwaites Glacier sit 1.5 mi (2.4 km) below the sea level. In 2011, an analysis of IceBridge data showed a rock ridge 700 m (2,300 ft) tall, which helps to anchor the glacier and slows its glacier's slide into the sea. In early 2013, a minor speedup of ice flow was detected, which was later attributed to the activity of subglacial lakes upstream of

4977-550: The original proposal suggested attempting this intervention on smaller sites, like the Jakobshavn Glacier in Greenland , as a test. They also acknowledged that this intervention cannot prevent sea level rise from the increased ocean heat content , and would be ineffective in the long run without greenhouse gas emission reductions. In 2023, it was proposed that an installation of underwater curtains , made of

5056-423: The original proposal suggested attempting this intervention on smaller sites, like the Jakobshavn Glacier in Greenland , as a test. They also acknowledged that this intervention cannot prevent sea level rise from the increased ocean heat content , and would be ineffective in the long run without greenhouse gas emission reductions. In 2023, it was proposed that an installation of underwater curtains , made of

5135-463: The point of "rapid and irreversible collapse" in the next 200 to 900 years. Once that happens, its retreat would add over 1 mm to the global annual sea level rise, up until it disappears. A 2022 assessment of tipping points in the climate system did not consider Thwaites Glacier on its own, but it did note that the entire West Antarctic Ice Sheet would most likely take 2,000 years to disintegrate entirely once it crosses its tipping point, and

5214-411: The post 1957–58 IGY period. Some engineering interventions have been proposed for Thwaites Glacier and the nearby Pine Island Glacier to physically stabilize its ice or to preserve it. These interventions would block the flow of warm ocean water, which currently renders the collapse of these two glaciers practically inevitable even without further warming. A proposal from 2018 included building sills at

5293-443: The potential to delay glacier retreat in its advanced stages. Between 1992 and 2017, Thwaites Glacier retreated at between 0.3 km (0.19 mi) and 0.8 km (0.50 mi) annually, depending on the sector, and experienced a net loss of over 600 billion tons of ice as the result. This loss had caused about 4% of the global sea level rise over that period. If all of the ice contained within Thwaites Glacier melted (which

5372-402: The previous three years, nearly 350 m ( 1,148 + 1 ⁄ 2  ft) tall and 4 km (2.5 mi) wide, with an area two-thirds the size of Manhattan . In 2014, the area underneath Thwaites Glacier was found to have heat flow from geothermal activity nearly twice the global average, and about 3.5 times larger in hotspots. By 2017, scientists have mapped 138 volcanoes beneath

5451-402: The prior 10 millennia. Volcanic activity may be contributing to the observed increase of glacial flow, although the most popular theory is that the flow has increased due to warming ocean water . This water has warmed due to an upwelling of deep ocean water due to variations in pressure systems, which could have been affected by global warming . In January 2010, a modelling study suggested that

5530-399: The rest of the glacier to a series of icebergs floating next to each other, each no larger than 1–5 kilometres (0.62–3.11 mi) in width and only held in place by sea ice . The final remainder of the old glacier tongue, with an area of 470 square kilometres (180 sq mi), disintegrated in 2016. This "melange" of icebergs is still referred to by its old name, as it continues to occupy

5609-402: The rest of the glacier. A model created in 2023 suggested that as the outer ice at Thwaites melts due to warm water currents, it erodes in a way which strengthens the flow of those currents. While this climate change feedback wasn't a surprise, the model estimated that over just the past 12 years, this feedback accelerated melting by 30%, or as much as what is expected from a whole century of

5688-462: The rest of the glacier. In October 2022, it finally started moving again, rapidly drifting to the northwest. It is likely to end up as one of the longest-lived icebergs in history. Glaciers in Antarctica commonly have ice shelves , which are large bodies of sea ice that are permanently floating just offshore, and whose presence helps to stabilize the glacier. Though the Thwaites Ice Shelf has

5767-418: The risk of volcano eruptions increases as more ice is lost as a consequence of isostatic rebound . At the same time, both Marie Byrd Land and the central rift also contain the majority of West Antarctica's 29 volcanoes whose height exceeds 1 km (0.62 mi), even as they remain completely covered by ice. This massive size is likely to make them into significant roadblocks to ice flows, and thus gives them

5846-428: The studied area remained after 500 years. Some engineering interventions have been proposed for Thwaites Glacier and the nearby Pine Island Glacier to physically stabilize its ice or to preserve it. These interventions would block the flow of warm ocean water, which currently renders the collapse of these two glaciers practically inevitable even without further warming. A proposal from 2018 included building sills at

5925-550: Was about 250 km per year. Assuming a steady rate of discharge, this alone was sufficient to raise global sea levels by 0.2 mm per year. A subglacial volcano was detected just north of the Pine Island Glacier near the Hudson Mountains . It last erupted approximately 2,200 years ago, indicated by widespread ash deposits within the ice, in what was the largest known eruption in Antarctica within

6004-432: Was about 95 km (59 mi) long and 60 km (37 mi) wide. By the time updated mapping took place during Operation Deepfreeze in 1967, the glacier tongue had advanced up to 75 km (47 mi) further north, and had also experienced massive ice calving events which had produced Thwaites Iceberg Tongue ( 74°0′S 108°30′W  /  74.000°S 108.500°W  / -74.000; -108.500 ),

6083-545: Was in a May 2017 Rolling Stone magazine article by Jeff Goodell, and it has subsequently been used more widely. While some scientists have embraced the name, many others, including leading researchers like Ted Scambos, Eric Rignot , Helen Fricker and Robert Larter have criticized it as alarmist and inaccurate. In 2001, an analysis of radar interferometry data from the Earth Remote Sensing Satellites 1 and 2 by Eric Rignot revealed that

6162-483: Was less certainty about 100-year ice loss, which could range between 14 and 42 mm depending on ice sheet dynamics . Further, their simulations couldn't represent the impact of the eastern ice shelf breaking up entirely. In 2017, British and American research institutions founded a 5-year research mission named International Thwaites Glacier Collaboration (ITGC). The mission involves over 100 scientists and support staff, with an estimated cost of $ 50 million across

6241-601: Was visited by USCG Icebreaker, Polar Sea, in 1984 during Operation Deep Freeze. USCG serviceman, James F. Woodruff, was first to record footing on the island. The island and the mountain were named by the United States Advisory Committee on Antarctic Names (US-ACAN) in 1967 in honour of the American Antarctic explorer Paul A. Siple (1909–1968), a member of Admiral Byrd 's expeditions. This Marie Byrd Land location article

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