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Saturday, May 27, 2023

Convective storm detection

From Wikipedia, the free encyclopedia

Convective storm detection is the meteorological observation, and short-term prediction, of deep moist convection (DMC). DMC describes atmospheric conditions producing single or clusters of large vertical extension clouds ranging from cumulus congestus to cumulonimbus, the latter producing thunderstorms associated with lightning and thunder. Those two types of clouds can produce severe weather at the surface and aloft.

The ability to discern the presence of deep moist convection in a storm significantly improves meteorologists' capacity to predict and monitor associated phenomena such as tornadoes, large hail, strong winds, and heavy rain leading to flash flooding. It relies on direct eyewitness observations, for example from storm spotters; and on remote sensing, especially weather radar. Some in situ measurements are used for direct detection as well, notably, wind speed reports from surface observation stations. It is part of the integrated warning system, consisting of prediction, detection, and dissemination of information on severe weather to users such as emergency management, storm spotters and chasers, the media, and the general public.

History

1960s radar technology (WSR-57) displaying supercells over Minneapolis – Saint Paul during the 1965 Twin Cities tornado outbreak

Rigorous attempts to warn of tornadoes began in the United States in the mid-20th century. Before the 1950s, the only method of detecting a tornado was by someone seeing it on the ground. Often, news of a tornado would reach a local weather office after the storm.

However, with the advent of weather radar, areas near a local office could get advance warning of severe weather. The first public tornado warnings were issued in 1950 and the first tornado watches and convective outlooks in 1952. In 1953 it was confirmed that hook echoes are associated with tornadoes. By recognizing these radar signatures, meteorologists could detect thunderstorms likely producing tornadoes from dozens of miles away.

Storm spotting

In the mid-1970s, the US National Weather Service (NWS) increased its efforts to train storm spotters to identify and report key features of storms which indicate severe hail, damaging winds, and tornadoes, as well as damage itself and flash flooding. The program was called Skywarn, and the spotters were local sheriff's deputies, state troopers, firefighters, ambulance drivers, amateur radio operators, civil defense (now emergency management) spotters, storm chasers, and ordinary citizens. When severe weather is anticipated, local weather service offices request that these spotters look out for severe weather, and report any tornadoes immediately, so that the office can issue a timely warning.

Usually, spotters are trained by the NWS on behalf of their respective organizations, and they report to them. The organizations activate public warning systems such as sirens and the Emergency Alert System, and forward the reports to the NWS, which does directly disseminate information and warnings through its NOAA Weather Radio All Hazards network. There are more than 230,000 trained Skywarn weather spotters across the United States.

In Canada, a similar network of volunteer weather watchers, called Canwarn, helps spot severe weather, with more than 1,000 volunteers.

In Europe, several nations are organizing spotter networks under the auspices of Skywarn Europe and the Tornado and Storm Research Organisation (TORRO) has maintained a network of spotters in the United Kingdom since the 1970s.

Storm spotters are needed because radar systems such as NEXRAD, and satellite images, do not detect tornadoes or hail, only indications that the storm has the potential. Radar and satellite data interpretation will usually give a warning before there is any visual evidence of such events, but ground truth from an observer can either verify the threat or determine it is not imminent. The spotter's ability to see what these remote sensing devices cannot is especially important as distance from a radar site increases, because the radar beam becomes progressively higher in altitude further away from the radar, due to curvature of Earth and the spread of the beam with distance. Therefore, when far from a radar, only precipitations and velocities high in the storm are observed. The important areas might not then be sampled or the resolution of the data might be poor. Also, some meteorological situations leading to tornadogenesis are not readily detectable by radar and on occasion tornado development may occur more quickly than radar can complete a scan and send the batch of data.

Visual evidence

A rotating wall cloud with rear flank downdraft clear slot evident to its left rear.

Storm spotters are trained to discern whether a storm seen from a distance is a supercell. They typically look to its rear, the main region of updraft and inflow. Under the updraft is a rain-free base, and the next step of tornadogenesis is the formation of a rotating wall cloud. The vast majority of intense tornadoes occur with a wall cloud on the backside of a supercell.

Evidence of a supercell comes from the storm's shape and structure, and cloud tower features such as a hard and vigorous updraft tower, a persistent and/or large overshooting top, a hard anvil (especially when backsheared against strong upper level winds), and a corkscrew look or striations. Under the storm and closer to where most tornadoes are found, evidence of a supercell and likelihood of a tornado includes inflow bands (particularly when curved) such as a "beaver tail", and other clues such as strength of inflow, warmth and moistness of inflow air, how outflow- or inflow-dominant a storm appears, and how far is the forward flank precipitation core from the wall cloud. Tornadogenesis is most likely at the interface of the updraft and forward flank downdraft, and requires a "balance" between the outflow and inflow.

Only wall clouds that rotate spawn tornadoes, and usually precede the tornado by five to thirty minutes. Rotating wall clouds are the visual manifestation of a mesocyclone. Barring a low-level boundary, tornadogenesis is highly unlikely unless a rear flank downdraft occurs, which is usually visibly evidenced by evaporation of cloud adjacent to a corner of a wall cloud. A tornado often occurs as this happens or shortly after; first, a funnel cloud dips and in nearly all cases by the time it reaches halfway down, a surface swirl has already developed, signifying a tornado is on the ground before condensation connects the surface circulation to the storm. Tornadoes may also occur without wall clouds, under flanking lines, and on the leading edge. Spotters monitor all areas of a storm and their surroundings.

Radar

Today, most developed countries have a network of weather radars, which remains the main method of detecting signatures likely associated with tornadoes and other severe phenomenons as hail and downbursts. Radar is always available, in places and times where spotters are not, and can also see features that spotters cannot, in the darkness of night and processes hidden within the cloud as well as invisible processes outside the cloud.

Tornadoes

Doppler NEXRAD radar image of two mesocyclones with one supercell passing over Northern Michigan on July 3rd, 1999 at 23:41 UTC. Rotations is seen as small couplets of red (away) and green (toward) radial velocities. The thick circles represents 3D vortices which have been classified as mesocyclones near the ground by a detection algorithm. The left mesocyclone is associated with a tornado while to the right a larger area of rotation has developed.
 
A classic hook echo. The tornado associated with this echo was part of the 1999 Oklahoma tornado outbreak. It reached F5 strength on the Fujita scale.
 
Vertical cross-section through a supercell exhibiting a BWER.

In short-term prediction and detection of tornadoes, meteorologists integrate radar data with reports from the field and knowledge of the meteorological environment. Radar analysis is augmented by automated detection systems called algorithms. Meteorologists first look at the atmospheric environment as well as changes thereof, and once storms develop, storm motion and interaction with the environment.

An early step in a storm organizing into a tornado producer is the formation of a weak echo region (WER) with a tilted updraft. This is an area within the thunderstorm where precipitation should be occurring but is "pulled" aloft by a very strong updraft. The weak echo region is characterized by weak reflectivity with a sharp gradient to strong reflectivity above it and partially surrounding the sides. The region of the precipitation lofted above the WER is the echo overhang consisting of precipitation particles diverging from the storm's summit that descend as they are carried downwind. Within this area, a bounded weak echo region (BWER) may then form above and enclosing the WER. A BWER is found near the top of the updraft and nearly or completely surrounded by strong reflectivity, and is indicative of a supercell capable of cyclic tornadogenesis. A mesocyclone may descend or a tornado may form in the lower level of the storm simultaneously as the mesocyclone forms.

In reflectivity (precipitation intensity) data, a tight echo gradient (particularly on the inflow area) and a fan shape generally indicate a supercell. A V-notch or "flying eagle echo" tend to be most pronounced with intense classic supercells, the type of supercell that produces most of the strongest, largest, and longest lived tornadoes. This is not to be confused with an inflow notch; which is a lower level indentation in the precipitation where there is little to no reflectivity, indicative of strong, organized inflow and a severe storm that is most likely a supercell. The rear inflow notch (or weak echo channel) occurs to the east or north of a mesocyclone and hook echo. Forward inflow notches also occur, particularly on high-precipitation supercells (HP) and quasi-linear convective systems (QLCS).

In the United States and a few other countries, Doppler capable weather radar stations are used. These devices are capable of measuring the radial velocity, including radial direction (towards or away from the radar) of the winds in a storm, and so can spot evidence of rotation in storms from more than a hundred miles (160 km) away. A supercell is characterized by a mesocyclone, which is usually first observed in velocity data as a tight, cyclonic structure in the middle levels of the thunderstorm. If it meets certain requirements of strength, duration, and vorticity, it may trip the mesocyclone detection algorithm (MDA). Tornadic signatures are indicated by a cyclonic inbound-outbound velocity couplet, where strong winds flowing in one direction and strong winds flowing in the opposite direction are occurring in very close proximity. The algorithm for this is the tornadic vortex signature (TVS) or the tornado detection algorithm (TDA). TVS is then an extremely strong mesocyclone found at very low level and extending over a deep layer of the thunderstorm, not the actual tornadic circulation. The TVS is, however, indicative of a likely tornado or an incipient tornado. The couplet and TVS typically precede tornado formation by 10–30 minutes but may occur at nearly the same time or precede the tornado by 45 minutes or more. Polarimetric radar can discern meteorological and nonmeteorological and other characteristics of hydrometeors that are helpful to tornado detection and nowcasting. Nonmeteorological reflectors co-located with a couplet, can confirm that a tornado has likely occurred and lofted debris. An area of high reflectivity, or debris ball, may also be visible on the end of the hook. Either the polarimetric data or debris ball are formally known as the tornado debris signature (TDS). The hook echo feature is formed as the RFD occludes precipitation around the mesocyclone and is also indicative of a probable tornado (tornadogenesis usually ensues shortly after the RFD reaches the surface).

After the implementation of the WSR-88D network in the U.S., the probability of detection of tornadoes increased substantially, the average lead time rose from four minutes to thirteen minutes, and a 2005 NOAA report estimates that as a result of improved warnings that there are 45 percent fewer fatalities and 40 percent fewer injuries annually. Dual-polarization radar, being implemented to the US NEXRAD network, may provide enhanced warning of tornadoes and severe winds and hail associated with the hook echo due to distinct precipitation drop characteristics. Polarimetric radar boosts precipitation observation and prediction, especially rainfall rates, hail detection, and distinguishing precipitation types. Proposed radar technologies, such as phased array and CASA, would further improve observations and forecasts by increasing the temporal and spatial resolution of scans in the former as well as providing low-level radar data over a wide area in the latter.

In certain atmospheric environments, wind profilers may also provide detection capabilities for tornadic activity.

Hail, downburst and downpour

Vertical cross-section of a thunderstorm at the top and VIL value of 63 kg/m2 with that cell at the bottom (red one), giving potential for hail, downpour, and/or downdraft

Hail forms in a very intense updraft in a supercell or a multicellular thunderstorm. As for tornadoes, BWER detection and a tilted updraft are indicative of that updraft but does not lead to predict hail. The presence of a hail spike in the reflectivity pattern is an important clue. It is an area of weak reflectivity extending away from the radar immediately behind a thunderstorm with hail. It is caused by radiation from the radar bouncing from hailstone to hailstone or the ground before being reflected back to the radar. The time delay between the backscattered radiation from the storm and the one with multiple paths causes the reflectivity from the hail to appear to come from a farther range than the actual storm. However, this artefact is visible mostly for extremely large hail.

What is needed is a knowledge of the water content in the thunderstorm, the freezing level and the height of the summit of the precipitation. One way of calculating the water content is to transform the reflectivities in rain rate at all levels in the clouds and to sum it up. This is done by an algorithm called Vertically integrated liquid, or VIL. This value represent the total amount of liquid water in the cloud that is available. If the cloud would rain out completely, it would be the amount of rain falling on the ground and one can estimate with VIL the potential for flash flood.

However, the reflectivities are greatly enhanced by hail and VIL is greatly overestimating the rain potential in presence of hail. On the other hand, National Weather Service meteorologists have found that the VIL density, that is to say VIL divided by the maximum height of the 18 dBZ in the cloud, is a good indicator of the presence of hail when it reach 3.5. This is a crude yes/no index and other algorithms have been developed involving VIL and the freezing level height. More recently, dual polarization of weather radar have shown promising direct detection of hail.

VIL can be used to estimate the potential for downburst, too. A convective downdraft is linked to three forces in the vertical, namely perturbation pressure gradient force, buoyancy force and precipitation loading. The pressure gradient force was neglected as it has significant effect only on the updraft in supercells. With this assumption and other simplifications (e.g. requiring the environment of the air parcel to be static on the time scale of the downdraft). The resulting momentum equation is integrated over height to yield the kinetic energy of the parcel on descending to the surface and is found to be the negative CAPE of a dry air parcel injected into the storm, plus de motion of the convective cell. S. R. Stewart, from NWS, has published in 1991 an equation relating VIL and the echo tops that give the potential for surface gust using this concept. This is a predictive result that gives a certain lead time. With the Doppler velocity data, the meteorologist can see the downdraft and gust fronts happening, but since this a small scale feature, detection algorithms have been developed to point convergence and divergence areas under a thunderstorm on the radar display.

Satellite imagery

Infrared weather satellite image at 23Z 7 April 2006 associated with a significant tornado outbreak in the eastern United States with arrows pointing to the enhanced-v signatures.

Most populated areas of the earth are now well covered by weather satellites, which aid in the nowcasting of severe convective and tornadic storms. These images are available in the visible and infrared domains. The infrared (IR: 10-13 µm) images permit estimation of the top height of the clouds, according to the air mass soundings of the day, and the visible (vis: 0.5-1.1 µm) ones will show the shape of the storms by its brightness and shadow produced. Meteorologists can extract information about the development stage and subsequent traits of thunderstorms by recognizing specific signatures in both domains. Visible imagery permits the most detailed imagery whereas infrared imagery has the advantage of availability at night. Sensors on satellites can also detect emissions from water vapor (WV: 6-7 µm), but mostly in the middle to upper levels of the troposphere, so thunderstorms are only seen after being well developed. It is, however, useful in convective storm prediction, as it illustrates the placement and movement of air masses and of moisture, as well as shortwaves and areas of vorticity and lifts.

Severe storms have a very strong updraft. The rising air parcels in that column accelerate and will overshoot the equilibrium level (EL) before being pulled back by negative buoyancy. This means the cloud tops will reach higher levels than the surrounding cloud in the updraft region. This overshooting top will be noticeable by a colder temperature region in the thunderstorm on infrared images. Another signature associated with this situation is the Enhanced-V feature where the cold cloud tops forming at the overshooting top fan out in a V shape as cloud matter is blown downwind at that level. Both features can be seen on visible satellite imagery, during daytime, by the shadows they cast on surrounding clouds.

In multicellular storms and squall lines, the mid-level jet stream is often intersecting the line and its dry air introduced into the cloud is negatively unstable. This results in drying of the cloudy air in the region where the jet plunge groundward. On the back edge of the line, this shows as clear notches where one can find stronger downdrafts at the surface. These kinds of lines often have a very characteristic undulating pattern caused by the interference of the gusts fronts coming from different parts of the line.

Finally, in any type of thunderstorm, the surface cold pool of air associated with the downdraft will stabilize the air and form a cloud-free area that will end along the gust front. This mesoscale front, when moving into a warm and unstable air mass, will lift it and cumulus clouds appear on satellite pictures. This line is likely the point of further convection and storms, especially if it coincides with fronts from other thunderstorms in the vicinity. One can notice it at the leading edge of a squall line, in the southeastern quadrant of a typical supercell (in the northern hemisphere), or different regions around other thunderstorms. They may also be visible as an outflow boundary hours or days after convection and can pinpoint areas of favored thunderstorm development, the possible direction of movement, and even likelihood for tornadoes. The speed of forward movement of the outflow boundary or gust front to some degree modulates the likelihood of tornadoes and helps determine whether a storm will be enhanced by its presence or the inflow be choked off thus weakening and possibly killing the storm. Thunderstorms may move along slow-moving or stationary outflow boundaries and tornadoes are more likely; whereas fast-moving gust fronts in many cases weaken thunderstorms after impact and are less likely to produce tornadoes—although brief tornadoes may occur at the time of impact. Fast-moving gust fronts may eventually decelerate and become slow-moving or stationary outflow boundaries with the characteristic "agitated area" of cumulus fields previously mentioned.

Lightning detection

Usually in conjunction with data sources such as weather radar and satellites, lightning detection systems are sometimes utilized to pinpoint where thunderstorms are occurring (and to identify lightning hazard). Currently, most lightning data provided in real-time is from terrestrial sources, specifically, networks of ground-based sensors, although airborne sensors are also in operation. Most of these only provide latitude & longitude, time, and polarity of cloud-to-ground strikes within a limited range. Increasing in sophistication and availability, and affording data for a very wide area, are satellite-based lightning detectors which initially included optical sensors indicating flash rates and horizontal location but now radio frequency receivers that can identify intra-cloud flashes with the addition of altitude, as well.

Lightning data is useful in suggesting intensity and organization of convective cells as well trends in thunderstorm activity (particularly growth, and to a lesser degree, decay). It is also useful in the early stages of thunderstorm development. This was especially true when visible and infrared satellite data was delayed, but continues to be useful in detecting thunderstorms in stages of development before there is a substantial radar signature or for areas where radar data is lacking. Coming advances in research and observations should improve forecasts of severe weather and increase warning time.

Personal lightning detection systems are also available, which may provide strike time, azimuth, and distance. In addition, lightning prediction systems are available and used mostly by parks and other outdoor recreational facilities, or meteorologists contracted to provide weather information for them.

African independence movements

From Wikipedia, the free encyclopedia

The African independence movements took place in the 20th century, when a wave of struggles for independence in European-ruled African territories were witnessed.

Notable independence movements took place:

For a list of African nations achieving independence, see Decolonisation of Africa.

British overseas territories

British Kenya

British-ruled Kenya was the place of a rebellion from 1952 to 1960, an insurgency by Kenyan rebels against the British colonialist rule. The core of the rebellion was formed by members of the Kikuyu ethnic group, along with smaller numbers of Embu and Meru.

French overseas territories

The flag of Algeria

French Algeria

The colonization of Algeria:

French colonization of Algeria began on June 14, 1830 when French soldiers arrived in a coastal town, Sidi Ferruch. The troops did not encounter significant resistance, and within 3 weeks, the occupation was officially declared on July 5, 1830. After a year of occupation over 3,000 Europeans (mostly French) had arrived ready to start businesses and claim land. In reaction to the French occupation, Amir Abd Al-Qadir was elected leader of the resistance movement. On November 27, 1832, Abd Al-Qadir declared that he reluctantly accepted the position, but saw serving in the position as a necessity in order to protect the country from the enemy (the French). Abd Al-Qadir declared the war against the French as jihad, opposed to liberation. Abd Al-Qadir's movement was unique from other independence movements because the main call to action was for Islam rather than nationalism. Abd Al-Qadir fought the French for nearly two decades, but was defeated when the Tijaniyya Brotherhood agreed to submit to French rule as long as “they were allowed to exercise freely the rites of their religion, and the honor of their wives and daughters was respected”. In 1847 Abd Al-Qadir was defeated and there were other resistance movements but none of them were as large nor as effective in comparison. Due to the lack of effective large-scale organizing, Algerian Muslims “resorted to passive resistance or resignation, waiting for new opportunities,” which came about from international political changes due to World War I. As World War I became a reality, officials discussed drafting young Algerians into the army to fight for the French, but there was some opposition. European settlers were worried that if Algerians served in the army, then those same Algerians would want rewards for their service and claim political rights (Alghailani). Despite the opposition, the French government drafted young Algerians into the French army for World War I.

Since many Algerians had fought as French soldiers during the First World War, just as the European settlers had suspected, Muslim Algerians wanted political rights after serving in the war. Muslim Algerians felt it was all the more unfair that their votes were not equal to the other Algerians (the settler population) especially after 1947 when the Algerian Assembly was created. This assembly was composed of 120 members. Muslim Algerians who represented about 9 million people could designate 50% of the Assembly members while 900,000 non-Muslim Algerians could designate the other half.

Muslim mosque in Algeria

Religion in Algeria:

When the French arrived in Algeria in 1830, they quickly took control of all Muslim establishments. The French took the land in order to transfer wealth and power to the new French settlers. In addition to taking property relating Muslim establishments, the French also took individuals’ property and by 1851, they had taken over 350,000 hectares of Algerian land. For many Algerians, Islam was the only way to escape the control of French Imperialism. In the 1920s and 30s, there was an Islamic revival led by the ulama, and this movement became the basis for opposition to French rule in Algeria. Ultimately, French colonial policy failed because the ulama, especially Ibn Badis, utilized the Islamic institutions to spread their ideas of revolution. For example, Ibn Badis used the “networks of schools, mosques, cultural clubs, and other institutions,” to educate others, which ultimately made the revolution possible. Education became an even more effective tool for spreading their revolutionary ideals when Muslims became resistant to sending their children to French schools, especially their daughters. Ultimately, this led to conflict between the French and the Muslims because there were effectively two different societies within one country. 

Monument to those killed in the first independence protest, the Sétif and Guelma massacre

Leading up to the fight for independence:

The fight for independence, or the Algerian war, began with a massacre that occurred on May 8, 1945 in Setif, Algeria. After WWII ended, nationalists in Algeria, in alignment with the American anti-colonial sentiment, organized marches, but these marches became bloody massacres. An estimated 6,000-45,000 Algerians were killed by the French army. This event triggered a radicalization of Algerian nationalists and it was a crucial event in leading up to the Algerian War.

In response to the massacre, Messali Hadj, the leader of the independence party, the Movement for the Triumph of Democratic Liberties (MTLD), "turned to electoral politics. With Hadj's leadership, the party won multiple municipal offices. But, in the 1948 elections the candidates were arrested by Interior Minister Jules Moch. While the candidates were being arrested, the local authorities stuffed ballots for Muslim men, non-members of the independence party. Since the MTLD could not gain independence via elections, Hadj turned to violent means and consulted "the head of its parliamentary wing, Hocine A ̈ıt Ahmed, to advise on how the party might win Algeria's independence through force of arms." A ̈ıt Ahmed had never been formally trained in strategy, so he studied former rebellions against the French and he came to the conclusion that "no other anti-colonial movement had had to deal with such a sizable and politically powerful settler population." Due to the powerful settler population, A ̈ıt Ahmed believed that Algeria could only achieve independence if the movement became relevant in the international political arena. Over the next few years, members of the MTLD began to disagree about which direction the organization should go to achieve independence, so eventually the more radical members broke off to form the National Liberation Front (FLN).

The fight for independence in the international arena:

The FLN officially started the Algerian War for Independence and followed A ̈ıt Ahmed's advice by creating tensions in the Franco-American relations. Due to the intensifying global relations, the Algerian War became a "kind of world war—a war for world opinion". In closed-door meetings the United States encouraged France to negotiate with the FLN, but during UN meetings the United States helped France end discussion on Algeria. Ultimately, the strategy of just focusing on superpowers was not successful for Algeria, but once A ̈ıt Ahmed began to exploit international rivalries the Algerian war for independence was successful.

Algerian women in the Algerian War of Independence

Women in the fight for independence:

Thousands of women took part in the war, even on deadly missions. Women took part as “combatants, spies, fundraisers, and couriers, as well as nurses, launderers, and cooks”. 3% of all fighters were women, which is roughly equivalent to 11,000 women.

This is a quote of three women who participated in the war: “We had visited the site and noted several possible targets. We had been told to place two bombs, but we were three, and at the last moment, since it was possible, we decided to plant three bombs. Samia and I carried three bombs from the Casbah to Bab el Oued, where they were primed...Each of us placed a bomb, and at the appointed time there were two explosions; one of the bombs was defective and didn't go off.’ - Djamila B., Zohra D., and Samia, Algiers, September 1956”.

Outcome of Independence:

Algeria gained independence on February 20, 1962 when the French government signed a peace accord.

While the women's movement made significant gains post-independence, peace in the country did not last long. Shortly after gaining independence, the Algerian Civil War began. The civil war erupted from anger regarding one party rule and ever increasing unemployment rates in Algeria. In October 1988, young Algerian men took to the streets and participated in week-long riots.

In addition, the Algerian war for independence inspired liberationists in South Africa. However, the liberationists were unsuccessful in implementing Alergian strategy into their independence movement.

The Algerian Independence movement also had a lasting impact on French thought about the relationship between the government and religion.

Portuguese overseas territories

Portugal built a five-century-long global empire. Portuguese overseas expansion began in the 15th century, thanks to several factors that gave the small coastal nation an advantage over its larger European neighbours. First, in the 14th century, Portuguese shipbuilders invented several new techniques that made sailing in the stormy Atlantic Ocean more practical. They combined elements of different types of ships to construct stronger, roomier and more manoeuvrable caravels. They also took advantage of more reliable compasses for navigation, and benefited from the school for navigation created by Prince Henry the Navigator (1394–1460) at Sagres in 1419. Starting with voyages to Madeira and the Azores (islands in the Atlantic) in the first part of the 14th century, the Portuguese systematically extended their explorations as far as Japan by the 16th century. In the process, they established forts and settlements along the West and East African coasts. In the 16th through 18th centuries, the Portuguese lost their lead to other European nations, notably England and France, but played a major role in the slave trade to satisfy the demand for labour in Brazil and other American markets. By the beginning of the 19th century, Portugal controlled outposts at six locations in Africa. One was the Cape Verde Islands, located about 1,100 kilometres (700 mi) due west of Dakar, Senegal. Claimed for Portugal by Diogo Gomes about 1458, this archipelago of eight major islands was devoted to sugar cultivation using slaves taken from the African mainland. The Portuguese once had extensive claims on the West African coast—since they were the first Europeans to explore it systematically—but by 1800 they were left with only a few ports at the mouth of the Rio Geba in what is now known as the Guinea-Bissau. To the east, the Portuguese controlled the islands of São Tomé and Príncipe, located south of the mouth of the Niger River. Like the Cape Verde Islands, they were converted to sugar production in the early 16th century using slaves acquired on the mainland in the vicinity of the Congo River. By the end of the 19th century, Portuguese landowners had successfully introduced cocoa production using forced African labour. Further south, the Portuguese claimed both sides of the mouth of the Congo River, as well as the Atlantic coast as far south as the Rio Cunene. In practical terms, Portugal controlled port cities like those of Cabinda (north of the Congo River mouth), Ambriz (south of the Congo's mouth), Luanda and Benguela (on the Angolan coast) plus some river towns in the Angolan interior.

The last area claimed by Portugal in Africa was along the southeast coast on either side of the mouth of the Zambezi River. After reaching this area, known as the Swahili Coast, at the end of the 15th century, the Portuguese came to dominate most of it by the end of the 16th century. During the 17th century, they lost control of everything north of Cape Delgado to Arabs from Oman (who established the Sultanate of Zanzibar), leaving them with major ports at Mozambique, Quelimane, and Lourenço Marques, plus settlements along the Zambezi and other rivers.

Despite these holdings, the Portuguese hold in Africa was problematic. The first cause was the small size of Portugal's population, coupled with the lack of popular support for overseas empire. Exploration and conquest began as an enterprise supported by the nobility, and Portuguese peasants rarely participated unless forced to do so. When the common people of Portugal did choose to emigrate, they were much more likely to head to Brazil and other territories than to Africa. To induce Europeans to move to its African holdings, the Portuguese government resorted to releasing degradados—convicted criminals—from prison in exchange for accepting what amounted to exile in Africa. Angola, in particular, gained a reputation as a Portuguese penal colony. Also, since the European population remained almost entirely male, the Portuguese birth rate was negligible, although plenty of "Afro-Lusitanians" were born to African mothers. As a result, the European population of Portugal's African settlements was never very large, and community leaders were just as likely to owe their loyalty to local African governments as they did to the distant Portuguese government.

A second cause of weakness in Portuguese Africa was the effects of three centuries of Atlantic slave trade which had roots in the older African slave trade. Once the Atlantic triangular trade got underway, many Portuguese (including many Brazilian traders) in Africa found little incentive to engage in any other kind of profitable economic activity. The economies of Guinea, Angola and Mozambique became almost entirely devoted to the export of slaves to the New World (plus gold and ivory where they were available) while on the islands, slaves were used to grow sugar for export. Colonial authorities did nothing to stop the slave trade, which had sympathisers even among the several native African tribes, and many became wealthy by supporting it, while the traders themselves generated huge profits with which they secured allies in Africa and Portugal.

Although anti-slavery efforts became organised in Europe in the 18th century, the slave trade only came to an end in the early 19th century, thanks in large part to English efforts to block shipping to the French during the Napoleonic Wars. Portugal was one of the first countries in the world to outlaw slavery, and did it so in mainland Portugal during the 18th century. The Portuguese government ended colonial slavery in stages with a final decree in 1858 that outlawed slavery in the overseas empire. The gradual pace of abolition was due to the strength of pro-slavery forces in Portuguese politics, Brazil and in Africa, they interfered with colonial administrators who challenged long-established and powerful commercial interests.

The Napoleonic Wars added a new force to the Portuguese political scene—republicanism—introduced as an alternative to the monarchy by French troops in 1807. The French invasion induced the Portuguese royal family to make the controversial decision to flee to Brazil (on English ships), from where they ruled until 1821. By the time King João VI returned to Lisbon, he faced a nobility divided in their support for him personally, plus a middle class that wanted a constitutional monarchy. During Joao VI's reign (1821–1826) and that of his successors—Peter IV (1826–1831), Maria (1833–1853), Peter V (1853–1861), Louis I (1861–1889), and Carlos (1889–1908)—there was a civil war that lasted from 1826 to 1834, a long period characterised by what one author called "ministerial instability and chronic insurrection" from 1834 to 1853, and finally the end of the monarchy when both Carlos and his heir were assassinated on February 1, 1908. Under those circumstances, colonial officials appointed by governments in Lisbon were more concerned with politics at home than with administering their African territories.

As it did everywhere else, the Industrial Revolution stimulated change in Portuguese Africa. It created a demand for tropical raw materials like vegetable oils, cotton, cocoa and rubber, and it also created a need for markets to purchase the expanded quantity of goods issuing from factories. In Portugal's case, most of the factories were located in England, which had had a special relationship with Portugal ever since Philippa, the daughter of England's John of Gaunt, married John of Avis, the founder of the Portuguese second dynasty. Prodded by Napoleon's invasion and English support for the royal family's escape to Brazil, King João and his successors eliminated tariffs, ended trade monopolies and generally opened the way for British merchants to become dominant in the Portuguese empire. At times, that caused friction, such as when both British and Portuguese explorers claimed the Shire Highlands (located in modern Malawi), but for the most part Great Britain supported the Portuguese position in exchange for incorporating Portugal's holdings into the British economic sphere.

With neither a large European population nor African wage earners, the Portuguese colonies offered poor markets for manufactured goods from the private sector. Consequently, industrialisation arrived in the form of government programs designed to improve internal communications and increase the number of European settlers. During the late 1830s, the government headed by Marquis Sá da Bandeira tried to encourage Portuguese farmers to migrate to Angola, with little success. Between 1845 and 1900, the European population of Angola rose from 1,832 to only about 9,000. European migration to Mozambique showed slightly better results—about 11,000 in 1911—but many were British from South Africa rather than Portuguese. The other major force for change was the rivalries that developed between European nations in the century between the end of the Napoleonic Wars and the outbreak of World War I. Forbidden from fighting each other by the "balance of power" established by the Treaty of Vienna, they competed in other ways including scientific discoveries, athletic competitions, exploration and proxy wars. Although not a major power anymore, Portugal participated in the competition, especially by sending out explorers to solidify their claim to all of the land between Angola and Mozambique. That bought them into conflict with men like Cecil Rhodes, whose own vision of an empire from "Cape to Cairo" required that the British gain control over the same land (see British Ultimatum).

European rivalries appeared most often as commercial competition, and in 19th century Africa, that included the right to move goods by steamboat along rivers. The British had a head start thanks to their early adoption of steam technology and their supremacy on the high seas. They became the strongest proponents of the principle of "free trade" which prohibited countries from creating legal barriers to another country's merchants. Occasionally, Portuguese leaders resisted, but the British alliance provided sufficient benefits to convince various administrations to go along (although they faced revolts at home and in their colonies).

It was Portugal's claim to the land on either side of the mouth of the Congo River that triggered the events leading up to the Congress of Berlin. That claim, which dated from Diogo Cão's voyage in 1484, gave Portugal places from which naval patrols could control access to Africa's largest river system. The British eyed this arrangement with suspicion for years, but paid tariffs (like everyone else) for the right to trade there, mostly for slaves.

After the abolition of slavery got underway, the Portuguese dragged their heels, so in 1839 the British government declared its right to inspect Portuguese ships for evidence of slave trading with or without Portuguese consent. That stirred the Portuguese to action, and in a subsequent series of agreements made in the 1840s, the British acquired the right to land their ships to land where no Portuguese authorities were present. When the Portuguese refused to renew the agreement in 1853, the British ceased paying tariffs at the ports on either side of the Congo River mouth, claiming that Portugal's claim had expired because they had left the area unoccupied for too long. Portugal reoccupied the ports of Cabinda and Ambriz in 1855, and relations with Great Britain improved after that. The dispute set a precedent, however, that effective occupation was a prerequisite for recognition of colonial claims. The question continued to reappear until 1885 when it was enshrined in the agreements that emanated from the Congress of Berlin.

The final straw was the Anglo-Portuguese Treaty signed on February 26, 1884. It granted exclusive navigation rights on the Congo River to Britain in exchange for British guarantees of Portugal's control of the coast at the mouth of the Congo River. Most significantly, it prevented the French from taking advantage of treaties signed by one of its explorers (Pierre Savorgnan de Brazza) with Africans living along the north side of the Congo River. International protests forced the two countries to abandon the treaty in June 1884, and Bismarck used the controversy to call the Congress of Berlin later that year.

The Portuguese were the first Europeans to claim territory in sub-Saharan Africa, and their example inspired imitation from other European powers. For the British, the Portuguese were acceptable proxies in the competition with France, Russia and Germany for world domination. For Portuguese governments, the British alliance gave them influence that they could not command themselves, while the idea of a Portuguese empire offered something with which to distract domestic opponents from the struggles initiated by the Napoleonic Wars.

The issues that were raised by Portugal's claims in Africa and the efforts of other countries to whittle them down became the fundamental issues of the Congress of Berlin. In the end, the Congress settled more than the future of Portugal's African holdings—it also set the rules for any European government which wished to establish an empire in Africa.

In the 1950s, after World War II, several African territories became independent from their European rulers, but the oldest Europe-ruled territories, those ruled by Portugal, were rebranded "Overseas Provinces" from the former designation as Portuguese colonies. This was a firm effort of Portugal's authorities to preserve its old African possessions abroad and refuse any claims of independence. This was followed by a wave of strong economic and social developments in all Portuguese Africa, in particular the overseas provinces of Angola and Mozambique.

By the 1960s, several organisations were founded to support independence's claims of the Portuguese overseas provinces in Africa. They were mostly entirely based and supported from outside Portugal's territories. Headquartered and managed in countries like Senegal, Tanzania, Algeria, Guinea and Ethiopia, these guerrilla movements sought weapons, financing and political support in Eastern Bloc's communist states and the People's Republic of China. A Cold War conflict in Portuguese Africa was about to start. Marxist-Leninist and Maoist ideologies, backed by countries like the Soviet Union and People's Republic of China were behind the nationalist guerrilla movements created to attack Portuguese possessions and claim independence. The USA and other countries, in order to counter communist growing influence in the region also started to support some nationalist guerrillas in their fight against Portugal. The series of guerrilla wars involving Portugal and several armed nationalist groups from Africa in its overseas provinces of Angola, Guinea, and Mozambique, become known as the Portuguese Colonial War (Guerra Colonial or Guerra do Ultramar).

African nationalism in Portuguese Africa

Portuguese Angola

Portuguese soldiers in Angola.
 

In Portuguese Angola, the rebellion of the ZSN was taken up by the União das Populações de Angola (UPA), which changed its name to the National Liberation Front of Angola (FNLA) in 1962. On February 4, 1961, the People's Movement for the Liberation of Angola (MPLA) took credit for the attack on the prison of Luanda, where seven policemen were killed. On March 15, 1961, the UPA, in a tribal attack, started the massacre of white populations and black workers born in other regions of Angola. This region would be retaken by large military operations that, however, would not stop the spread of the guerrilla actions to other regions of Angola, such as Cabinda, the east, the southeast and the central plateaus.

Portuguese Guinea

PAIGC's checkpoint in 1974

In Portuguese Guinea, the Marxist African Party for the Independence of Guinea and Cape Verde (PAIGC) started fighting in January 1963. Its guerrilla fighters attacked the Portuguese headquarters in Tite, located to the south of Bissau, the capital, near the Corubal river . Similar actions quickly spread across the entire colony, requiring a strong response from the Portuguese forces.

The war in Guinea placed face to face Amílcar Cabral, the leader of PAIGC, and António de Spínola, the Portuguese general responsible for the local military operations. In 1965 the war spread to the eastern part of the country and in that same year the PAIGC carried out attacks in the north of the country where at the time only the minor guerrilla movement, the Frente de Luta pela Independência Nacional da Guiné (FLING), was fighting. By that time, the PAIGC started receiving military support from the Socialist Bloc, mainly from Cuba, a support that would last until the end of the war.

In Guinea the Portuguese troops mainly took a defensive position, limiting themselves to keeping the territories they already held. This kind of action was particularly devastating to the Portuguese troops who were constantly attacked by the forces of the PAIGC. They were also demoralised by the steady growth of the influence of the liberation supporters among the population that was being recruited in large numbers by the PAIGC.

With some strategic changes by António Spínola in the late 1960s, the Portuguese forces gained momentum and, taking the offensive, became a much more effective force. Between 1968 and 1972, the Portuguese forces took control of the situation and sometimes carried attacks against the PAIGC positions. At this time the Portuguese forces were also adopting subversive means to counter the insurgents, attacking the political structure of the nationalist movement. This strategy culminated in the assassination of Amílcar Cabral in January 1973. Nonetheless, the PAIGC continued to fight back and pushed the Portuguese forces to the limit. This became even more visible after PAIGC received anti-aircraft weapons provided by the Soviets, especially the SA-7 rocket launchers, thus undermining the Portuguese air superiority.

Portuguese Mozambique

Portuguese Mozambique was the last territory to start the war of liberation. Its nationalist movement was led by the Marxist-Leninist Liberation Front of Mozambique (FRELIMO), which carried out the first attack against Portuguese targets on September 24, 1964, in Chai, province of Cabo Delgado. The fighting later spread to Niassa, Tete at the centre of the country. A report from Battalion No. 558 of the Portuguese army makes references to violent actions, also in Cabo Delgado, on August 21, 1964. On November 16 of the same year, the Portuguese troops suffered their first losses fighting in the north of the country, in the region of Xilama. By this time, the size of the guerrilla movement had substantially increased; this, along with the low numbers of Portuguese troops and colonists, allowed a steady increase in FRELIMO's strength. It quickly started moving south in the direction of Meponda and Mandimba, linking to Tete with the aid of Malawi.

Until 1967 the FRELIMO showed less interest in Tete region, putting its efforts on the two northernmost districts of the country where the use of landmines became very common. In the region of Niassa, FRELIMO's intention was to create a free corridor to Zambézia. Until April 1970, the military activity of FRELIMO increased steadily, mainly due to the strategic work of Samora Machel in the region of Cabo Delgado. In the early 1970s, after the Portuguese Gordian Knot Operation, the nationalist guerrilla was severely damaged.

Role of the Organisation of African Unity

The Organisation of African Unity (OAU) was founded May 1963. Its basic principles were co-operation between African nations and solidarity between African peoples. Another important objective of the OAU was an end to all forms of colonialism in Africa. This became the major objective of the organisation in its first years and soon OAU pressure led to the situation in the Portuguese colonies being brought up at the UN Security Council.

The OAU established a committee based in Dar es Salaam, with representatives from Ethiopia, Algeria, Uganda, Egypt, Tanzania, Zaire, Guinea, Senegal and Nigeria, to support African liberation movements. The support provided by the committee included military training and weapon supplies. The OAU also took action in order to promote the international acknowledgement of the legitimacy of the Revolutionary Government of Angola in Exile (GRAE), composed of the National Liberation Front of Angola (FNLA). This support was transferred to the People's Movement for the Liberation of Angola (MPLA) and to its leader, Agostinho Neto in 1967. In November 1972, both movements were recognised by the OAU in order to promote their merger. After 1964, the OAU recognised PAIGC as the legitimate representatives of Guinea-Bissau and Cape Verde and in 1965 recognised FRELIMO for Mozambique.

Eritrea

Eritrea sits on a strategic location along the Red Sea, between the Suez Canal and the Bab-el-Mandeb. Eritrea was an Italian colony from 1890–1941. On April 1, 1941, the British captured Asmara defeating the Italians and Eritrea fell under the British Military Administration. This military rule lasted from 1941 until 1952. On December 2, 1950, the United Nations General Assembly, by UN Resolution 390 A(V) federated Eritrea with Ethiopia. The architect of this federal act was the United States. The federation went into effect September 11, 1952. However, the federation was a non-starter for feudal Ethiopia, and it started to systematically undermine it. On December 24, 1958—the Eritrean flag was replaced by the Ethiopian flag; On May 17, 1960—The title "Government of Eritrea" of the Federation was changed to "Administration of Eritrea". Earlier Amharic was declared official language in Eritrea replacing Tigrinya and Arabic. Finally on November 14, 1962 -– Ethiopia officially annexed Eritrea as its 14th province.

The people of Eritrea, after finding out peaceful resistance against Ethiopia's rule was falling on deaf ears formed the Eritrean Liberation Movement (ELM) which was formed in 1958. The founders of these independence movement were: Mohammad Said Nawud, Saleh Ahmed Iyay, Yasin al-Gade, Mohammad al-Hassen and Said Sabr. ELM members were organised in secret cells of seven. The movement was known as Mahber Shewate in Tigrinya and as Harakat Atahrir al Eritrea in Arabic. On July 10, 1960, a second independence movement, the Eritrean Liberation Front (ELF) was founded in Cairo. Among its founders were: Idris Mohammed Adem, President, Osman Salih Sabbe, Secretary General, and Idris Glawdewos as head of military affairs. These were among those who made up the highest political body known as the Supreme Council. On September 1, 1961, Hamid Idris Awate and his ELF unit attacked an Ethiopian police unit in western Eritrea (near Mt. Adal). This heralded the 30-year Eritrean war for independence. Between March and November 1970, three core groups that later made up the Eritrean People's Liberation Front (EPLF) split from the ELF and established themselves as separate units.

In September 1974, Emperor Haile Selassie was overthrown by a military coup in Ethiopia. The military committee that took power in Ethiopia is better known by its Amharic name the Derg. After the military coup the Derg broke ties with the U.S. and realigned itself with the USSR (Union of Soviet Socialist Republics) and the USSR and its eastern bloc allies replaced America as patrons of Ethiopia's aggression against Eritrea. Between January and July 1977, the ELF and EPLF armies had liberated 95% of Eritrea capturing all but 4 towns. However, in 1978–79, Ethiopia mounted a series of five massive Soviet-backed offensives and reoccupied almost all of Eritrea's major towns and cities, except for Nakfa. The EPLF withdrew to a mountain base in northern Eritrea, around the town of Nakfa. In 1980 the EPLF had offered a proposal for referendum to end the war, however, Ethiopia, thinking it had a military upper hand, rejected the offer and war continued. In February–June 1982, The EPLF managed to repulse Ethiopia's much heralded four-month "Red Star" campaign (aka the 6th offensive by Eritreans) inflicting more than 31,000 Ethiopian casualties. In 1984 the EPLF started its counter-offensive and cleared the Ethiopian from the North-eastern Sahil front. In March 1988 the EPLF demolished the Ethiopian front at Afabet in a major offensive the British Historian Basil Davidson compared to the French defeat at Dien Bien Phu. In February 1990 the EPLF liberated the strategic port of Massawa and in the process destroyed a portion of the Ethiopian Navy. A year later the war came to conclusion on May 24, 1991, when the Ethiopian army in Eritrea surrendered. Thus Eritrea's 30-year war crowned with victory.

On May 24, 1993, after a UN-supervised referendum on April 23–25, 1993, in which the Eritrean people overwhelmingly, 99.8%, voted for independence, Eritrea officially declared its independence and gained international recognition.

Namibia

South African soldiers pose with a captured German flag after their successful invasion of South-West Africa in 1915.

At the onset of World War I, the Union of South Africa participated in the invasion and occupation of several Allied territories taken from the German Empire, most notably German South-West Africa and German East Africa (Tanzania). Germany's defeat forced the new Weimar Republic to cede its overseas possessions to the League of Nations as mandates. A mandate over South-West Africa was conferred upon the United Kingdom, "for and on behalf of the government of the Union of South Africa", which was to handle administrative affairs under the supervision of the league. South-West Africa was classified as a "C" mandate, or a territory whose population sparseness, small size, remoteness, and geographic continuity to the mandatory power allowed it to be governed as an integral part of the mandatory itself. Nevertheless, the League of Nations obliged South Africa to promote social progress among indigenous inhabitants, refrain from establishing military bases there, and grant residence to missionaries of any nationality without restriction. Article 7 of the South-West Africa mandate stated that the consent of the league was required for any changes in the terms of the mandate.

With regards to the local German population, the occupation was on especially lenient terms; South Africa only repatriated civil and military officials, along with a small handful of political undesirables. Other German civilians were allowed to remain. In 1924 all white South-West Africans were automatically naturalised as South African nationals and British subjects thereof; the exception being about 260 who lodged specific objections. In 1926 a Legislative Assembly was created to represent German, Afrikaans, and English-speaking white residents. Control over basic administrative matters, including taxation, was surrendered to the new assembly, while matters pertaining to defence and native affairs remained in the hands of an administrator-general.

Following World War II, South-West Africa's international status after the dissolution of the League of Nations was questioned. The United Nations General Assembly refused South Africa permission to incorporate the mandate as a fifth province, largely due to its controversial policy of racial apartheid. At the General Assembly's request the issue was examined at the International Court of Justice. The court ruled in 1950 that South Africa was not required to transfer the mandate to UN trusteeship, but remained obligated to adhere to its original terms, including the submission of annual reports on conditions in the territory.

South African military convoy in Namibia, 1978.

Led by newly elected Afrikaner nationalist Daniel François Malan, the South African government rejected this opinion and refused to recognise the competence of the UN to interfere with South-West African affairs. In 1960 Ethiopia and Liberia, the only two other former League of Nations member states in Africa, petitioned the Hague to rule in a binding decision that the league mandate was still in force and to hold South Africa responsible for failure to provide the highest material and moral welfare of black South-West Africans. It was pointed out that nonwhite residents were subject to all the restrictive apartheid legislation affecting nonwhites in South Africa, including confinement to reserves, colour bars in employment, pass laws, and influx control over urban migrants. A South African attempt to scupper proceedings by arguing that the court had no jurisdiction to hear the case was rejected; conversely, however, the court itself ruled that Ethiopia and Liberia did not possess the necessary legal interest entitling them to bring the case.

In October 1966 the General Assembly declared that South Africa had failed to fulfill its obligations as the mandatory power and had in fact disavowed them. The mandate was unilaterally terminated on the grounds that the UN would now assume direct responsibility for South-West Africa. In 1967 and 1969 the UN called for South Africa's disengagement and requested the Security Council to take measures to oust the South African Defence Force from the territory that the General Assembly, at the request of black leaders in exile, had officially renamed Namibia. One of the greatest aggravating obstacles to eventual independence occurred when the UN also agreed to recognise the South West African People's Organization (SWAPO), then an almost exclusively Ovambo body, as the sole authentic representative of the Namibian population. South Africa was offended by the General Assembly's simultaneous dismissal of its various internal Namibian parties as puppets of the occupying power. Furthermore, SWAPO espoused a militant platform which called for independence through UN activity, including military intervention.

By 1965 SWAPO's morale had been elevated by the formation of a guerrilla wing, the People's Liberation Army of Namibia (PLAN), which forced the deployment of South African Police troops along the long and remote northern frontier. The first armed clashes between PLAN cadres and local security forces took place in August 1966.

Entropy (information theory)

From Wikipedia, the free encyclopedia https://en.wikipedia.org/wiki/Entropy_(information_theory) In info...