Search This Blog

Monday, October 2, 2023

Supercell

From Wikipedia, the free encyclopedia
https://en.wikipedia.org/wiki/Supercell
A drone photograph of a supercell from Chamberlain, South Dakota on July 18, 2023.
A supercell with a hail core near Stratford, Texas on May 18, 2023.

A supercell is a thunderstorm characterized by the presence of a mesocyclone: a deep, persistently rotating updraft. Due to this, these storms are sometimes referred to as rotating thunderstorms. Of the four classifications of thunderstorms (supercell, squall line, multi-cell, and single-cell), supercells are the overall least common and have the potential to be the most severe. Supercells are often isolated from other thunderstorms, and can dominate the local weather up to 32 kilometres (20 mi) away. They tend to last 2–4 hours.

Supercells are often put into three classification types: classic (normal precipitation level), low-precipitation (LP), and high-precipitation (HP). LP supercells are usually found in climates that are more arid, such as the high plains of the United States, and HP supercells are most often found in moist climates. Supercells can occur anywhere in the world under the right pre-existing weather conditions, but they are most common in the Great Plains of the United States in an area known as Tornado Alley. A high number of supercells are seen in many parts of Europe as well as in the Tornado Corridor of Argentina, Uruguay and southern Brazil.

Characteristics

Supercells are usually found isolated from other thunderstorms, although they can sometimes be embedded in a squall line. Typically, supercells are found in the warm sector of a low pressure system propagating generally in a north easterly direction in line with the cold front of the low pressure system. Because they can last for hours, they are known as quasi-steady-state storms. Supercells have the capability to deviate from the mean wind. If they track to the right or left of the mean wind (relative to the vertical wind shear), they are said to be "right-movers" or "left-movers," respectively. Supercells can sometimes develop two separate updrafts with opposing rotations, which splits the storm into two supercells: one left-mover and one right-mover.

Supercells can be any size – large or small, low or high topped. They usually produce copious amounts of hail, torrential rainfall, strong winds, and substantial downbursts. Supercells are one of the few types of clouds that typically spawn tornadoes within the mesocyclone, although only 30% or fewer do so.

Geography

Supercells can occur anywhere in the world under the right weather conditions. The first storm to be identified as the supercell type was the Wokingham storm over England, which was studied by Keith Browning and Frank Ludlam in 1962. Browning did the initial work that was followed up by Lemon and Doswell to develop the modern conceptual model of the supercell. To the extent that records are available, supercells are most frequent in the Great Plains of the central United States and southern Canada extending into the southeastern U.S. and northern Mexico; east-central Argentina and adjacent regions of Uruguay; Bangladesh and parts of eastern India; South Africa; and eastern Australia. Supercells occur occasionally in many other mid-latitude regions, including Eastern China and throughout Europe. The areas with highest frequencies of supercells are similar to those with the most occurrences of tornadoes; see tornado climatology and Tornado Alley.

Supercell anatomy

Schematic of a supercell's components.

The current conceptual model of a supercell was described in Severe Thunderstorm Evolution and Mesocyclone Structure as Related to Tornadogenesis by Leslie R. Lemon and Charles A. Doswell III. (See Lemon technique). Moisture streams in from the side of the precipitation-free base and merges into a line of warm uplift region where the tower of the thundercloud is tipped by high-altitude shear winds. The high shear causes horizontal vorticity which is tilted within the updraft to become vertical vorticity, and the mass of clouds spins as it gains altitude up to the cap, which can be up to 55,000 feet (17,000 m)–70,000 feet (21,000 m) above ground for the largest storms, and trailing anvil.

Supercells derive their rotation through the tilting of horizontal vorticity, which is caused by wind shear imparting rotation upon a rising air parcel by differential forces. Strong updrafts lift the air turning about a horizontal axis and cause this air to turn about a vertical axis. This forms a deep rotating updraft, the mesocyclone.

Wind shear (red) sets air spinning (green)
The updraft (blue) 'bends' the spinning air upwards
The updraft starts rotating with the spinning column of air

A cap or capping inversion is usually required to form an updraft of sufficient strength. The moisture-laden air is then cooled enough to precipitate as it is rotated toward the cooler region, represented by the turbulent air of the mammatus clouds where the warm air is spilling over top of the cooler, invading air. The cap is formed where shear winds block further uplift for a time, until a relative weakness allows a breakthrough of the cap (an overshooting top); cooler air to the right in the image may or may not form a shelf cloud, but the precipitation zone will occur where the heat engine of the uplift intermingles with the invading, colder air. The cap puts an inverted (warm-above-cold) layer above a normal (cold-above-warm) boundary layer, and by preventing warm surface air from rising, allows one or both of the following:

  • Air below the cap warms and/or becomes more moist
  • Air above the cap cools

As the cooler but drier air circulates into the warm, moisture laden inflow, the cloud base will frequently form a wall, and the cloud base often experiences a lowering, which, in extreme cases, are where tornadoes are formed. This creates a warmer, moister layer below a cooler layer, which is increasingly unstable (because warm air is less dense and tends to rise). When the cap weakens or moves, explosive development follows.

In North America, supercells usually show up on Doppler radar as starting at a point or hook shape on the southwestern side, fanning out to the northeast. The heaviest precipitation is usually on the southwest side, ending abruptly short of the rain-free updraft base or main updraft (not visible to radar). The rear flank downdraft, or RFD, carries precipitation counterclockwise around the north and northwest side of the updraft base, producing a "hook echo" that indicates the presence of a mesocyclone.

Structure

Structure of a supercell. Northwestward view in the Northern Hemisphere

Overshooting top

This "dome" feature appears above the strongest updraft location on the anvil of the storm. It is a result of an updraft powerful enough to break through the upper levels of the troposphere into the lower stratosphere. An observer at ground level and close to the storm may be unable to see the overshooting top because the anvil blocks the sight of this feature. The overshooting is visible from satellite images as a "bubbling" amidst the otherwise smooth upper surface of the anvil cloud.

Anvil

An anvil forms when the storm's updraft collides with the upper levels of the lowest layer of the atmosphere, or the tropopause, and has nowhere else to go due to the laws of fluid dynamics- specifically pressure, humidity, and density, in simple terms, the packet of air has lost its buoyancy and cannot rise higher. The anvil is very cold(-30°C) and virtually precipitation-free even though virga can be seen falling from the forward sheared anvil. Since there is so little moisture in the anvil, winds can move freely. The clouds take on their anvil shape when the rising air reaches 15,200–21,300 metres (50,000–70,000 ft) or more. The anvil's distinguishing feature is that it juts out in front of the storm like a shelf. In some cases, it can even shear backwards, called a backsheared anvil, another sign of a very strong updraft.

Precipitation-free base

This area, typically on the southern side of the storm in North America, is relatively precipitation-free. This is located beneath the main updraft, and is the main area of inflow. While no precipitation may be visible to an observer, large hail may be falling from this area. A region of this area is called the Vault. It is more accurately called the main updraft area.

Wall cloud

The wall cloud forms near the downdraft/updraft interface. This "interface" is the area between the precipitation area and the precipitation-free base. Wall clouds form when rain-cooled air from the downdraft is pulled into the updraft. This wet, cold air quickly saturates as it is lifted by the updraft, forming a cloud that seems to "descend" from the precipitation-free base. Wall clouds are common and are not exclusive to supercells; only a small percentage actually produce a tornado, but if a storm does produce a tornado, it usually exhibits wall clouds that persist for more than ten minutes. Wall clouds that seem to move violently up or down, and violent movements of cloud fragments (scud or fractus) near the wall cloud, are indications that a tornado could form.

Mammatus clouds

Mammatus (Mamma, Mammatocumulus) are bulbous or pillow-like cloud formations extending from beneath the anvil of a thunderstorm. These clouds form as cold air in the anvil region of a storm sinks into warmer air beneath it. Mammatus are most apparent when they are lit from one side or below and are therefore at their most impressive near sunset or shortly after sunrise when the sun is low in the sky. Mammatus are not exclusive to supercells and can be associated with developed thunderstorms and cumulonimbus.

Forward flank downdraft (FFD)

Diagram of supercell from above. RFD: rear flank downdraft, FFD: front flank downdraft, V: V-notch, U: Main Updraft, I: Updraft/Downdraft Interface, H: hook echo

This is generally the area of heaviest and most widespread precipitation. For most supercells, the precipitation core is bounded on its leading edge by a shelf cloud that results from rain-cooled air within the precipitation core spreading outward and interacting with warmer, moist air from outside of the cell. Between the precipitation-free base and the FFD, a "vaulted" or "cathedral" feature can be observed. In high precipitation supercells an area of heavy precipitation may occur beneath the main updraft area where the vault would alternately be observed with classic supercells.

Rear flank downdraft (RFD)

The rear flank downdraft of a supercell is a very complex and not yet fully understood feature. RFDs mainly occur within classic and HP supercells although RFDs have been observed within LP supercells. The RFD of a supercell is believed to play a large part in tornadogenesis by tightening existing rotation within the surface mesocyclone. RFDs are caused by mid-level steering winds of a supercell colliding with the updraft tower and moving around it in all directions; specifically, the flow that is redirected downward is referred to as the RFD. This downward surge of relatively cool mid-level air, due to interactions between dew points, humidity, and condensation of the converging of air masses, can reach very high speeds and is known to cause widespread wind damage. The radar signature of an RFD is a hook-like structure where sinking air has brought with it precipitation.

Flanking line

A flanking line is a line of smaller cumulonimbi or cumulus that form in the warm rising air pulled in by the main updraft. Due to convergence and lifting along this line, landspouts sometimes occur on the outflow boundary of this region.

Radar features of a supercell

Radar reflectivity map
Hook echo (or pendant)
The "hook echo" is the area of confluence between the main updraft and the rear flank downdraft (RFD). This indicates the position of the mesocyclone and probably a tornado.
Bounded weak echo region (or BWER)
This is a region of low radar reflectivity bounded above by an area of higher radar reflectivity with an untilted updraft, also called a vault. It is not observed with all supercells but it is at the edge of a very high precipitation echos with a very sharp gradient perpendicular to the RFD. This is evidence of a strong updraft and often the presence of a tornado. To an observer on the ground, it could be experienced as a zone free of precipitation but usually containing large hail.
Inflow notch
A "notch" of weak reflectivity on the inflow side of the cell. This is not a V-Notch.
V Notch
A "V" shaped notch on the leading edge of the cell, opening away from the main downdraft. This is an indication of divergent flow around a powerful updraft.
Hail spike
This three body scatter spike is a region of weak echoes found radially behind the main reflectivity core at higher elevations when large hail is present.

Supercell variations

Supercell thunderstorms are sometimes classified by meteorologists and storm spotters into three categories; however, not all supercells, being hybrid storms, fit neatly into any one category, and many supercells may fall into different categories during different periods of their lifetimes. The standard definition given above is referred to as the Classic supercell. All types of supercells typically produce severe weather.

Low precipitation (LP)

Schematics of an LP supercell
A low precipitation supercell near Greeley, Colorado

LP supercells contain a small and relatively light precipitation (rain/hail) core that is well separated from the updraft. The updraft is intense, and LPs are inflow dominant storms. The updraft tower is typically more strongly tilted and the deviant rightward motion less than for other supercell types. The forward flank downdraft (FFD) is noticeably weaker than for other supercell types, and the rear-flank downdraft (RFD) is much weaker—even visually absent in many cases. Like classic supercells, LP supercells tend to form within stronger mid-to-upper level storm-relative wind shear; however, the atmospheric environment leading to their formation is not well understood. The moisture profile of the atmosphere, particularly the depth of the elevated dry layer, also appears to be important, and the low-to-mid level shear may also be important.

This type of supercell may be easily identifiable with "sculpted" cloud striations in the updraft base or even a "corkscrewed" or "barber pole" appearance on the updraft, and sometimes an almost "anorexic" look compared to classic supercells. This is because they often form within drier moisture profiles (often initiated by dry lines) leaving LPs with little available moisture despite high mid-to-upper level environmental winds. They most often dissipate rather than turning into classic or HP supercells, although it is still not unusual for LPs to do the latter, especially when moving into a much moister air mass. LPs were first formally described by Howard Bluestein in the early 1980s although storm-chasing scientists noticed them throughout the 1970s. Classic supercells may wither yet maintain updraft rotation as they decay, becoming more like the LP type in a process known as "downscale transition" that also applies to LP storms, and this process is thought to be how many LPs dissipate.

LP supercells rarely spawn tornadoes, and those that form tend to be weak, small, and high-based tornadoes, but strong tornadoes have been observed. These storms, although generating lesser precipitation amounts and producing smaller precipitation cores, can generate huge hail. LPs may produce hail larger than baseballs in clear air where no rainfall is visible. LPs are thus hazardous to people and animals caught outside as well as to storm chasers and spotters. Due to the lack of a heavy precipitation core, LP supercells often exhibit relatively weak radar reflectivity without clear evidence of a hook echo, when in fact they are producing a tornado at the time. LP supercells may not even be recognized as supercells in reflectivity data unless one is trained or experienced on their radar characteristics. This is where observations by storm spotter and storm chasers may be of vital importance in addition to Doppler velocity (and polarimetric) radar data. High-based shear funnel clouds sometimes form midway between the base and the top of the storm, descending from the main Cb (cumulonimbus) cloud. Lightning discharges may be less frequent compared to other supercell types, but on occasion LPs are prolific sparkers, and the discharges are more likely to occur as intracloud lightning rather than cloud-to-ground lightning.

In North America, these storms most prominently form in the semi-arid Great Plains during the spring and summer months. Moving east and southeast, they often collide with moist air masses from the Gulf of Mexico, leading to the formation of HP supercells in areas just to the west of Interstate 35 before dissipating (or coalescing into squall lines) at variable distances farther east. LP supercells have been observed as far east as Illinois and Indiana, however. LP supercells can occur as far north as Montana, North Dakota, and even in the Prairie Provinces of Alberta, Saskatchewan, and Manitoba in Canada. They have also been observed by storm chasers in Germany, Australia and Argentina (the Pampas).

LP supercells are quite sought after by storm chasers because the limited amount of precipitation makes sighting tornadoes at a safe distance much less difficult than with a classic or HP supercell and more so because of the unobscured storm structure unveiled. During spring and early summer, areas in which LP supercells are readily spotted include southwestern Oklahoma and northwestern Texas, among other parts of the western Great Plains.

High precipitation (HP)

Schematics of an HP supercell
High precipitation supercell in Phoenix, Arizona.

The HP supercell has a much heavier precipitation core that can wrap all the way around the mesocyclone. These are especially dangerous storms, since the mesocyclone is wrapped with rain and can hide a tornado (if present) from view. These storms also cause flooding due to heavy rain, damaging downbursts, and weak tornadoes, although they are also known to produce strong to violent tornadoes. They have a lower potential for damaging hail than Classic and LP supercells, although damaging hail is possible. It has been observed by some spotters that they tend to produce more cloud-to-ground and intracloud lightning than the other types. Also, unlike the LP and Classic types, severe events usually occur at the front (southeast) of the storm. The HP supercell is the most common type of supercell in the United States east of Interstate 35, in the southern parts of the provinces of Ontario and Quebec in Canada, in France, Germany and the Po Valley in north Italy and in the central portions of Argentina and Uruguay.

Mini-supercell or low-topped supercell

Whereas classic, HP, and LP refer to different precipitation regimes and mesoscale frontal structures, another variation was identified in the early 1990s by Jon Davies. These smaller storms were initially called mini-supercells but are now commonly referred to as low-topped supercells. These are also subdivided into Classic, HP and LP types.

Effects

Satellite view of a supercell

Supercells can produce hailstones averaging as large as two inches (5.1 cm) in diameter, winds over 70 miles per hour (110 km/h), tornadoes of as strong as EF3 to EF5 intensity (if wind shear and atmospheric instability are able to support the development of stronger tornadoes), flooding, frequent-to-continuous lightning, and very heavy rain. Many tornado outbreaks come from clusters of supercells. Large supercells may spawn multiple long-tracked and deadly tornadoes, with notable examples in the 2011 Super Outbreak.

Severe events associated with a supercell almost always occur in the area of the updraft/downdraft interface. In the Northern Hemisphere, this is most often the rear flank (southwest side) of the precipitation area in LP and classic supercells, but sometimes the leading edge (southeast side) of HP supercells.

Examples worldwide

Asia

Some reports suggest that the deluge on 26 July 2005 in Mumbai, India was caused by a supercell when there was a cloud formation 15 kilometres (9.3 mi) high over the city. On this day 944 mm (37.2 in) of rain fell over the city, of which 700 mm (28 in) fell in just four hours. The rainfall coincided with a high tide, which exacerbated conditions.

Supercells occur commonly from March to May in Bangladesh, West Bengal, and the bordering northeastern Indian states including Tripura. Supercells that produce very high winds with hail and occasional tornadoes are observed in these regions. They also occur along the Northern Plains of India and Pakistan. On March 23, 2013, a massive tornado ripped through Brahmanbaria district in Bangladesh, killing 20 and injuring 200.

Australia

Photo of the 1947 Sydney Hailstorm showing the hail hitting the water at Rose bay

On New Year's Day 1947 a supercell hit Sydney. The classic type Supercell formed over the Blue Mountains, mid-morning hitting the lower CBD and eastern suburbs by mid-afternoon with the hail similar in size to a cricket ball. At the time, it was the most severe storm to strike the city since recorded observations began in 1792.

On April 14, 1999, a severe storm later classified as a supercell hit the east coast of New South Wales. It is estimated that the storm dropped 500,000 tonnes (490,000 long tons; 550,000 short tons) worth of hailstones during its course. At the time it was the most costly disaster in Australia's insurance history, causing an approximated A$2.3 billion worth of damage, of which A$1.7 billion was covered by insurance.

On February 27, 2007, a supercell hit Canberra, dumping nearly thirty-nine centimetres (15 inches) of ice in Civic. The ice was so heavy that a newly built shopping center's roof collapsed, birds were killed in the hail produced from the supercell, and people were stranded. The following day many homes in Canberra were subjected to flash flooding, caused either by the city's infrastructure's inability to cope with storm water or through mud slides from cleared land.

On 6 March 2010, supercell storms hit Melbourne. The storms caused flash flooding in the center of the city and tennis ball-sized (10 cm or 4 in) hailstones hit cars and buildings, causing more than $220 million worth of damage and sparking 40,000-plus insurance claims. In just 18 minutes, 19 mm (0.75 in) of rain fell, causing havoc as streets were flooded and trains, planes, and cars were brought to a standstill.

That same month, on March 22, 2010 a supercell hit Perth. This storm was one of the worst in the city's history, causing hail stones of 6 centimetres (2.4 in) in size and torrential rain. The city had its average March rainfall in just seven minutes during the storm. Hail stones caused severe property damage, from dented cars to smashed windows. The storm itself caused more than 100 million dollars in damage.

On November 27, 2014 a supercell hit the inner city suburbs including the CBD of Brisbane. Hailstones up to softball size cut power to 71,000 properties, injuring 39 people, and causing a damage bill of $1 billion AUD. A wind gust of 141 km/h was recorded at Archerfield Airport.

South America

An area in South America known as the Tornado Corridor is considered to be the second most frequent location for severe weather, after Tornado Alley in the United States. The region, which covers portions of Argentina, Uruguay, Paraguay, and Brazil during the spring and summer, often experiences strong thunderstorms which may include tornadoes. One of the first known South American supercell thunderstorms to include tornadoes occurred on September 16, 1816, and destroyed the town of Rojas (240 kilometres (150 mi) west of the city of Buenos Aires).

On September 20, 1926, an F4 tornado struck the city of EncarnaciĆ³n (Paraguay), killing over 300 people and making it the second deadliest tornado in South America. On 21 April 1970, the town of Fray Marcos in the Department of Florida, Uruguay experienced an F4 tornado that killed 11, the strongest in the history of the nation. January 10, 1973, saw the most severe tornado in the history of South America: The San Justo tornado, 105 km north of the city of Santa Fe (Argentina), was rated F5, making it the strongest tornado ever recorded in the southern hemisphere, with winds exceeding 400 km/h. On April 13, 1993, in less than 24 hours in the province of Buenos Aires was given the largest tornado outbreak in the history of South America. There were more than 300 tornadoes recorded, with intensities between F1 and F3. The most affected towns were Henderson (EF3), Urdampilleta (EF3) and Mar del Plata (EF2). In December 2000, a series of twelve tornadoes (only registered) affected the Greater Buenos Aires and the province of Buenos Aires, causing serious damage. One of them struck the town of Guernica, and, just two weeks later, in January 2001, an F3 again devastated Guernica, killing 2 people.

The December 26, 2003, Tornado F3 happened in Cordoba, with winds exceeding 300 km/h, which hit CĆ³rdoba Capital, just 6 km from the city center, in the area known as CPC Route 20, especially neighborhoods of San Roque and Villa Fabric, killing 5 people and injuring hundreds. The tornado that hit the State of SĆ£o Paulo in 2004 was one of the most destructive in the state, destroying several industrial buildings, 400 houses, killing one and wounding 11. The tornado was rated EF3, but many claim it was a tornado EF4. In November 2009, four tornadoes, rated F1 and F2 reached the town of Posadas (capital of the province of Misiones, Argentina), generating serious damage in the city. Three of the tornadoes affected the airport area, causing damage in Barrio BelĆ©n. On April 4, 2012, the Gran Buenos Aires was hit by the storm Buenos Aires, with intensities F1 and F2, which left nearly 30 dead in various locations.

On February 21, 2014, in Berazategui (province of Buenos Aires), a tornado of intensity F1 caused material damage including a car was, with two occupants inside, which was elevated a few feet off the ground and flipped over asphalt, both the driver and his passenger were slightly injured. The tornado caused no fatalities. The severe weather that occurred on Tuesday 8/11 had features rarely seen in such magnitude in Argentina. In many towns of La Pampa, San Luis, Buenos Aires and Cordoba, intense hail stones fell up to 6 cm in diameter. On Sunday December 8, 2013, severe storms took place in the center and the coast. The most affected province was CĆ³rdoba, storms and supercells type "bow echos" also developed in Santa Fe and San Luis.

Europe

Europe has its own hotspots for tornadoes and severe weather. Especially in the summer months damaging supercells occur frequently and parts of France, Germany and north Italy are experiencing a number of strong and violent tornadoes every decade.

During the evening of August 3, 2008, a supercell formed over northern France. It spawned an F4 tornado in the Val de Sambre area, about 90 kilometers east of Lille, which impacted nearby cities such as Maubeuge and Hautmont. This same supercell later went on to generate other tornadoes in the Netherlands and Germany.

In 2009, on the night of Monday May 25, a supercell formed over Belgium. It was described by Belgian meteorologist Frank Deboosere as "one of the worst storms in recent years" and caused much damage in Belgium – mainly in the provinces of East Flanders (around Ghent), Flemish Brabant (around Brussels) and Antwerp. The storm occurred between about 1:00 am and 4:00 am local time. An incredible 30,000 lightning flashes were recorded in 2 hours – including 10,000 cloud-to-ground strikes. Hailstones up to 6 centimetres (2.4 in) across were observed in some places and wind gusts over 90 km/h (56 mph); in Melle near Ghent a gust of 101 km/h (63 mph) was reported. Trees were uprooted and blown onto several motorways. In Lillo (east of Antwerp) a loaded goods train was blown from the rail tracks.

On May 24, 2010, an intense supercell left behind a trail of destruction spanning across three different states in eastern Germany. It produced multiple strong downbursts, damaging hail and at least four tornadoes, most notably an F3 wedge tornado which struck the town of GroƟenhain, killing one person.

On August 18, 2011, the rock festival Pukkelpop in Kiewit, Hasselt (Belgium) may have been impacted by a supercell with mesocyclone around 18:15. Tornado-like winds were reported, trees of over 30 centimetres (12 in) diameter were felled and tents came down. Severe hail scourged the campus. Five people reportedly died and over 140 people were injured. One more died a week later. The event was suspended. Buses and trains were mobilised to bring people home.

On June 28, 2012, three supercells affected England. Two of them formed over the Midlands, producing hailstones reported to be larger than golf balls, with conglomerate stones up to 10 cm across. Burbage in Leicestershire saw some of the most severe hail. Another supercell produced a tornado near Sleaford, in Lincolnshire.

A third supercell affected the North East region of England. The storm struck the Tyneside area directly and without warning during evening rush hour causing widespread damage and travel chaos, with people abandoning cars and being trapped due to lack of public transport. Flooded shopping malls were evacuated, Newcastle station was shut, as was the Tyne & Wear Metro, and main road routes were flooded leading to massive tailbacks. 999 land line services were knocked out in some areas and the damage ran to huge amounts only visible the next day after water cleared. Many parts of County Durham and Northumberland were also affected, with thousands of homes across the North East left without power due to lightning strikes. Lightning was seen to hit the Tyne Bridge (Newcastle).

On July 28, 2013, an exceptionally long-lived supercell tracked along an almost 400 km long path across parts of Baden-WĆ¼rttemberg and Bavaria in southern Germany, before falling apart in Czechia. The storm had a lifespan of around 7 hours and produced large hail of up to 8 cm in diameter. The city of Reutlingen was hit the hardest, houses and cars were severely damaged, dozens of people injured. With roughly 3.6 billion euros worth of damage, it was by far the costliest thunderstorm event ever documented in Germany.

Throughout June 2014, an outbreak of severe supercells occurred in western Europe, producing a lot of damaging hail especially in France. In the Paris area, some hailstones reached 8 cm of diameter but the biggest was found in the Loiret department with an exceptional diameter of 12 cm.

On 25 July 2019 a supercell thunderstorm affected northern England and parts of Northumberland. Large hail, frequent lightning and rotation were reported by many people. On 24 September 2020 a similar event affected parts of West Yorkshire.

A damage caused by the supercell storm which hit Croatia and neighbouring countries on 19 July 2023.

On the morning of June 19, 2021, a MCS developed over the French Atlantic coast. While progressing to the north, the system gained supercellular aspects and spawned a F2 tornado 60 kilometers west of Tours. It reached Paris and its surroundings in the late afternoon, causing flash floods in the area due to heavy rainfalls. The system continued its path towards the Belgian frontier, reaching peak intensity: in the way, one of the peripheral supercells evolved into HP status just before entering the city of Reims. The main mesocyclone suddenly expanded and turned into a massive shelf cloud, a typical structure of the Tornado Alley. It produced strong gust winds, rainfalls and hail and inflicted a lot of damage over the nearby areas.

Only 5 days after that on June 24, 2021, a supercell produced an F4 tornado in south Moravia, Czech Republic. This tornado caused 6 deaths and left more than 200 people injured. With roughly $700 million of damage it was one of the costliest tornadoes to occur outside of the United States.

In Europe, the mini-supercell, or low-topped supercell, is very common, especially when showers and thunderstorms develop in cooler polar air masses with a strong jet stream above, especially in the left exit-region of a jetstreak.

North America

The Tornado Alley is a region of the central United States where severe weather is common, particularly tornadoes. Supercell thunderstorms can affect this region at any time of the year, but they are most common in the spring. Tornado watches and warnings are frequently necessary in the spring and summer. Most places from the Great Plains to the East Coast of the United States and north as far as the Canadian Prairies, the Great Lakes region, and the St. Lawrence River will experience one or more supercells each year.

Gainesville, Georgia, was the site of the fifth deadliest tornado in U.S. history in 1936, where Gainesville was devastated and 203 people were killed.

The 1980 Grand Island tornado outbreak affected the city of Grand Island, Nebraska, on June 3, 1980. Seven tornadoes touched down in or near the city that night, killing 5 and injuring 200.

The Elie, Manitoba tornado was an F5 that struck the town of Elie, Manitoba, on June 22, 2007. While several houses were leveled, no one was injured or killed by the tornado.

A massive tornado outbreak on May 3, 1999, spawned an F5 tornado in the area of Oklahoma City that had the highest recorded winds on Earth. This outbreak spawned over 66 tornadoes in Oklahoma alone. On this day throughout the area of Oklahoma, Kansas and Texas, over 141 tornadoes were produced. This outbreak resulted in 50 fatalities and 895 injuries.

A series of tornadoes, which occurred in May 2013, caused severe devastation to Oklahoma City in general. The first tornado outbreaks occurred on May 18 to May 21 when a series of tornadoes hit. From one of the storms developed a tornado which was later rated EF5, which traveled across parts of the Oklahoma City area, causing a severe amount of damage. This tornado was first spotted in Newcastle. It touched the ground for 39 minutes, crossing through a heavily populated section of Moore. Winds with this tornado peaked at 210 miles per hour (340 km/h). Twenty-three fatalities and 377 injuries were caused by the tornado. Sixty-one other tornadoes were confirmed during the storm period. Later on in the same month, on the night of May 31, 2013, another eight deaths were confirmed from what became the widest tornado on record which hit El Reno, Oklahoma, one of a series of tornadoes and funnel clouds which hit nearby areas.

South Africa

South Africa witnesses several supercell thunderstorms each year with the inclusion of isolated tornadoes. On most occasions these tornadoes occur in open farmlands and rarely cause damage to property, as such many of the tornadoes which do occur in South Africa are not reported. The majority of supercells develop in the central, northern, and north eastern parts of the country. The Free State, Gauteng, and Kwazulu Natal are typically the provinces where these storms are most commonly experienced, though supercell activity is not limited to these provinces. On occasion, hail reaches sizes in excess of golf balls, and tornadoes, though rare, also occur.

On 6 May 2009, a well-defined hook echo was noticed on local South African radars, along with satellite imagery this supported the presence of a strong supercell storm. Reports from the area indicated heavy rains, winds and large hail.

On October 2, 2011, two devastating tornadoes tore through two separate parts of South Africa on the same day, hours apart from each other. The first, classified as an EF2 hit Meqheleng, the informal settlement outside Ficksburg, Free State which devastated shacks and homes, uprooted trees, and killed one small child. The second, which hit the informal settlement of Duduza, Nigel in the Gauteng province, also classified as EF2 hit hours apart from the one that struck Ficksburg. This tornado completely devastated parts of the informal settlement and killed two children, destroying shacks and RDP homes.

Salinity

From Wikipedia, the free encyclopedia
International Association for the Physical Sciences of the Oceans (IAPSO) standard seawater.

Salinity (/səĖˆlÉŖnÉŖti/) is the saltiness or amount of salt dissolved in a body of water, called saline water (see also soil salinity). It is usually measured in g/L or g/kg (grams of salt per liter/kilogram of water; the latter is dimensionless and equal to ‰).

Salinity is an important factor in determining many aspects of the chemistry of natural waters and of biological processes within it, and is a thermodynamic state variable that, along with temperature and pressure, governs physical characteristics like the density and heat capacity of the water.

A contour line of constant salinity is called an isohaline, or sometimes isohale.

Definitions

Salinity in rivers, lakes, and the ocean is conceptually simple, but technically challenging to define and measure precisely. Conceptually the salinity is the quantity of dissolved salt content of the water. Salts are compounds like sodium chloride, magnesium sulfate, potassium nitrate, and sodium bicarbonate which dissolve into ions. The concentration of dissolved chloride ions is sometimes referred to as chlorinity. Operationally, dissolved matter is defined as that which can pass through a very fine filter (historically a filter with a pore size of 0.45 Ī¼m, but nowadays usually 0.2 Ī¼m). Salinity can be expressed in the form of a mass fraction, i.e. the mass of the dissolved material in a unit mass of solution.

Seawater typically has a mass salinity of around 35 g/kg, although lower values are typical near coasts where rivers enter the ocean. Rivers and lakes can have a wide range of salinities, from less than 0.01 g/kg to a few g/kg, although there are many places where higher salinities are found. The Dead Sea has a salinity of more than 200 g/kg. Precipitation typically has a TDS of 20 mg/kg or less.

Whatever pore size is used in the definition, the resulting salinity value of a given sample of natural water will not vary by more than a few percent (%). Physical oceanographers working in the abyssal ocean, however, are often concerned with precision and intercomparability of measurements by different researchers, at different times, to almost five significant digits. A bottled seawater product known as IAPSO Standard Seawater is used by oceanographers to standardize their measurements with enough precision to meet this requirement.

Composition

Measurement and definition difficulties arise because natural waters contain a complex mixture of many different elements from different sources (not all from dissolved salts) in different molecular forms. The chemical properties of some of these forms depend on temperature and pressure. Many of these forms are difficult to measure with high accuracy, and in any case complete chemical analysis is not practical when analyzing multiple samples. Different practical definitions of salinity result from different attempts to account for these problems, to different levels of precision, while still remaining reasonably easy to use.

For practical reasons salinity is usually related to the sum of masses of a subset of these dissolved chemical constituents (so-called solution salinity), rather than to the unknown mass of salts that gave rise to this composition (an exception is when artificial seawater is created). For many purposes this sum can be limited to a set of eight major ions in natural waters, although for seawater at highest precision an additional seven minor ions are also included. The major ions dominate the inorganic composition of most (but by no means all) natural waters. Exceptions include some pit lakes and waters from some hydrothermal springs.

The concentrations of dissolved gases like oxygen and nitrogen are not usually included in descriptions of salinity. However, carbon dioxide gas, which when dissolved is partially converted into carbonates and bicarbonates, is often included. Silicon in the form of silicic acid, which usually appears as a neutral molecule in the pH range of most natural waters, may also be included for some purposes (e.g., when salinity/density relationships are being investigated).

Seawater

The term 'salinity' is, for oceanographers, usually associated with one of a set of specific measurement techniques. As the dominant techniques evolve, so do different descriptions of salinity. Salinities were largely measured using titration-based techniques before the 1980s. Titration with silver nitrate could be used to determine the concentration of halide ions (mainly chlorine and bromine) to give a chlorinity. The chlorinity was then multiplied by a factor to account for all other constituents. The resulting 'Knudsen salinities' are expressed in units of parts per thousand (ppt or ).

The use of electrical conductivity measurements to estimate the ionic content of seawater led to the development of the scale called the practical salinity scale 1978 (PSS-78). Salinities measured using PSS-78 do not have units. The suffix psu or PSU (denoting practical salinity unit) is sometimes added to PSS-78 measurement values. The addition of PSU as a unit after the value is "formally incorrect and strongly discouraged".

In 2010 a new standard for the properties of seawater called the thermodynamic equation of seawater 2010 (TEOS-10) was introduced, advocating absolute salinity as a replacement for practical salinity, and conservative temperature as a replacement for potential temperature. This standard includes a new scale called the reference composition salinity scale. Absolute salinities on this scale are expressed as a mass fraction, in grams per kilogram of solution. Salinities on this scale are determined by combining electrical conductivity measurements with other information that can account for regional changes in the composition of seawater. They can also be determined by making direct density measurements.

A sample of seawater from most locations with a chlorinity of 19.37 ppt will have a Knudsen salinity of 35.00 ppt, a PSS-78 practical salinity of about 35.0, and a TEOS-10 absolute salinity of about 35.2 g/kg. The electrical conductivity of this water at a temperature of 15 °C is 42.9 mS/cm.

On the global scale, it is extremely likely that human-caused climate change has contributed to observed surface and subsurface salinity changes since the 1950s, and projections of surface salinity changes throughout the 21st century indicate that fresh ocean regions will continue to get fresher and salty regions will continue to get saltier.

Lakes and rivers

Limnologists and chemists often define salinity in terms of mass of salt per unit volume, expressed in units of mg/L or g/L. It is implied, although often not stated, that this value applies accurately only at some reference temperature because solution volume varies with temperature. Values presented in this way are typically accurate to the order of 1%. Limnologists also use electrical conductivity, or "reference conductivity", as a proxy for salinity. This measurement may be corrected for temperature effects, and is usually expressed in units of Ī¼S/cm.

A river or lake water with a salinity of around 70 mg/L will typically have a specific conductivity at 25 °C of between 80 and 130 Ī¼S/cm. The actual ratio depends on the ions present. The actual conductivity usually changes by about 2% per degree Celsius, so the measured conductivity at 5 °C might only be in the range of 50–80 Ī¼S/cm.

Direct density measurements are also used to estimate salinities, particularly in highly saline lakes. Sometimes density at a specific temperature is used as a proxy for salinity. At other times an empirical salinity/density relationship developed for a particular body of water is used to estimate the salinity of samples from a measured density.

Water salinity
Fresh water Brackish water Saline water Brine
< 0.05% 0.05 – 3% 3 – 5% > 5%
< 0.5 ‰ 0.5 – 30 ‰ 30 – 50 ‰ > 50 ‰

Classification of water bodies based upon salinity

Thalassic series
> 300 ‰
hyperhaline
60–80 ‰
metahaline
40 ‰
mixoeuhaline
30 ‰
polyhaline
18 ‰
mesohaline
5 ‰
oligohaline
0.5 ‰

Marine waters are those of the ocean, another term for which is euhaline seas. The salinity of euhaline seas is 30 to 35 ‰. Brackish seas or waters have salinity in the range of 0.5 to 29 ‰ and metahaline seas from 36 to 40 ‰. These waters are all regarded as thalassic because their salinity is derived from the ocean and defined as homoiohaline if salinity does not vary much over time (essentially constant). The table on the right, modified from Por (1972), follows the "Venice system" (1959).

In contrast to homoiohaline environments are certain poikilohaline environments (which may also be thalassic) in which the salinity variation is biologically significant. Poikilohaline water salinities may range anywhere from 0.5 to greater than 300 ‰. The important characteristic is that these waters tend to vary in salinity over some biologically meaningful range seasonally or on some other roughly comparable time scale. Put simply, these are bodies of water with quite variable salinity.

Highly saline water, from which salts crystallize (or are about to), is referred to as brine.

Environmental considerations

Salinity is an ecological factor of considerable importance, influencing the types of organisms that live in a body of water. As well, salinity influences the kinds of plants that will grow either in a water body, or on land fed by a water (or by a groundwater). A plant adapted to saline conditions is called a halophyte. A halophyte which is tolerant to residual sodium carbonate salinity are called glasswort or saltwort or barilla plants. Organisms (mostly bacteria) that can live in very salty conditions are classified as extremophiles, or halophiles specifically. An organism that can withstand a wide range of salinities is euryhaline.

Salts are expensive to remove from water, and salt content is an important factor in water use, factoring into potability and suitability for irrigation. Increases in salinity have been observed in lakes and rivers in the United States, due to common road salt and other salt de-icers in runoff.

The degree of salinity in oceans is a driver of the world's ocean circulation, where density changes due to both salinity changes and temperature changes at the surface of the ocean produce changes in buoyancy, which cause the sinking and rising of water masses. Changes in the salinity of the oceans are thought to contribute to global changes in carbon dioxide as more saline waters are less soluble to carbon dioxide. In addition, during glacial periods, the hydrography is such that a possible cause of reduced circulation is the production of stratified oceans. In such cases, it is more difficult to subduct water through the thermohaline circulation.

Not only is salinity a driver of ocean circulation, but changes in ocean circulation also affect salinity, particularly in the subpolar North Atlantic where from 1990 to 2010 increased contributions of Greenland meltwater were counteracted by increased northward transport of salty Atlantic waters. However, North Atlantic waters have become fresher since the mid-2010s due to increased Greenland meltwater flux.

Taiwan independence movement

From Wikipedia, the free encyclopedia

The Taiwan independence movement is a political movement which advocates the formal declaration of an independent and sovereign Taiwanese state, as opposed to Chinese unification or the status quo in Cross-Strait relations.

Currently, Taiwan's political status is ambiguous. China currently claims it is a province of the People's Republic of China (PRC), whereas the current Tsai Ing-wen administration of Taiwan maintains that Taiwan is already an independent country as the Republic of China (ROC) and thus does not have to push for any sort of formal independence. As such, the ROC consisting of Taiwan and other islands under its control already conducts official diplomatic relations with and is recognized by 12 member states of the United Nations and the Holy See. On 23 July 2007, Secretary-General of the UN Ban Ki-moon rejected Taiwan's fifteenth membership bid to "join the UN under the name of Taiwan", citing Resolution 2758 as acknowledging that Taiwan is part of China in accordance to the 1971 resolution. Ban Ki-moon's statement was rejected by a number of Western governments, with the U.S. in the lead. These governments protested to the UN to force the global body and its secretary-general to stop using the reference "Taiwan is a part of China." Ban Ki-moon realized he had gone too far in his statement, and confirmed that the UN would no longer use the phrase "Taiwan is a part of China."

The use of "independence" for Taiwan can be ambiguous. If some supporters articulate that they agree to the independence of Taiwan, they may either be referring to the notion of formally creating an independent Taiwanese state or to the notion that Taiwan has become synonymous with the current Republic of China and is already independent (as reflected in the concept of One Country on Each Side). Some supporters advocate the exclusion of Kinmen and Matsu, which are controlled by Taiwan but are located off the coast of mainland China.

Taiwan independence is supported by the Pan-Green Coalition in Taiwan but opposed by the Pan-Blue Coalition, which seeks to retain the somewhat ambiguous status quo of the Republic of China (Taiwan) under the so-called "1992 Consensus" or gradually "reunify" with mainland China at some point.

The governments of the People's Republic of China (PRC) and the Republic of China (ROC) oppose Taiwanese independence since they believe that Taiwan and mainland China comprise two portions of a single country's territory. For the ROC, such a move would be considered a violation of its constitution. The process for a constitutional amendment or national territory alternation must be initiated by one-fourth (25%) of the members of the Legislative Yuan (the unicameral parliament of Taiwan), then voted in the Legislative Yuan with at least three-fourths (75%) members attended and by a three-fourths (75%) supermajority, then approved by majority popular vote in a referendum.

Historically both governments have formulated a "One-China Policy", whereby foreign countries may only conduct official diplomatic relations with either the PRC or the ROC, on the condition that they sever official diplomatic relations with and formal recognition of the other. The ROC's One-China policy was softened following democratization in the 1990s.

History of Taiwan independence

Many supporters of independence for Taiwan view the history of Taiwan since the 17th century as a continuous struggle for independence and use it as an inspiration for the current political movement.

According to this view, the people indigenous to Taiwan and those who have taken up residence there have been repeatedly occupied by groups including the Dutch, the Spanish, the Ming, Koxinga and the Ming loyalists, the Qing, the Japanese and finally the Chinese Nationalists led by the Kuomintang. From a pro-independence supporter's point of view, the movement for Taiwan independence began under Qing rule in the 1680s which led to a well known saying those days, "Every three years an uprising, every five years a rebellion". Taiwan Independence supporters compared Taiwan under Kuomintang rule to South Africa under apartheid. The Taiwan independence movement under Japan was supported by Mao Zedong in the 1930s as a means of freeing Taiwan from Japanese rule.

With the end of World War II in 1945, by issuing "General Order No. 1" to the Supreme Commander for the Allied Powers, the Allies agreed that the Republic of China Army under the Kuomintang would "temporarily occupy Taiwan, on behalf of the Allied forces."

Mao Zedong was an early supporter of Taiwanese independence, telling Edgar Snow in the 1930s that the Chinese Communist Party would lend “our enthusiastic help in their struggle for independence.” He changed this position only after the Nationalists started claiming Taiwan with the Cairo Declaration.

Martial law period

Woodcut print by Huang Rong-can, "The Terrible Inspection" describing the February 28 Incident massacre in 1947
"Terror In Formosa", a news article from The Daily News of Perth, reported the status in March 1947.

The modern-day political movement for Taiwan independence dates back to the Japanese colonial period, but it only became a viable political force within Taiwan in the 1990s. Taiwanese independence was advocated periodically during the Japanese colonial period, but was suppressed by the Japanese government. These efforts were the goal of the Taiwanese Communist Party of the late 1920s. Unlike current formulations, and in line with the thinking of the Comintern, such a state would have been a proletarian one. With the end of World War II in 1945, Japanese rule ended, but the subsequent autocratic rule of the ROC's Kuomintang (KMT) later revived calls for local rule. However, it was a movement supported by the Chinese students who were born on the Island and not associated with KMT. It found its roots in the US and Japan. In the 1950s a Republic of Taiwan Provisional Government was set up in Japan. Thomas Liao was nominally the President. At one time it held quasi-official relations with the newly independent Indonesia. This was possible mainly through the connections between Sukarno and the Provisional Government's Southeast Asian liaison, Chen Chih-hsiung, who had assisted in Indonesia's local resistance movements against Japanese rule.

After the Kuomintang began to rule the island, the focus of the movement was as a vehicle for discontent from the native Taiwanese against the rule of "mainlanders" (i.e. mainland Chinese-born people who fled to Taiwan with KMT in the late 1940s). The February 28 Incident in 1947 and the ensuing martial law that lasted until 1987 contributed to the period of White Terror on the island. In 1979, the Kaohsiung Incident, occurred as the movement for democracy and independence intensified.

Between 1949 and 1991, the official position of the ROC government on Taiwan was that it was the legitimate government of all of China and it used this position as justification for authoritarian measures such as the refusal to vacate the seats held by delegates elected on the mainland in 1947 for the Legislative Yuan. The Taiwan independence movement intensified in response to this and presented an alternative vision of a sovereign and independent Taiwanese state. This vision was represented through a number of symbols such as the use of Taiwanese in opposition to the school-taught Mandarin Chinese.

Several scholars drafted various versions of a constitution, as both political statement or vision and as intellectual exercise. Most of these drafts favor a bicameral parliamentary rather than presidential system. In at least one such draft, seats in the upper house would be divided equally among Taiwan's established ethnicities. In the 1980s the Chinese Nationalist government considered publication of these ideas criminal. In the most dramatic case, it decided to arrest the pro-independence publisher Cheng Nan-jung for publishing a version in his Tang-wai magazine, Liberty Era Weekly (č‡Ŗē”±ę™‚代週刊). Rather than giving himself up, Cheng self-immolated in protest. Other campaigns and tactics toward such a State have included soliciting designs from the public for a new national flag and anthem (for example, Taiwan the Formosa). More recently the Taiwan Name Rectification Campaign (台ē£ę­£åé‹å‹•) has played an active role. More traditional independence supporters, however, have criticized name rectification as merely a superficial tactic devoid of the larger vision inherent in the independence agenda.

Various overseas Taiwan Independence movements, such as the Formosan Association, World United Formosans for Independence, United Young Formosans for Independence, Union for Formosa's Independence in Europe, United Formosans in America for Independence, and Committee for Human Rights in Formosa, published "The Independent Formosa" in several volumes with the publisher "Formosan Association." In "The Independent Formosa, Volumes 2–3", they tried to justify Taiwanese collaboration with Japan during World War II by saying that the "atmosphere covered the whole Japanese territories, including Korea and Formosa, and the Japanese mainlands as well", when Taiwanese publications supported Japan's "holy war", and that the people who did it were not at fault.

The Anti-communist Kuomintang leader Chiang Kai-shek, President of the Republic of China on Taiwan, believed the Americans were going to plot a coup against him along with Taiwan Independence. In 1950, Chiang Ching-kuo became director of the secret police, which he remained until 1965. Chiang also considered some people who were friends to Americans to be his enemies. An enemy of the Chiang family, Wu Kuo-chen, was kicked out of his position of governor of Taiwan by Chiang Ching-kuo and fled to America in 1953. Chiang Ching-kuo, educated in the Soviet Union, initiated Soviet style military organization in the Republic of China Military, reorganizing and Sovietizing the political officer corps, surveillance, and Kuomintang party activities were propagated throughout the military. Opposed to this was Sun Li-jen, who was educated at the American Virginia Military Institute. Chiang orchestrated the controversial court-martial and arrest of General Sun Li-jen in August 1955, for plotting a coup d'Ć©tat with the American CIA against his father Chiang Kai-shek and the Kuomintang. The CIA allegedly wanted to help Sun take control of Taiwan and declare its independence.

During the martial law era lasting until 1987, discussion of Taiwan independence was forbidden in Taiwan, at a time when recovery of the mainland and national unification were the stated goals of the ROC. During that time, many advocates of independence and other dissidents fled overseas, and carried out their advocacy work there, notably in Japan and the United States. Part of their work involved setting up think tanks, political organizations, and lobbying networks in order to influence the politics of their host countries, notably the United States, the ROC's main ally at the time, though they would not be very successful until much later. Within Taiwan, the independence movement was one of many dissident causes among the intensifying democracy movement of the 1970s, which culminated in the 1979 Kaohsiung Incident. The Democratic Progressive Party (DPP) was eventually formed to represent dissident causes.

Multiparty period

After the lifting of martial law in 1987, and the acceptance of multi-party politics, the Democratic Progressive Party became increasingly identified with Taiwan independence, which entered its party platform in 1991. At the same time, many overseas independence advocates and organizations returned to Taiwan and for the first time openly promoted their cause in Taiwan, gradually building up political support. Many had previously fled to the US or Europe and had been on a blacklist held by KMT, which had held them back from going back to Taiwan. Where they had fled, they built many organisations like European Federation of Taiwanese Associations or Formosan Association for Public Affairs. By the late 1990s, DPP and Taiwan independence have gained a solid electoral constituency in Taiwan, supported by an increasingly vocal and hardcore base.

Banner displaying the slogan "UN for Taiwan"

As the electoral success of the DPP, and later, the DPP-led Pan-Green Coalition grew in recent years, the Taiwan independence movement shifted focus to identity politics by proposing many plans involving symbolism and social engineering. The interpretation of historical events such as the February 28 Incident, the use of broadcast language and mother tongue education in schools, the official name and flag of the ROC, slogans in the army, orientation of maps all have been issues of concern to the present-day Taiwan independence movement. The movement, at its peak in the 70s through the 90s in the form of the Taiwan literature movement and other cultural upheavals, has moderated in recent years with the assimilation of these changes. Friction between "mainlander" and "native" communities on Taiwan has decreased due to shared interests: increasing economic ties with mainland China, continuing threats by the PRC to invade, and doubts as to whether or not the United States would support a unilateral declaration of independence. Since the late 1990s many supporters of Taiwan independence have argued that Taiwan, as the ROC, is already independent from the mainland, making a formal declaration unnecessary. In May 1999, the Democratic Progressive Party formalized this position in its "Resolution on Taiwan's Future".

Lee Teng-hui administration (1988-2000)

In 1995, Taiwanese president Lee Teng-hui was given permission to speak at Cornell University about his dream of Taiwanese independence, the first time a Taiwanese leader had been allowed to visit the United States. This led to a military response from China that included buying Russian submarines and conducting missile tests near Taiwan.

Chen Shui-bian administration (2000–2008)

Republic of China passport mentioning Taiwan since 2003 in order to distinguish it from the People's Republic of China passport. In 2020, the Ministry of Foreign Affairs launched a redesigned passport that highlights "Taiwan"
An example of a "Taiwan passport", which is typically not accepted in place of the R.O.C. passport

In February 2007, President Chen Shui-bian initiated changes to names of state-owned enterprises, and the nation's embassies and overseas representative offices. As a result, Chunghwa Post Co. (äø­čÆ郵ę”æ) was renamed Taiwan Post Co. (č‡ŗē£éƒµę”æ) and Chinese Petroleum Corporation (äø­åœ‹ēŸ³ę²¹) is now called CPC Corporation, Taiwan (č‡ŗē£äø­ę²¹) and the signs in Taiwan's embassies now display the word "Taiwan" in brackets after "Republic of China". In 2007, the Taiwan Post Co. issued stamps bearing the name "Taiwan" in remembrance of the February 28 Incident. However, the name of the post office was reverted to "Chunghwa Post Co." following the inauguration of Kuomintang president Ma Ying-jeou in 2008.

The Pan-Blue camp voiced its opposition to the changes and the former KMT Chairman Ma Ying-jeou said that it would generate diplomatic troubles and cause cross-strait tensions. It also argued that without a change in the relevant legislation pertaining to state-owned enterprises, the name changes of these enterprises could not be valid. As the Pan-Blue camp held only a slim parliamentary majority throughout the administration of President Chen, the Government's motion to change the law to this effect were blocked by the opposition. Later, U.S. Department of State spokesman Sean McCormack said that the U.S. does not support administrative steps that would appear to change the status-quo by either Taipei or Beijing as threats to regional security.

Former president Lee Teng-hui has stated that he never pursued Taiwanese independence. Lee views Taiwan as already an independent state, and that the call for "Taiwanese independence" could even confuse the international community by implying that Taiwan once viewed itself as part of China. From this perspective, Taiwan is independent even if it remains unable to enter the UN. Lee said the most important goals are to improve the people's livelihoods, build national consciousness, make a formal name change and draft a new constitution that reflects the present reality so that Taiwan can officially identify itself as a country.

Ma Ying-jeou administration (2008–2016)

Legislative elections were held on 12 January 2008, resulting in a supermajority (86 of the 113 seats) in the legislature for the Kuomintang (KMT) and the Pan-Blue Coalition. President Chen Shui-bian's Democratic Progressive Party was handed a heavy defeat, winning only the remaining 27 seats. The junior partner in the Pan-Green Coalition, the Taiwan Solidarity Union, won no seats.

Two months later, the election for the 12th-term President and Vice-President of the Republic of China was held on Saturday, 22 March 2008. KMT nominee Ma Ying-jeou won, with 58% of the vote, ending eight years of Democratic Progressive Party rule. Along with the 2008 legislative election, Ma's landslide victory brought the Kuomintang back to power in Taiwan.

On 1 August 2008, the Board of Directors of Taiwan Post Co. resolved to reverse the name change and restored the name "Chunghwa Post". The Board of Directors, as well as resolving to restore the name of the corporation, also resolved to re-hire the chief executive dismissed in 2007, and to withdraw defamation proceedings against him.

On 2 September 2008, President Ma defined the relations between Taiwan and mainland China as "special", but "not that between two states" – they are relations based on two areas of one state, with Taiwan considering that state to be the Republic of China, and mainland China considering that state to be the People's Republic of China.

Ma's approach with the mainland is conspicuously evasive of political negotiations that may lead to unification which is the mainland's ultimate goal. The National Unification Guidelines remain "frozen" and Ma precluded any discussion of unification during his term by his "three no's" (no unification, no independence, and no use of force).

Tsai Ing-wen administration (2016–present)

The Democratic Progressive Party, led by Tsai Ing-wen, won a landslide victory over the Kuomintang on 20 May 2016. Her administration has stated she seeks to maintain the current political status of Taiwan. The PRC government continues to criticize the ROC government, as the DPP administration has refused to officially recognize the 1992 Consensus and the One-China policy.

Impact of the 2019–2020 Hong Kong protests

On 13 March 2018, 19-year-old Chan Tong-Kai confessed to murdering his 20-year-old girlfriend Poon Hiu-wing in Taiwan when the Hong Kong police arrested him after he used Poon's ATM card to withdraw cash in both Taiwan and Hong Kong. Because the murder took place in Taiwan, the authorities in Hong Kong had no jurisdiction to charge Chan with murder, but sentenced him for money laundering instead. Because Hong Kong is a special administrative region of China, the region cannot make agreements such as a mutual legal assistance treaty with Taiwan, thus making the transfer of Chan to Taiwan extremely difficult.

In February 2019, the Hong Kong government proposed an amendment to the Fugitive Offenders Ordinance and Mutual Legal Assistance in Criminal Matters Ordinance to allow the transfer of fugitives between Hong Kong and any place outside Hong Kong. Researcher Emile Kok-Kheng Yeoh argued that the establishment of the amendment would "subject Hong Kong residents and visitors to the jurisdiction and legal system of mainland China, thereby undermining the region's autonomy and Hong Kong people's civil liberties." As a result, on 15 March 2019, the Anti-Extradition Law Amendment Bill Movement began in Hong Kong.

In response to the Hong Kong protest, the Chinese government urged strengthening control over Hong Kong in order to bring "stability and prosperity" back to the Special Administrative Region (SAR), which on 30 June 2020, the Chinese government passed the Hong Kong National Security Law to give mainland officials the authority to operate within Hong Kong to punish people whom committed the crimes of secession, subversion, terrorism, and collusion with foreign forces. Simultaneously, using Hong Kong as example, the General Secretary of the Chinese Communist Party, Xi Jinping, also warned Taiwan that unification was inevitable.

The biggest threat to Hongkongers posed by the Hong Kong national security law was the level of control that the Chinese government has over Hong Kong. Just one day after the establishment of the law, about 370 protestors were arrested, including 10 under the new law. Hatred towards the government of Beijing or Hong Kong was also defined as a serious crime, that people could be punished to the maximum of life imprisonment. American journalist John Pomfret viewed this legislation as "a blueprint for dealing with Taiwan," and argued that similar legislation may also be imposed in Taiwan if unified.

According to the survey organized by APF Canada and RIWI in August 2020, it showed that there was a positive correlation between concerns for Taiwan's national security and agreement that the PRC has violated the "one country, two systems" principle. Overall, about 66 percent of the people express certain level of concern (from slight to extreme), and only 34 percent showed "not at all concerned." Within that, majority of those who showed concerns either identified themselves as Taiwanese or a supporter of the DPP.

2020 Taiwanese general election

One significant impact in Taiwan was the increasing support to Tsai Ing-wen, the seventh president of Taiwan and a member of the Democratic Progressive Party (DPP). Bonnie Glaser, an analyst of Chinese politics, believes that the circumstances in Hong Kong "resonated with Taiwan voters." President Tsai was aware of this concern, so about 3 months after the protest began in Hong Kong, President Tsai announced her position and view about the protests on her Twitter account:

We stand with all freedom-loving people of #HongKong. In their faces, we see the longing for freedom, & are reminded that #Taiwan's hard-earned democracy must be guarded & renewed by every generation. As long as I'm President, "one country, two systems" will never be an option.

In January 2020, Tsai was reelected president of Taiwan.

Legal basis for Taiwan independence

Taiwan independence is supported by the Pan-Green Coalition in Taiwan, led by the Democratic Progressive Party (DPP), but opposed by the Pan-Blue Coalition, led by the Kuomintang (KMT). The former coalition aims to eventually achieve full sovereign independence for Taiwan. Whereas, the latter coalition aims to improve relations with the Beijing government (PRC) — which it refers to as "mainland China" — and eventually "reunify" at some point.

Both parties have long been forced to precariously dance around the so-called "status quo" of Taiwan's political status. The DPP is unable to immediately declare independence due to pressure from the PRC and the KMT, whereas the KMT and PRC are unable to immediately achieve Chinese unification due to pressure from the DPP and its unofficial allies (including political factions within the United States (US), Japan, and the European Union (EU)).

The 1895 Treaty of Shimonoseki and 1951 Treaty of San Francisco are often cited as the main bases for Taiwan independence in international law, if such things as "self-determination" and the Montevideo Convention (on the Rights and Duties of States) are to be disregarded. These two treaties are not recognized by the Beijing government and the Pan-Blue Coalition of Taiwan.

Whereas the PRC usually dismisses self-determination and the Montevideo Convention as conspiracies against Chinese sovereignty, the two aforementioned treaties have strong legal bases in international law and have been recognized by numerous countries across the globe. Notably, the Treaty of San Francisco forms the primary basis of modern Japan's independence (from the WWII Allies), and largely dictates Japan's modern geopolitics.

The premise of citing these two treaties is that: a) Japan gained sovereignty over Taiwan in 1895, b) Japan lost sovereignty over Taiwan in 1951–1952, and c) Japan never indicated the "successor state" on Taiwan thereafter. Therefore, according to certain activists, this means that Taiwan is only controlled by the Republic of China on behalf of the WWII Allies, and does not constitute a part of the ROC's sovereign territory.

The Beijing government disregards these two treaties, claiming that: a) the Treaty of Shimonoseki has been nullified and b) the Treaty of San Francisco was illegal. Furthermore, the Potsdam Declaration and Cairo Communique are often cited as indisputable bases for Chinese sovereignty over Taiwan.

The PRC also emphasizes that the United Nations (UN) refers to Taiwan as "Taiwan, Province of China". However, this point is dubious given that it has a huge amount of influence over the UN as one of five permanent members of the UN Security Council. However, most countries do not recognize Taiwan, and only 13 have diplomatic relations with it.

People's Republic of China authorities also accuse the US, Japan, and the EU of interfering in "Chinese internal affairs", claiming that the United States is responsible for separating Taiwan from China, and is responsible for manufacturing "artificial" pro-independence sentiments within Taiwan. Most governments, including the U.S. government, claim to adhere to a so-called "One-China Policy", which is based on the Chinese "One-China Principle".

Most "developed" and "Western" countries consider Taiwan to be a self-governing state in reality.

Within the Pan-Green Coalition of Taiwan, there are two main factions. The faction that is currently in power aims to attain official international recognition for the reality of "Two Chinas", where the PRC and the ROC can coexist; later, the ROC can gradually "transform" itself into a Taiwanese state whilst avoiding a major conflict with the PRC. Whereas, the other faction aims to directly achieve Taiwan independence through a more abrupt and complete overthrowal of ROC institutions within Taiwan, which the faction views to be illegitimate.

The use of "independence" for Taiwan can be ambiguous. If some supporters articulate that they agree to the independence of Taiwan, they may either be referring to the notion of formally creating an independent Taiwanese state, or to the notion that Taiwan has become synonymous with the current Republic of China from Resolution on Taiwan's Future and that ROC-Taiwan is already independent (as reflected in the evolving concept from Four Noes and One Without to One Country on Each Side); both of these ideas run counter to the claims of China (PRC).

The issue of Quemoy and Matsu (Kinmen and Lienchiang)

Background

When the government of the Republic of China (under the Kuomintang) was forced to retreat to Formosa and the Pescadores (Taiwan and Penghu) in 1949, several Chinese (i.e. not Japanese) islands still remained under Kuomintang control. Because the Chinese Communist Party never gained control of the Kinmen, Wuqiu, and Matsu Islands, they are now governed by the Republic of China on Taiwan as Kinmen County (Kinmen and Wuqiu) and Lienchiang County (Matsu) within a streamlined Fujian Province. The islands are often referred to collectively as Quemoy and Matsu or as "Golden Horse".

Historically, Kinmen County ("Quemoy") and Lienchiang County ("Matsu") served as important defensive strongholds for the Kuomintang during the 1950–1970s, symbolizing the frontline of Kuomintang resistance against the Communist rebellion. They represented the last Kuomintang presence in "mainland China". The islands received immense coverage from Western (especially United States) media during the First Taiwan Strait Crisis of 1954–1955 and the Second Taiwan Strait Crisis of 1958. They were very significant in the context of the Cold War, a period from 1946 until 1991 of geopolitical tension between the Soviet Union (and its allies) and the United States (and its allies).

Ever since the transition into multi-party politics (i.e. "Democratization") during the 1990s, Kinmen and Lienchiang counties have now essentially developed into two electorates that can be contested through democratic elections. Currently the two electorates are "strongholds" for the Kuomintang due mainly to popular opinion within the electorates, rather than brute control (as in the past). The two electorates have recently developed close relations with the mainland, which lies only around 2–9 km west from the islands, whereas Taiwan lies around 166–189 km east from the islands.

Significance of Quemoy and Matsu

Quemoy and Matsu are unique and important for several reasons.

  • The islands straddle the southeastern coastline of mainland China, only a few kilometers away from Fujian Province.
  • The islands are geographically defined as being part of mainland China rather than Taiwan (aka "Formosa and the Pescadores").
  • The islands are defined as comprising the truncated, streamlined Fujian Province (officially "Fuchien Province") of the ROC on Taiwan.

Quemoy and Matsu in Cross-Strait relations

Reportedly, the local government of Kinmen County supports stronger business and cultural ties with mainland China, similarly to the Kuomintang, and views itself as an important proxy (representative) or nexus (focal point) for improving Cross-Strait relations (that is, in the favour of Chinese unification). In January 2001, direct travel between Kinmen County (and Lienchiang County) and mainland China re-opened under the "mini Three Links". As of 2015, Kinmen has plans to become a "special economic zone" in which free trade and free investment would be allowed between it and the neighbouring mainland SEZ of Xiamen. This might be accomplished in part by building a huge bridge connecting Kinmen to Xiamen, via the island of Lesser Kinmen (Lieyu); A bridge has since been constructed between Greater Kinmen and Lesser Kinmen. Additionally, Kinmen has plans to become a "university island". In 2010, "National Kinmen Institute of Technology" was upgraded to "National Quemoy University". Kinmen County plans to establish several branches of mainland Chinese universities in Kinmen, and has bargained with the central Taiwanese (ROC) government so that universities in Kinmen don't have to be bounded by the same quotas as other Taiwanese universities in terms of admitting mainland Chinese students. In 2018, the local government of Kinmen County unveiled a new undersea pipeline linking Kinmen to mainland China, through which drinking-water can be imported. This business deal caused controversy in Taiwan and resulted in a "stand-off" between Kinmen County and the Mainland Affairs Council of Taiwan (ROC).

Quemoy and Matsu as part of Taiwan

Within Taiwan, one camp believes that Kinmen County (Quemoy) and Lienchiang County (Matsu) should be abandoned from a potential independent and sovereign Taiwanese state. This view aligns with the aforementioned treaties and acts that do not define Kinmen and Matsu as being part of Taiwan. This same camp also believes that the PRC has only "allowed" the ROC to continue controlling Kinmen and Matsu in order to "tether" Taiwan to mainland China. The fact that the PRC propagandizes Kinmen and Matsu is evidence that this is true to at least a certain degree. In a hypothetical scenario where Kinmen and Matsu are abandoned by the Taiwanese state, they would likely be "ceded" to the People's Republic of China via a peace treaty, officially ending the Chinese Civil War.

Also within Taiwan, a second camp believes that Quemoy and Matsu belong to Taiwan. This camp believes that the ROC and Taiwan have become one and the same. By this logic, Taiwan effectively owns all of the same territories that the ROC is said to own. Among these territories is Quemoy and Matsu. If a potential Taiwanese state were to be created, this camp believes that the new country will actually be the successor state to the ROC, rather than an entirely new country. Therefore, if Taiwan independence were to be successfully achieved, then the islands of Quemoy and Matsu would hypothetically cease to be administered as "Fujian Province", and would instead simply be classified as "satellite islands of Taiwan" (much in the same way as Penghu).

Despite the differing views of these two camps, there is a general understanding throughout Taiwan that Quemoy and Matsu are not part of the historical region of "Taiwan", due to having never been governed under the following regimes: Dutch Formosa, Spanish Formosa, Kingdom of Tungning, Republic of Formosa, and Japanese Formosa. Additionally, Quemoy and Matsu experienced a unique history for several years as military outposts of the ROC, further separating the islands from Taiwan in terms of culture.

Positions

The questions of independence and the island's relationship to mainland China are complex and inspire very strong emotions among Taiwanese people. There are some who continue to maintain the KMT's position, which states that the ROC is the sole legitimate government for all of China (of which they consider Taiwan to be a part), and that the aim of the government should be eventual unification of the mainland and Taiwan under the rule of the ROC. Some argue that Taiwan has been, and should continue to be, completely independent from China and should become a Taiwanese state with a distinct name. Then, there are numerous positions running the entire spectrum between these two extremes, as well as differing opinions on how best to manage either situation should it ever be realized.

On 25 October 2004, in Beijing, the U.S. Secretary of State Colin Powell said Taiwan is "not sovereign," provoking strong comments from both the Pan-Green and Pan-Blue coalitions – but for very different reasons. From the DPP's side, President Chen declared that "Taiwan is definitely a sovereign, independent country, a great country that absolutely does not belong to the People's Republic of China". The TSU (Taiwan Solidarity Union) criticized Powell, and questioned why the US sold weapons to Taiwan if it were not a sovereign state. From the KMT, then Chairman Ma Ying-jeou announced, "the Republic of China has been a sovereign state ever since it was formed [in 1912]." The pro-unification PFP Party Chairman, James Soong, called it "Taiwan's biggest failure in diplomacy."

Support for independence

Parade of Taiwan independence supporters

The first view considers the move for Taiwan independence as a nationalist movement. Historically, this was the view of such pro-independence groups as the Tangwai movement (which later grew into the Democratic Progressive Party) who argued that the ROC under the Kuomintang had been a "foreign regime" forcibly imposed on Taiwan. Since the 1990s, supporters of Taiwan independence no longer actively make this argument. Instead, the argument has been that, in order to survive the growing power of the PRC, Taiwan must view itself as a separate and distinct entity from "China." Such a change in view involves: (1) removing the name of "China" from official and unofficial items in Taiwan, (2) changes in history books, which now portrays Taiwan as a central entity, (3) promoting the use of Hokkien Language in the government and in the education system, (4) reducing economic links with mainland China, and (5) promoting the general thinking that Taiwan is a separate entity. The goal of this movement is the eventual creation of a country where China is a foreign entity, and Taiwan is an internationally recognized country separate from any concept of "China." The proposed "state of Taiwan" will exclude areas such as Quemoy and Matsu off the coast of Fujian, and some of the islands in the South China Sea, which historically were not part of Taiwan. Some supporters of Taiwan independence argue that the Treaty of San Francisco justifies Taiwan independence by not explicitly granting Taiwan to either the ROC or the PRC, even though neither the PRC nor the ROC government accepts such legal justification. It is also thought that if formal independence were declared, Taiwan's foreign policies would lean further towards Japan and the United States, and the desirable option of United Nations Trusteeship Council is also considered.

The Taiwan Independence Party won a single seat in the Legislative Yuan in the 1998 legislative election. The Taiwan Solidarity Union was formed in 2001, and is also supportive of independence. Though it gained more legislative support than TAIP in elections, the TSU's legislative representation has dropped over time. In 2018, political parties and organizations demanding a referendum on Taiwan's independence formed an alliance to further their objective. The Formosa Alliance was established on 7 April 2018, prompted by a sense of crisis in the face of growing pressure from China for unification. The alliance wanted to hold a referendum on Taiwan's independence in April 2019, and change the island's name from the "Republic of China" to "Taiwan," and apply for membership in the United Nations. In August 2019, another party supportive of independence, the Taiwan Action Party Alliance was founded.

Support for status quo

A second view is that Taiwan is already an independent nation with the official name "Republic of China," which has been independent (i.e. de facto separate from mainland China/de jure separate from PRC) since the end of the Chinese Civil War in 1949, when the ROC lost control of mainland China, with only Taiwan (including the Penghu islands), Kinmen (Quemoy), the Matsu Islands off the coast of Fujian Province, and some of the islands in the South China Sea remaining under its administration. Although previously no major political faction adopted this pro-status quo viewpoint, because it is a "compromise" in face of PRC threats and American warnings against a unilateral declaration of independence, the DPP combined it with their traditional belief to form their latest official policy. This viewpoint has not been adopted by more radical groups such as the Taiwan Solidarity Union, which favor only the third view described above and are in favor of a Republic or State of Taiwan. In addition, many members of the Pan-Blue Coalition are rather suspicious of this view, fearing that adopting this definition of Taiwan independence is merely an insincere stealth tactical effort to advance desinicization and the third view of Taiwan independence. As a result, supporters of Pan-Blue tend to make a clear distinction between Taiwan independence and Taiwan sovereignty, while supporters of Pan-Green tend to try to blur the distinction between the two.

Most Taiwanese and political parties of the ROC support the status quo, and recognize that this is de facto independence through sovereign self-rule. Even among those who believe Taiwan is and should remain independent, the threat of war from PRC softens their approach, and they tend to support maintaining the status quo rather than pursuing an ideological path that could result in war with the PRC. When President Lee Teng-hui put forth the two-states policy, he received 80% support. A similar situation arose when President Chen Shui-bian declared that there was "one country on each side" of the Taiwan Strait. To this day, the parties disagree, sometimes bitterly, on such things as territory, name (R.O.C. or Taiwan), future policies, and interpretations of history. The Pan-Blue Coalition and the PRC believe that Lee Teng-hui and Chen Shui-bian are intent on publicly promoting a moderate form of Taiwan independence in order to advance secretly deeper forms of Taiwan independence, and that they intend to use popular support on Taiwan for political separation to advance notions of cultural and economic separation.

Opposition to independence

Anti-Taiwan independence protesters in Washington, D.C. during Lee Teng-hui's visit in 2005
In 2023, in Taiwan, a joint anti-Taiwan independence and anti-intervention protest against William Lai Ching‑te

The third view, put forward by the government of the PRC and Nationalists of the KMT, defines Taiwan independence as "splitting Taiwan from China, causing division of the nation and the people." What PRC claims by this statement is somewhat ambiguous according to supporters of Taiwanese independence, as some statements by the PRC seem to identify China solely and uncompromisingly with the PRC. Others propose a broader and more flexible definition suggesting that both mainland China and Taiwan are parts that form one cultural and geographic entity, although divided politically as a vestige of the Chinese Civil War. The PRC considers itself the sole legitimate government of all China, and the ROC to be a defunct entity replaced in the Communist revolution that succeeded in 1949. Therefore, assertions that the ROC is a sovereign state are construed as support for Taiwan independence, so are proposals to change the name of the ROC. Such a name change is met with even more disapproval since it rejects Taiwan as part of the greater China entity (as one side of a still-unresolved Chinese civil war). The ROC used to be recognized by the UN as the sole legal government of China until 1971. In that year, the UN Resolution 2758 was passed, and the PRC became recognized as the legal government of China by the UN. Chinese nationalists have called the Taiwan independence movement and its supporters to be hanjian (traitors).

In 2020, PLA general Li Zuocheng stated that Beijing would "resolutely smash" any moves toward Taiwanese independence.

Opinion polls

In an opinion poll conducted in Taiwan by the Mainland Affairs Council in 2019, 27.7% of respondents supported Taiwan's independence: 21.7% said that the status quo has to be maintained for now but Taiwan should become independent in the future, while 6% said that independence must be declared as soon as possible. 31% of respondents supported the current situation as it is, and 10.3% agreed to unification with the mainland with 1.4% saying that it should happen as soon as possible.

Several polls have indicated an increase in support of Taiwanese independence in the three decades after 1990. In a Taiwanese Public Opinion Foundation poll conducted in June 2020, 54% of respondents supported de jure independence for Taiwan, 23.4% preferred maintaining the status quo, 12.5% favored unification with China, and 10% did not hold any particular view on the matter. This represented the highest level of support for Taiwanese independence since the survey was first conducted in 1991. A later TPOF poll in 2022 showed similar results. The Election Study Center, NCCU Taiwan Independence vs. Unification with the Mainland Survey shows a steady increase in respondents choosing "maintain the status quo and move toward independence in the future" since it started in 1994. However, the option "maintain the status quo indefinitely" had a similar increase in the same period and the most popular option was "maintain the status quo and decide in the future between independence or unification" every year between 1994 and 2022. The option "independence as soon as possible" never went above 10% in the same time period. "unification as soon as possible" has been more unpopular – never going above 4.5%.

Representation of a Lie group

From Wikipedia, the free encyclopedia https://en.wikipedia.org/wiki/Representation_of_a_Lie_group...