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definitions - Mount_Pinatubo

Mount Pinatubo (n.)

1.a volcano on Luzon to the northwest of Manila; erupted in 1991 after 600 years of dormancy

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synonyms - Mount_Pinatubo

Mount Pinatubo (n.)

Pinatubo

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analogical dictionary

 

volcano[ClasseHyper.]

croûte terrestre (fr)[DomainDescrip.]

mount, mountain[Hyper.]

volcanic[Dérivé]

volcano[Hyper.]

Mount Pinatubo (n.)


Wikipedia

Mount Pinatubo

                   
Mount Pinatubo
Pinatubo91eruption clark air base.jpg
The eruption column of Mount Pinatubo on June 12, 1991, three days before the climactic eruption.
Elevation 1,485 m (4,872 ft)(current)
1,745 m (5,725 ft) (before 1991 eruption)
Pronunciation /ˌpnəˈtb/
Location
Location Provinces of Zambales, Tarlac and Pampanga on Luzon island, Philippines
Range Zambales Mountains
Coordinates 15°08′30″N 120°21′00″E / 15.14167°N 120.35°E / 15.14167; 120.35Coordinates: 15°08′30″N 120°21′00″E / 15.14167°N 120.35°E / 15.14167; 120.35
Geology
Type Stratovolcano[1]
Age of rock Between 635,000 ± 80,000
and 1.1 ±; 0.09 million years[2]
Last eruption 1993

Mount Pinatubo is an active stratovolcano located on the island of Luzon, near the tripoint of the Philippine provinces of Zambales, Tarlac, and Pampanga.[3] It is located in the Cabusilan Mountains[3][4] separating the west coast of Luzon from the central plains. Before the volcanic activities of 1991, its eruptive history was unknown to most people. It was heavily eroded, inconspicuous and obscured from view. It was covered with dense forest which supported a population of several thousand indigenous people, the Aetas, who fled to the mountains during the Spanish conquest of the Philippines.

The volcano's Plinian / Ultra-Plinian eruption on June 15, 1991 produced the second largest terrestrial eruption of the 20th century after the 1912 eruption of Novarupta in the Alaska Peninsula.[5] Complicating the eruption was the arrival of Typhoon Yunya bringing a lethal mix of ash and rain. Successful predictions at the onset of the climactic eruption led to the evacuation of tens of thousands of people from the surrounding areas, saving many lives, but the surrounding areas were severely damaged by pyroclastic flows, ash deposits, and subsequently, by the lahars caused by rainwaters re-mobilizing earlier volcanic deposits destroying thousands of infrastructures and altering the river systems months to years after the eruption.[5][6]

The effects of the eruption were felt worldwide. It ejected roughly 10,000,000,000 tonnes (1.1×1010 short tons) or 10 km3 (2.4 cu mi) of magma, and 20,000,000 t (22,000,000 short tons) SO2, bringing vast quantities of minerals and metals to the surface environment. It injected large amounts of aerosol into the stratosphere – more than any eruption since that of Krakatoa in 1883. Over the following months, the aerosols formed a global layer of sulfuric acid haze. Global temperatures dropped by about 0.5 °C (0.900 °F), and ozone depletion temporarily increased substantially.[7]

Contents

  Overview of the area

  Location of Mount Pinatubo, showing area over which ash from the 1991 eruption fell

The volcano is located 87 km (54 mi) northwest of Manila, the capital of the Philippines. Near Mount Pinatubo, the United States maintained two large military bases in the region. The U.S. Naval Base Subic Bay was located 37 km (23 mi) south of Pinatubo, while the extent of Clark Air Base was just 14 km (8.7 mi) to the east of the volcano's summit.[8] Clark Air Base's residential areas and petroleum storage facilities were in much closer proximity to the volcano than the airfield complex and neighboring Angeles City.

  The Aetas

An indigenous group of people, the Aetas (also spelled as Ayta/Ita), had lived on the slopes of the volcano and in surrounding areas for several centuries, having fled the lowlands to escape persecution by the Spanish during their conquest of the Philippines which began in 1565. They were a hunter-gatherer people who were extremely successful in surviving in the dense jungles of the area. These people also grew some staple crops such as wheat, barley, rice and raised animals.

In total, about 30,000 people lived on the flanks of the volcano in about 25 established barangays (villages) and other small settlements like Tarukan village and Maruglu. The dense jungle covering most of the mountain and surrounding peaks supported the hunter-gathering Aeta, while on the surrounding flatter areas, the abundant rainfall of almost 4 metres (13 ft) annually) provided by the monsoon climate and the fertile volcanic soils provided excellent conditions for agriculture.

  Geological history

Mount Pinatubo's summit before the 1991 eruption was 1,745 m (5,725 ft) above sea level, only about 600 m (2,000 ft) above nearby plains, and only about 200 m (660 ft) higher than surrounding peaks, which largely obscured it from view. It is a part of a chain of volcanoes which lie along the western side of the edge of the island of Luzon called the Zambales Mountains. Pinatubo belongs to the Cabusilan Mountains, the central range of the Zambales Mountains, which consists of Mt. Cuadrado, Mt. Negron, Mt. Mataba and Mt. Pinatubo.[9] They are subduction volcanoes, formed by the Eurasian Plate sliding under the Philippine Mobile Belt along the Manila Trench to the west.[10] Mount Pinatubo and the other volcanoes on this volcanic belt arise due to magma occlusion from this subduction plate boundary.

Pinatubo is flanked on the west by the Zambales Ophiolite Complex, which is an easterly-dipping section of Eocene ocean crust which was uplifted during the late Oligocene. The Tarlac Formation consists of marine, nonmarine and volcaniclastic sediments in the north, east and southeast of Pinatubo which was formed in the late Miocene and Pliocene.[11]

The most recent study of Mount Pinatubo prior to the activities of 1991 was the overall geological study in 1983 and 1984 made by F.G. Delfin for the Philippine National Oil Company as part of the surface investigations of the area prior to the exploratory drilling and well testing for geothermal sources in 1988 to 1990. He recognized two life history of mountain which he classified into the 'ancestral' and 'modern' Pinatubo.[11][12]

  Ancestral Pinatubo

  Pinatubo before the major eruption of 1991.

Activity of Ancestral Pinatubo seems to have begun about 1.1 million years ago and probably ended tens of thousands or more before the birth of 'Modern Pinatubo'. Much of the rugged land surrounding the present volcano consists of remnants of 'ancestral' Pinatubo. It was an andesite and dacite stratovolcano with its eruptive activity much less explosive than modern Pinatubo. Its center was roughly in the same location of the current volcano. The projected height of the mountain is up to 2,300 m (7,500 ft) above sea level if it was a lone peak, based on profile fitting to the remaining lower slopes, or lower if it has more than one.[11]

The old volcano is exposed in the walls of an old 3.5 × 4.5 km (2.2 × 2.8 mi) wide caldera, referred to as Tayawan Caldera by Delfin. Some of the nearby peaks are the remnants of ancestral Pinatubo, left behind when the softer parts of the old mountain slopes were eroded by weathering. Ancestral Pinatubo is a somma volcano with 'Modern' Pinatubo as the new cone. Its remaining caldera rim includes Mount Donald MacDonald, forming the southeast rim, and Mount Tayawan, the longer north to northeast rim, after which the caldera was named. Mount Dorst, to the east, is part of the dip slope of the ancestral Pinatubo. Several mountains near modern Pinatubo are old satellite vents of ancestral Pinatubo, forming volcanic plugs and lava domes. These satellite vents were probably active around the same time as the ancestral volcano and include the domes of Mount Negron, Mount Cuadrado, Mount Mataba, and the Bituin and Tapungho plugs.[11]

  Modern Pinatubo

After a long period of dormancy, Modern Pinatubo was born in the cataclysmic and the most explosive eruption of Pinatubo around 35,000 years ago. The eruption, which was estimated to be five times larger than the 1991 eruption, deposited pyroclastic flow material up to 100 metres (330 ft) thick on all sides of the mountain. The total volume of pyroclastic flows deposited around the volcano may have been up to 25 km3 (6.0 cu mi), but the total volume of volcanic material ejected during the eruption is unknown. The removal of this amount of material from the underlying magma chamber led to the formation of the Tayawan caldera. The eruptive period started by the eruption is referred to by Delfin as the Inararo Eruptive Period, named after a village that was destroyed in the 1991 eruption.[11]

Later eruptions of Modern Pinatubo occurred episodically and lasted for periods much shorter than the repose intervals between them. Subsequent eruptions and eruptive period occurred about ~17,000 (Sacobia Eruptive Period); ~9000 (Pasbul Eruptive Period); ~6000–5000 (Crow Valley Eruptive Period); ~3,900–2,300 (Maraunot Eruptive Period); and ~500 years ago (Buag Eruptive Period). Each of these eruptions seems to have been very large, ejecting more than 10 km³ of material and covering large parts of the surrounding areas with pyroclastic flow deposits. Some eruptive periods have lasted decades and perhaps as much as several centuries and might appear to include multiple large explosive eruptions.[11]

The maximum size of eruptions in each eruptive period though have been getting smaller through the >35,000-yr history of modern Pinatubo, but this might be an artifact of erosion and (or) burial of older deposits. The oldest eruption of modern Pinatubo, Inararo, was also its largest. Those of the Pasbul period were as energetic, if not as voluminous as the Inararo eruptions. Although smaller than the Inararo eruptions, those of the Crow Valley and Maraunot periods were still about 2 to 3 times as big as that of 1991 based on the pyroclastic flow runout distances and depths of valley filling. Eruptions of the Buag period were roughly the same size as those of 1991. The 1991 eruption was among the smallest documented in its geologic record.[11]

The volcano never grew very large in between eruptions, because it produces mostly unwelded, easily erodible deposits, and periodically destroys the viscous domes that fill its vents. After the Buag eruption (~500 years ago), the volcano lay dormant, its slopes became completely covered in dense rainforest and eroded into gullies and ravines. The ~500-year repose though between the Buag and present eruptive periods is among the shorter repose periods recognized in its geologic history.[11]

  The 1991 eruption

  Possible precursor in 1990

On July 16, 1990, the major 1990 Luzon earthquake of magnitude 7.7 struck central Luzon. This was the largest earthquake recorded in 1990,[13][14] comparable in size to the 1906 San Francisco earthquake and the 2008 Sichuan earthquake. Its epicenter was in Rizal, Nueva Ecija municipality,[15] about 100 km northeast of Pinatubo, and faulted northwest-southeast through three provinces. It also followed the Philippine Fault System west as far as Baguio City, which was devastated, and is located about 80 kilometres (50 mi) north-northeast of Pinatubo, leading volcanologists to speculate that it might ultimately have triggered the 1991 eruption, although this is impossible to prove conclusively. Two weeks after the earthquake, local residents reported steam coming from the volcano, but scientists who visited the mountain in response found only small landslides rather than any eruptive activity.

  1991 activities leading to the eruption

On March 15, 1991, a succession of earthquakes was felt by villagers on the northwestern side of the volcano. Further earthquakes of increasing intensity were felt over the next two weeks, and it became clear some kind of volcanic activity was likely. On April 2, the volcano awoke, with phreatic eruptions occurring near the summit along a 1.5 km (0.93 mi) long fissure. Over the next few weeks, small eruptions continued, dusting the surrounding areas with volcanic ash. Seismographs recorded hundreds of small earthquakes every day.

Scientists immediately installed monitoring equipment and analyzed the volcano for clues as to its previous eruptive history. Radiocarbon dating of charcoal found in old volcanic deposits revealed the last three major explosive eruption periods in recent millennia, about 5500, 3500 and 500 years ago. Geological mapping showed that much of the surrounding plains were formed by lahar deposits from previous eruptions.

Volcanic activity increased throughout May. Measurements of sulfur dioxide emissions showed a rapid increase from 500 t (550 short tons) per day by May 13 to 5,000 t (5,500 short tons) per day by May 28. This implied that there was a rising column of fresh magma beneath the volcano. After May 28, the amount of SO2 being emitted decreased substantially, raising fears that the degassing of the magma had been blocked somehow, leading to a pressure build-up in the magma chamber and a high likelihood of explosive eruptions.

The first magmatic eruptions occurred on June 3, and the first large explosion on June 7 generated an ash column 7 km (4.3 mi) high. The Philippine Institute of Volcanology and Seismology (PHIVOLCS) issued a warning indicating the possibility of a major eruption within two weeks.

  Evacuations

  Map of Pinatubo showing nearby peaks and the evacuation zones

Given all the signs that a very large eruption was imminent, PHIVOLCS – assisted by the U.S. Geological Survey – worked to convince local inhabitants of the severity of the threat. A false warning might have led to cynicism about any later warnings, but delaying a warning until an eruption began might lead to thousands of deaths, so the volcanologists were under some pressure to deliver a timely and accurate assessment of the volcanic risk.

Three successive evacuation zones were defined, the innermost containing everything within 10 km of the volcano's summit, the second extending from 10 to 20 km from the summit, and the third extending from 20–40 km (12–25 mi) from the summit (Clark Air Base and Angeles City were in this zone). The 10 km (6.2 mi) and 10–20 km (6.2–12 mi) zones had a total population of about 40,000, while some 331,000 people lived in the 20–40 km (12–25 mi) zone. Five stages of volcanic alert were defined, from level 1 (low level seismic disturbances) up to level 5 (major eruption in progress). Daily alerts were issued stating the alert level and associated danger area, and the information was announced in major national and local newspapers, on radio and television stations, by nongovernmental organizations (NGOs), and directly to the endangered inhabitants.

Many of the Aeta who lived on the slopes of the volcano left their villages of their own volition when the first explosions began in April, gathering in a village about 12 kilometres (7.5 mi) from the summit. They moved to increasingly distant villages as the eruptions escalated, some Aeta moving up to nine times in the two months preceding the cataclysmic eruption.

The first formal evacuations were ordered from the 10 km (6.2 mi) zone on April 7. Evacuation of the 10–20 km (6.2–12 mi) zone was ordered when a level 4 alert was issued on June 7. A level 5 alert triggered evacuation of the 20–40 km (12–25 mi) zone on June 13, and in all some 60,000 people had left the area within 30 kilometres (19 mi) of the volcano before June 15. Most people temporarily relocated to Manila and Quezon City, with some 30,000 using the Amoranto Velodrome in Quezon City as an evacuee camp.

  Climactic eruption buildup

  The eruption cloud shortly before the climactic eruption

In early June, tiltmeter measurements had shown that the volcano was inflating, evidently due to growing amounts of magma filling the reservoir beneath the summit. At the same time, seismic activity, previously concentrated at a depth of a few kilometers below a point about 5 kilometres (3.1 mi) northwest of the summit, shifted to shallow depths just below the summit. On June 7, the first magmatic eruptions took place with the formation of a lava dome at the summit of the volcano. The dome grew substantially over the next five days, reaching a maximum diameter of about 200 m (660 ft) and a height of 40 m (130 ft).

A small explosion at 03:41 on June 12 marked the beginning of a new, more violent phase of the eruption. A few hours later, large explosions lasting about half an hour generated an eruption column which quickly reached heights of over 19 kilometres (12 mi), and which generated pyroclastic flows extending up to 4 km (2.5 mi) from the summit in some river valleys. Fourteen hours later, a 15-minute eruption hurled ash to heights of 24 km (15 mi). Friction in the uprushing ash column generated abundant lightning.

A third large eruption began at 08:41 on June 13, after an intense swarm of small earthquakes over the previous two hours. It lasted about five minutes, and the eruption column once again reached 24 km. After three hours of quiet, seismic activity began, growing more and more intense over the next 24 hours, until a three-minute eruption generated a 21 km (13 mi) high eruption column at 13:09 on June 14.

Tephra fall from these four large eruptions was extensive to the southwest of the volcano. Two hours after the last of these four explosions, a series of eruptions began which lasted for the next 24 hours, and which saw the production of much larger pyroclastic flows and surges which traveled several kilometres down river valleys on the flanks of the volcano.

Dacite was the igneous rock making up the tephra in these eruptions and in the following climactic event. The most abundant phenocryst minerals were hornblende and plagioclase, but an unusual phenocryst mineral was also present—the calcium sulfate, anhydrite. The dacite magma was more oxidized than most magmas, and the sulfur-rich nature of the eruption was probably causally related to the redox state.

  The climactic eruption

All the seismographs at Clark Air Base had been rendered inoperative by 14:30 on June 15, mostly by pyroclastic density currents. Intense atmospheric pressure variation was also recorded.

  On June 15, 1991, the eruption plume hours after the climactic eruption.

On the same day, Typhoon Yunya struck the island, passing about 75 km (47 mi) north of the volcano. The typhoon rains made direct visual observations of the eruption impossible, but measurements showed that ash was ejected to heights of 34 km (21 mi) by the most violent phase of the eruption, which lasted about three hours. Pyroclastic flows poured from the summit, reaching as far as 16 km (9.9 mi) away from it. Typhoon rains mixed with the ash deposits caused massive lahars.

The ash cloud from the volcano covered an area of some 125,000 km2 (48,000 sq mi), bringing total darkness to much of central Luzon. Almost all of the island received some ashfall, which formed a heavy, rain-saturated snow-like blanket. Tephra fell over most of the South China Sea and ashfall was recorded as far away as Vietnam, Cambodia and Malaysia.

Twelve days after the first magmatic eruptions of June 3, on June 15, 1991, by about 22:30, and about nine hours after the onset of the most recent climactic phase, atmospheric pressure waves had decreased to the pre-eruption levels. No seismic records were available at this time, but volcanologists believe 22:30 marked the end of the climactic eruption.

Vast quantities of minerals and metals were brought to the surface. Overall, introduced to the surface environment, was an estimated 800,000 t (880,000 short tons) of zinc, 600,000 t (660,000 short tons) of copper, 550,000 t (610,000 short tons) of chromium, 300,000 t (330,000 short tons) of nickel, and massive amounts of toxic heavy metals such as 100,000 t (110,000 short tons) of lead, 10,000 t (11,000 short tons) of arsenic, 1,000 t (1,100 short tons) of cadmium, and 800 t (880 short tons) of mercury.[16]

  The eruption effects on aircraft

At least sixteen commercial aircraft made damaging encounters with the ash cloud ejected by the June 15 eruption, as well as others on the ground. The encounters caused loss of power to one engine on each of two different aircraft. A total of 10 engines were damaged and replaced, including all four engines of a single jumbo jet. Longer term damage to aircraft and engines was reported, including accumulation of sulfate deposits on engines.[17]

  Aftermath of the 1991 eruption

  Summit caldera as seen on Aug. 1, 1991

  Explosivity of the eruption

The June 15 eruption had a Volcanic Explosivity Index (VEI) of 6, and came some 450–500 years after the volcano's last known eruptive activity. The eruption ejected about 10 km3 (2.4 cu mi) of material, making it the largest eruption since that of Novarupta in 1912 and some ten times larger than the 1980 eruption of Mount St. Helens. Ejected material such as tephra fallout and pyroclastic flow deposits are much less dense than magma, and the volume of ejected material was equivalent to about 4 km3 (0.96 cu mi) of unerupted material.[18] The former summit of the volcano was obliterated and replaced by a caldera 2.5 km (1.6 mi) wide. The highest point on the caldera rim now stood 1,485 m (4,872 ft) above sea level, some 260 m (850 ft) lower than the pre-eruption summit.

  Death toll

A reported 847 people were killed by the eruption mostly by roofs collapsing under the weight of accumulated wet ash, a hazard that was amplified by the simultaneous arrival of Typhoon Yunya.[19][20] The evacuation in the days preceding the eruption certainly saved tens of thousands of lives, and has been hailed as a great success for volcanology and eruption prediction. However, damage to healthcare facilities, and the spread of illnesses in relocation facilities due to poor sanitation, led to rising death tolls in the months following the eruption.[citation needed]

After the eruption, about 500,000 people continue to live within 40 km (25 mi) of the mountain, with population centers including the 150,000 in Angeles City, and 30,000 at Clark Freeport Zone.

  Effects on agriculture

Many reforestation projects were destroyed in the eruption, with a total area of 150 km2 (37,000 acres) valued at 125 million pesos destroyed. Agriculture was heavily disrupted, with 800 km2 (200,000 acres) of rice-growing farmland destroyed, and almost 800,000 head of livestock and poultry killed, destroying the livelihoods of thousands of farmers. The cost to agriculture of eruption effects was estimated to be 1.5 billion pesos.

Many farmers near Pinatubo began growing crops such as peanuts, cassava and sweet potatoes, which are quick ripening and could be harvested before the threat of lahar flows during the late summer rainy season.[21]

  Space Shuttle (Mission STS-43) photograph of the Earth over South America taken on August 8, 1991, showing double layer of Pinatubo aerosol cloud (dark streaks) above high cumulonimbus tops

  Local economic and social effects

In total, 364 communities and 2.1 million people were affected by the eruption, with livelihoods and houses being damaged or destroyed. More than 8,000 houses were completely destroyed, and a further 73,000 were damaged. In addition to the severe damage sustained by these communities, roads and communications were damaged or destroyed by pyroclastic flows and lahar throughout the areas surrounding the volcanoes. Total losses in 1991 and 1992 alone were estimated at 10.6 and 1.2 billion pesos respectively, including damage to public infrastructure estimated at 3.8 billion pesos. Education for thousands of children was seriously disrupted by the destruction of schools in the eruption.[22]

The eruption of Pinatubo severely hampered the economic development of the surrounding areas. The gross regional domestic product of the Pinatubo area accounted for about 10% of the total Philippine gross domestic product. The GRDP had been growing at 5% annually before the eruption, but fell by more than 3% from 1990 to 1991. In 1991, damage to crops and property was estimated at $374 million, to which continuing lahar flows added a further $69 million in 1992. 42 percent of the cropland around the volcano was affected by mudflows, dealing a severe blow to the agricultural economy in the region.[23]

  Lahars

  Before and after the eruption: a river valley filled in by pyroclastic flow deposits

Since the eruption, each onset of heavy rain brought lahar from the mountain range, causing the displacement of thousands of people. Inflicting extensive damage to buildings and infrastructures costing billions to repair, a large supply of funds were spent in constructing dikes and dams to control the post-eruption lahar flows.[21]

Several important river systems stem from Mount Pinatubo, with the major rivers being the Abacan, Tarlac, Pasig-Potrero, Sta. Lucia, Bucao, Santo Tomas, Maloma, Tanguay, Ashley, and Kileng rivers. Before the eruption, these river systems were important ecosystems, but the eruption filled many valleys with deep pyroclastic deposits. Since 1991, the rivers have been clogged with sediment, and the valleys have seen frequent lahars which continued for years after the eruption. Studies show that the river systems will take years to recover from the 1991 eruption.[21]

  Clark Air Base and Subic Naval Base

The United States Air Force initiated a massive airlift effort to evacuate American service members and their families during and immediately following the eruption, named Operation Fiery Vigil. Most personnel were initially relocated to Guam, Okinawa, and Hawaii, although some returned to the continental United States. Clark Air Base was ultimately abandoned by the United States military, and Subic Bay reverted to Philippines control the next year following the breakdown of lease negotiations.

  Global environmental effects

The powerful eruption of such an enormous volume of lava and ash injected significant quantities of aerosols and dust into the stratosphere. Sulfur dioxide oxidized in the atmosphere to produce a haze of sulfuric acid droplets, which gradually spread throughout the stratosphere over the year following the eruption. The injection of aerosols into the stratosphere is thought to have been the largest since the eruption of Krakatoa in 1883, with a total mass of SO2 of about 17,000,000 t (19,000,000 short tons) being injected—the largest volume ever recorded by modern instruments (see chart and figure).

This very large stratospheric injection resulted in a reduction in the normal amount of sunlight reaching the Earth's surface by roughly 10% (see figure). This led to a decrease in northern hemisphere average temperatures of 0.5–0.6 °C (0.9–1.1 °F) and a global fall of about 0.4 °C (0.7 °F).[7][24] At the same time, the temperature in the stratosphere rose to several degrees higher than normal, due to absorption of radiation by the aerosol. The stratospheric cloud from the eruption persisted in the atmosphere for three years after the eruption.

  Satellite measurements of ash and aerosol emissions from Mount Pinatubo.

The eruption had a significant effect on ozone levels in the atmosphere, causing a large increase in the destruction rate of ozone. Ozone levels at mid-latitudes reached their lowest recorded levels, while in the southern hemisphere winter of 1992, the ozone hole over Antarctica reached its largest ever size until then, with the fastest recorded ozone depletion rates. The eruption of Mount Hudson in Chile in August 1991 also contributed to southern hemisphere ozone destruction, with measurements showing a sharp decrease in ozone levels at the tropopause when the aerosol clouds from Pinatubo and Hudson arrived.


  Impact on the indigenous people of Pinatubo

The Aeta people were the hardest hit by the eruption. After the areas surrounding the volcano were declared safe, many Aetas returned to their old villages only to find them destroyed by pyroclastic and lahar deposits. Some were able to return to their former way of life, but most moved instead to government-organized resettlement areas. Conditions on these were poor, with each family receiving only small plots of land not ideal for growing crops. Many Aeta found casual labor working for lowland farmers, and overall Aeta society became much more fragmented, and reliant on and integrated with lowland culture.[25]

  Aftermath of the eruptions in pictures

  Activity since 1991

Following the climactic eruption of June 15, 1991, activity at the volcano continued at a much lower level, with continuous ash eruptions lasting until August 1991 and episodic eruptions continuing for another month. Activity then remained low until July 1992 when a new lava dome started growing in the caldera. Volcanologists suspected that further violent eruptions could be possible, and some areas were evacuated. However, the eruption was only minor and since that episode, the volcano has been quiet.

  Lake Pinatubo, the resulting crater lake of the 1991 eruption pictured here in 2008

  Lake Pinatubo

The 1991 caldera was subsequently filled with water from monsoon rains and a crater lake, Lake Pinatubo, was formed. In 1992, the growth of a lava dome formed an island, which was eventually flooded by the lake. Initially, the lake was hot and highly acidic, with a minimum pH of 2 and a temperature of about 40 °C (104 °F). Subsequent rainfall cooled and diluted the lake, lowering the temperature to 26 °C (79 °F) and raising the pH to 5.5 by 2003.

The lake increased in depth by about 1 m (3.3 ft) per month on average eventually submerging the lava dome, until September 2001, when fears that the walls of the crater might be unstable prompted the Philippine government to order a controlled draining of the lake. An estimated 9,000 people were once again evacuated from surrounding areas in case a large flood was accidentally triggered. Workers cut a 5 m (16 ft) notch in the crater rim, and successfully drained about a quarter of the lake's volume.[26]

  Recent activity

On the 26th of July 2011, a 5.9 magnitude earthquake struck close to Pinatubo, however no major damages or casualties were reported.[27]

  Cultural history

The word pinatubo could mean a fertile place where one can make crops grow or could mean "made to grow" in Tagalog and Sambal, which may suggest a knowledge of its previous eruption in about 1500 AD. There is a local oral tradition that is suggestive of a folk memory of earlier large eruptions; ancient legend tells of Bacobaco, the terrible spirit of the sea, who could metamorphose into a huge turtle and who threw fire from his mouth. When being chased by the spirit hunters, Bacobaco fled to the mountain and dug a great hole in its summit showering the surrounding land with rock, mud, dust and fire for three days; howling so loudly that the earth shook.[28]

  History among Aetas

Aeta elders tell many stories about the history of the mountain, the best known being that it was once a Batung Mabye (Kapampangan for living stone). It was said to have been planted on a kingdom by a displeased sorcerer but relocated by a hero. The mountain was soon turned into the abode of Apo Namalyari ("The lord of happenings/ events"), the pagan deity of the Sambal, Aeta, and Kapampangans living on the Zambales range. It was said to comprise the whole mountain range until Sinukuan of Mount Arayat (the god of the Kapampangans) became a strong rival of Namalyari. Their fight, which took place over the center plains, involved the shattering of the mountain into smaller bodies while Mount Arayat lost its center peak. Other versions have it that Pinatubo's peak shattered because of Namalyari's immense fury in an attempt to teach humans the meaning of fear and show how misdeeds will be punished.[citation needed]

According to the elders, Apo Namalyari, caused the 1991 eruption because of displeasure toward illegal loggers and Philippine National Oil Company executives who performed deep exploratory drilling and well testing on the mountain looking for geothermal heat from 1988 to 1990.[29] Discouraging results from the wells forced the abandonment of the prospect 13 months before the April 2, 1991 explosions.[30]

  Aetas granted ownership of Pinatubo

After being driven away by the 1991 eruption of Mount Pinatubo, in May 2009 some 454 Aeta families in Pampanga were given the first clean ancestral land ownership on Mount Pinatubo with the Certificate of Ancestral Domain Title (CADT) by the National Commission on Indigenous Peoples (NCIP), the government agency that deals with issues concerning indigenous people of the Philippines. The approved and declared net land area of 7,440.1 ha (18,385 acres) covers the barangays of Mawakat and Nabuklod in Floridablanca, Pampanga, plus a portion of San Marcelino, Zambales, and a portion of Barangay Batiawan in Subic, Zambales.[31]

On January 14, 2010, some 7,000 Aeta families from Zambales were officially granted the Certificate of Ancestral Domain Title (CADT) covering the Zambales side of Pinatubo which includes the summit and Lake Pinatubo, officially becoming their lutan tua (ancestral land). The ancestral domain title covers 15,984 ha (39,500 acres) and includes the villages of Burgos, Villar, Moraza and Belbel in Botolan and portions of the towns of Cabangan, San Felipe and San Marcelino.[32][33]

Having the land title will protect them from others — including foreigners — from exploiting their land without compensation to the indigenous tribes. In the past, the Aetas had to contend with mining companies, loggers, and, recently, tourist companies who earn from Mount Pinatubo but do not compensate the local tribes.[33]

Ancestral domain titles are awarded to a certain community or indigenous group who have occupied or possessed the land continuously in accordance with their customs and traditions since time immemorial. They have the legal right to collectively possess and to enjoy the land and its natural resources to the exclusion of others.[33]

  Pinatubo in popular culture

Long before Mt. Pinatubo became famous for its cataclysmic eruption, Philippine President Ramon Magsaysay, a native of Zambales, named his C-47 presidential plane "Mt. Pinatubo". The plane crashed in 1957, killing the President and 24 others onboard.[34]

  Hiking Pinatubo

The caldera formed and Lake Pinatubo has since become a tourist attraction with the preferred route through Barangay Santa Juliana in Capas, Tarlac.[35]

  See also

  Notes

  1. ^ Pinatubo, Global Volcanism Program.
  2. ^ "Pinatubo Volcano". The Philippine Institute of Volcanology and Seismology (PHIVOLCS). http://volcano.phivolcs.dost.gov.ph/update_VMEPD/Volcano/VolcanoList/pinatubo.htm. 
  3. ^ a b "Tarlac map". University of Texas in Austin Library. Retrieved on 2011-08-02.
  4. ^ "Report of the Philippine Commission to the President, 1901 Vol. III", pg. 141. Government Printing Office, Washington, 1901.
  5. ^ a b "The Cataclysmic 1991 Eruption of Mount Pinatubo, Philippines". http://pubs.usgs.gov/fs/1997/fs113-97/. Retrieved 2007-04-09. 
  6. ^ Rodolfo, Umbal, and Alonso. "Two Years of Lahars on the Western Flank of Mount Pinatubo: Initiation, Flow Processes, Deposits, and Attendant Geomorphic and Hydraulic Changes". USGS Publications. Retrieved on 2012-03-07.
  7. ^ a b "Mt. Pinatubo's cloud shades global climate". Science News. http://www.thefreelibrary.com/Mt.+Pinatubo's+cloud+shades+global+climate.-a012467057. Retrieved 2010-03-07. 
  8. ^ Tactical Pilotage Chart, Sheet K-11B, Defense Mapping Agency, Department of Defense, 1982.
  9. ^ U.S. War Department. "Report of the Philippine Commission, 1901 Vol. III"), pg. 141. Government Printing Office, Washington.
  10. ^ Topinka, Lyn (July 13, 2009). "Description: Mount Pinatubo, Philippines". United States Geological Survey. http://vulcan.wr.usgs.gov/Volcanoes/Philippines/Pinatubo/description_pinatubo.html. Retrieved April 18, 2010. 
  11. ^ a b c d e f g h Newhall, Christopher G.; Punongbayan, Raymundo S., eds. (1996). "Eruptive history of Mount Pinatubo". FIRE and MUD: Eruptions and Lahars of Mount Pinatubo, Philippines. Philippine Institute of Volcanology and Seismology; University of Washington Press. ISBN 0-295-97585-7. http://pubs.usgs.gov/pinatubo/newhall/index.html. 
  12. ^ Delfin, F.G.; Villarosa, H.G.; and Layugan, D.B. "Geothermal Exploration of the pre-1001 Mount Pinatubo Hydrothermal System". United States Geological Survey Publications. Retrieved on 2012-03-07.
  13. ^ USGS. "Earthquake Information for 1990". http://neic.usgs.gov/neis/eq_depot/1990/. Retrieved 2010-03-06. 
  14. ^ USGS Earthquake Magnitude Policy
  15. ^ "The July 16 Luzon Earthquake: A Technical Monograph". Inter-Agency Committee for Documenting and Establishing Database on the July 1990 Earthquake. Philippine Institute of Volcanology and Seismology. 2001. http://earthquake.phivolcs.dost.gov.ph/update_SOEPD/Earthquake/1990LuzonEQ_Monograph/foreword.html. Retrieved 2009-01-07. 
  16. ^ Garret, R.G. (November 2000). "Natural sources of metals in the environment". Human and Ecological Risk Assessment: an International Journal 6 (6): 945–963. DOI:10.1080/10807030091124383. 
  17. ^ In 1991, it was Pinatubo - INQUIRER.net, Philippine News for Filipinos
  18. ^ "Mt. Pinatubo, Luzon, Philippines". National Geophysical Data Center (U.S. NOAA). http://www.ngdc.noaa.gov/seg/hazard/stratoguide/pinfact.html. Retrieved 2007-12-02. 
  19. ^ CoolGeography - Mount Pinatubo
  20. ^ "Ashfall, Pyroclastic Flow, Lahar: The Aftermath". Pinatubu Volcano: The Sleeping Giant Awakens. expo.edu.ph. http://expo.edu.ph/pinatubo/page5.html. .
  21. ^ a b c Reilly 2009, p. 70.
  22. ^ Joan Martí; Gerald Ernst (2005). Volcanoes and the environment. Cambridge University Press. pp. 450. ISBN 978-0-521-59254-3. http://books.google.com/books?id=F0LFIdaao-AC. 
  23. ^ Reilly 2009, p. 69.
  24. ^ Ward, Peter L. (2 April 2009). "Sulfur Dioxide Initiates Global Climate Change in Four Ways". Thin Solid Films 517 (11): 3188–3203. DOI:10.1016/j.tsf.2009.01.005. http://www.tetontectonics.org/Climate/SO2InitiatesClimateChange.pdf. Retrieved 2010-03-19. 
  25. ^ Shimizu, Hiromu (2002), Struggling for Existence after the Pinatubo Eruption 1991: Catastrophe, Suffering and Rebirth of Ayta Communities. Paper presented inter-congress of the International Union of Anthropological and Ethnological Sciences, Tokyo, Japan. Retrieved from the original on 2004-08-15.
  26. ^ (2001_0907). "Filipinos return as volcano lake drains". BBC News.
  27. ^ Gonzaga, Robert and Orejas, Tonette (2011-07-26). "5.9-magnitude quake jolts households in Luzon, Metro areas". Inquirer News.
  28. ^ Rodolfo, K.S. & Umbal, J.V. (2008) "A prehistoric lahar-dammed lake and eruption of Mount Pinatubo described in a Philippine aborigine legend", J. Volcanol. Geotherm. Res., 176, 432-437
  29. ^ Loeb, Vernon (1991-07-21). "Natives Who Worship Pinatubo Feel Its Wrath". Seattle Times. http://community.seattletimes.nwsource.com/archive/?date=19910721&slug=1295627. Retrieved 2008-11-22. 
  30. ^ Delfin Jr., F.G., Villarosa, H.G.. "Geothermal Exploration of the pre-1991 Mount Pinatubo Hydrothermal System". USGS. Retrieved on 2011-08-14.
  31. ^ (2009-05-27). "Aetas in Pampanga awarded first clean title of ancestral domain". Scribd. Retrieved on 2011-08-14.
  32. ^ Orejas, Tonette (2009-11-27). "It’s official: Pinatubo is now owned by Aetas". Piplinks (originally from Philippine Daily Inquirer). Retrieved on 2011-08-14.
  33. ^ a b c Valdez, Katrina Mennen A. (2010-01-14). "Aetas to receive title to domain at Mt. Pinatubo". Preda Foundation. Retrieved on 2011-08-14.
  34. ^ Dominico C. Moneva (2006-03-18). "Speak out: Magsaysay’s death". Sun Star Cebu. http://www.sunstar.com.ph/static/ceb/2006/03/18/oped/dominico.c..moneva..html. Retrieved 2008-03-21. 
  35. ^ "Trekking-Mt-Pinatubo: Inquirer.net article". 2010-05-29. http://lifestyle.inquirer.net/2bu/2bu/view/20100529-272636/Trekking-Mt-Pinatubo. Retrieved 13 June 2012. 

  References

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