fbpx
Wikipedia

1883 eruption of Krakatoa

September 01, 2023

The 1883 eruption of Krakatoa (Indonesian: Letusan Krakatau 1883) in the Sunda Strait occurred from 20 May until 21 October 1883, peaking in the late morning hours of 27 August when over 70% of the island of Krakatoa and its surrounding archipelago were destroyed as it collapsed into a caldera.

1883 eruption of Krakatoa
Photograph during the eruption in 1883
VolcanoKrakatoa
Start date20 May 1883[1]
End date21 October 1883 (1883-10-21) (?)[1]
TypePlinian eruption[2]
LocationKrakatoa archipelago, Sunda Strait
6°06′07″S 105°25′23″E / 6.102°S 105.423°E / -6.102; 105.423
VEI6[1]
Impact20 million tons of sulphur released; five-year drop of 1.2 °C (2.2 °F)
Deaths36,417–120,000
The change in geography after the eruption
Lithograph of the eruption c. 1888

The eruption was one of the deadliest and most destructive volcanic events in recorded history. The explosion was heard 3,110 kilometres (1,930 mi) away in Perth, Western Australia, and Rodrigues near Mauritius, 4,800 kilometres (3,000 mi) away.[3] The acoustic pressure wave circled the globe more than three times.[4]: 63  At least 36,417 deaths are attributed to the eruption and the tsunamis it created.

Significant additional effects were felt worldwide in the days and weeks after the volcano's eruption. Additional seismic activity was reported until February 1884, but any reports after October 1883 were dismissed by Rogier Verbeek's subsequent investigation into the eruption.

Early phase Edit

In the years before the 1883 eruption, seismic activity around the Krakatoa volcano was intense, with earthquakes felt as far away as Australia. Beginning on 20 May 1883, steam venting began to occur regularly from Perboewatan, the northernmost of the island's three cones. Eruptions of ash reached an estimated altitude of 6 km (20,000 ft), and explosions could be heard in Batavia (Jakarta) 160 km (100 mi) away.[5]

Eruptions at Krakatoa started again around 16 June, with loud explosions and a thick black cloud covering the islands for five days. On 24 June, a prevailing east wind cleared the cloud, and two ash columns could be seen issuing from Krakatoa. The seat of the eruption is believed to have been a new vent or vents that formed between Perboewatan and Danan. The violence of the ongoing eruptions caused tides in the vicinity to be unusually high, and ships at anchor had to be moored with chains. Earthquakes were felt at Anyer, Banten, and ships began to report large pumice masses to the west in the Indian Ocean.[5]

In early August, a Dutch topographical engineer, Captain H. J. G. Ferzenaar, investigated the Krakatoa islands.[5] He noted three major ash columns (the newer from Danan), which obscured the western part of the island, and steam plumes from at least eleven other vents, mostly between Danan and Rakata. When he landed, he noted an ash layer about 0.5 m (1 ft 8 in) thick and the destruction of all vegetation, leaving only tree stumps. He advised against any further landings.[5]

Climactic phase Edit

By 25 August, the Krakatoa eruptions intensified. At about 1:00 pm on 26 August, the volcano entered its paroxysmal phase. By 2:00 pm, a black ash cloud could be seen 27 km (17 mi) high. At this point, the eruption was almost continuous, and explosions could be heard every ten minutes. Ships within 20 km (12 mi) of the volcano reported heavy ash fall, with pieces of hot pumice up to 10 cm (4 in) in diameter landing on their decks. Between 7:00 pm and 8:00 pm, a small tsunami hit the shores of Java and Sumatra, 40 km (25 mi) away.

On 27 August, four enormous explosions occurred, which marked the climax of the eruption. At 5:30 am, the first explosion was at Perboewatan, triggering a tsunami heading to Telok Betong, now known as Bandar Lampung. At 6:44 am, Krakatoa exploded again at Danan, with the resulting tsunami propagating eastward and westward. The third and largest explosion, at 10:02 am, was so violent that it was heard 3,110 km (1,930 mi) away in Perth, Western Australia, and the Indian Ocean island of Rodrigues near Mauritius, 4,800 km (3,000 mi) away, where the blast was thought to have been cannon fire from a nearby ship. The third explosion has been reported as the loudest sound in history.[6][7][8]: 602 [4]: 79  The loudness of the blast heard 160 km (100 mi) from the volcano has been calculated to have been 180 dB.[9] Each explosion was accompanied by tsunamis estimated to have been over 30 metres (98 feet) high in places. A large area of the Sunda Strait and places on the Sumatran coast were affected by pyroclastic flows from the volcano. The energy released from the explosion has been estimated to be equal to about 200 megatonnes of TNT (840 petajoules),[10] roughly four times as powerful as the Tsar Bomba, the most powerful thermonuclear weapon ever detonated. This makes it one of the most powerful explosions in recorded history. At 10:41 am, a landslide tore off half of Rakata volcano, along with the remainder of the island to the north of Rakata, causing the final explosion.[6]

Pressure wave Edit

The pressure wave generated by the colossal third explosion radiated out from Krakatoa at 1,086 km/h (675 mph). The eruption is estimated to have reached 180 dB, loud enough to be heard 5,000 kilometres (3,100 mi) away.[11]: 248  It was so powerful that it ruptured the eardrums of sailors on RMS Norham Castle of the Castle Line which was hove to off Sumatra,[11]: 231, 234  and caused a spike of more than 8.5 kilopascals (2.5 inHg) in the pressure gauge attached to a gasometer in the Batavia gasworks 160 km (100 miles) away, sending it off the scale.[4]: 69 [11]: 218 [note 1]

The pressure wave was recorded on barographs worldwide. Several barographs recorded the wave seven times over five days: four times with the wave travelling away from the volcano to its antipodal point and three times travelling back to the volcano.[4]: 63  Hence, the wave rounded the globe three and a half times. Ash was propelled to an estimated height of 80 km (50 mi).

The eruptions diminished rapidly after that point, and Krakatoa was silent by the morning of 28 August. Small eruptions, mostly of mud, continued into October 1883. By then, less than 30% of the original island remained.

Effects Edit

 
Coral block thrown onto the shore of Java
 
Krakatoa in the Sunda Strait

The combination of pyroclastic flows, volcanic ash, and tsunamis associated with the Krakatoa eruptions had disastrous regional consequences. Some land in Banten, approximately 80 km south, was never repopulated; it reverted to jungle and is now the Ujung Kulon National Park. The official death toll recorded by the Dutch authorities was 36,417.[12]

"The Burning Ashes of Ketimbang" Edit

Verbeek and others believe that the final major Krakatoa eruption was a lateral blast, or pyroclastic surge. Around noon on 27 August 1883, a rain of hot ash fell around Ketimbang (now Katibung in Lampung Province) in Sumatra. Approximately 1,000 people were killed in Sumatra;[11] there were no survivors from the 3,000 people on the island of Sebesi. There are numerous reports of groups of human skeletons floating across the Indian Ocean on rafts of volcanic pumice and washing up on the east coast of Africa up to a year after the eruption.[11]: 297–298 

Tsunamis and distant effects Edit

Ships as far away as South Africa rocked as tsunamis hit them, and the victims' bodies were found floating in the ocean for months after the event. The tsunamis which accompanied the eruption were believed to have been caused by gigantic pyroclastic flows entering the sea; each of the four great explosions was accompanied by large pyroclastic flows resulting from the gravitational collapse of the eruption columns.[citation needed] This caused several cubic kilometres of material to enter the sea, displacing an equal volume of seawater. The town of Merak was destroyed by a tsunami that was 46 metres high. Some of the pyroclastic flows reached the Sumatran coast as much as 40 km (25 mi) away, having moved across the water on a cushion of superheated steam.[note 2] There are also indications of submarine pyroclastic flows reaching 15 km (9.3 mi) from the volcano.[13]

Smaller waves were recorded on tidal gauges as far away as the English Channel.[14] These occurred too soon to be remnants of the initial tsunamis and may have been caused by concussive air waves from the eruption. These air waves circled the globe several times and were still detectable on barographs five days later.[15]

Geographic effects Edit

 
Evolution of the islands around Krakatoa

In the aftermath of the eruption, it was found that Krakatoa had almost entirely disappeared, except for the southern third. Much of the Rakata cone had been sheared away, leaving behind a 250-metre (820 ft) cliff. Of the northern two-thirds of the island, only a rocky islet named Bootsmansrots ('Bosun's Rock'), a fragment of Danan, was left; Poolsche Hoed had disappeared.

The huge amount of material the volcano deposited drastically altered the ocean floor. It is estimated that as much as 18–21 km3 (4.3–5.0 cu mi) of ignimbrite were deposited over 1,100,000 km2 (420,000 sq mi), largely filling the 30–40 m (98–131 ft) deep basin around the mountain. The land masses of Verlaten and Lang islands were increased, as was the western part of the remnant of Rakata. Much of this gained material quickly eroded, but volcanic ash remains a significant part of the geological composition of these islands. The basin was 100 m (330 ft) deep before the eruption, and 200–300 m (660–980 ft) after.[16]

Two nearby sandbanks (called Steers and Calmeyer after the two naval officers who investigated them) were built up into islands by ashfall, but the sea later washed them away. Seawater on hot volcanic deposits on Steers and Calmeyer had caused steam to rise, which some mistook for a continued eruption.

Global climate Edit

The eruption caused a volcanic winter.[17] In the year following the eruption, average Northern Hemisphere summer temperatures fell by 0.4 °C (0.72 °F).[18] The record rainfall that hit Southern California during the water year from July 1883 to June 1884 – Los Angeles received 970 millimetres (38.18 in) and San Diego 660 millimetres (25.97 in)[19] – has been attributed to the Krakatoa eruption.[20] There was no El Niño during that period as is usual when heavy rain occurs in Southern California,[21] but many scientists doubt that there was a causal relationship.[22][failed verification]

The eruption injected a tremendous amount of sulphur dioxide (SO2) gas high into the stratosphere, which was subsequently transported by high-level winds all over the planet. This led to a global increase in sulphuric acid (H2SO4) concentration in high-level cirrus clouds. The resulting increase in cloud reflectivity (or albedo) reflected more incoming light from the sun than usual and cooled the entire planet until the sulphur fell to the ground as acid precipitation.[23]

Global optical effects Edit

 
1888 paintings, showcasing the optical effects of the eruption on the sky over time

The 1883 Krakatoa eruption darkened the sky worldwide for years afterwards and produced spectacular sunsets worldwide for many months. British artist William Ascroft made thousands of colour sketches of the red sunsets halfway around the world from Krakatoa in the years after the eruption. The ash caused "such vivid red sunsets that fire engines were called out in New York, Poughkeepsie, and New Haven to quench the apparent conflagration".[24] This eruption also produced a Bishop's Ring around the sun by day, and a volcanic purple light at twilight. In 2004, an astronomer proposed the idea that the red sky shown in Edvard Munch's 1893 painting The Scream is an accurate depiction of the sky over Norway after the eruption.[25]

Weather watchers of the time tracked and mapped the effects on the sky. They labelled the phenomenon the "equatorial smoke stream".[26] This was the first identification of what is known today as the jet stream.[27] For several years following the eruption, it was reported that the moon appeared to be blue and sometimes green. This was because some ash clouds were filled with particles about 1 μm wide – the right size to strongly scatter red light while allowing other colours to pass. White moonbeams shining through the clouds emerged blue and sometimes green. People also saw lavender suns and, for the first time, recorded noctilucent clouds.[24]

Death toll Edit

The official reported death toll was 36,417,[12] although an estimate puts it at 120,000.[28]

Official death toll[12]
Location Deaths
Banten 21,565
Lampung 12,466
Jakarta 2,350
Bengkulu 34
West Java 2
Total 36,417

Possible causes Edit

The fate of northern Krakatoa has been the subject of some dispute among geologists. It was initially proposed that the island had been blown apart by the force of the eruption. Most of the material deposited by the volcano is magmatic in origin, and the caldera formed by the eruption is not extensively filled with deposits from the 1883 eruption. This indicates that the island subsided into an empty magma chamber at the end of the eruption sequence rather than having been destroyed during the eruptions.

Based on the findings of contemporary investigators, the established hypotheses assume that part of the island subsided before the first explosions on the morning of 27 August. This forced the volcano's vents to be below sea level, causing:

  • major flooding which created a series of phreatic explosions (interaction of ground water and magma).
  • seawater to cool the magma enough for it to crust over and produce a "pressure cooker" effect that was relieved only when explosive pressures were reached.

Geological evidence does not support the assumption that only subsidence before the explosion was the cause. For instance, the pumice and ignimbrite deposits are not of a kind consistent with a magma-seawater interaction. These findings have led to other hypotheses:

  • an underwater land slump or partial subsidence suddenly exposed the highly pressurized magma chamber, opening a pathway for seawater to enter the magma chamber and setting the stage for a magma-seawater interaction.
  • the final explosions may have been caused by magma mixing: a sudden infusion of hot basaltic magma into the cooler and lighter magma in the chamber below the volcano. This would have resulted in a rapid and unsustainable increase in pressure, leading to a cataclysmic explosion. Evidence for this theory is the existence of pumice consisting of light and dark material, the dark material being of much hotter origin. Such material reportedly is less than five per cent of the content of the Krakatoa ignimbrite, and some investigators have rejected this as a prime cause of the 27 August explosions.
Numerical model of hydrovolcanic explosion of Krakatoa and Tsunami generation

A numerical model for a Krakatoa hydrovolcanic explosion and the resulting tsunami was described by Mader & Gittings, in 2006.[29] A high wall of water is formed that is initially higher than 100 metres driven by the shocked water, basalt, and air.

Verbeek investigation Edit

Although the violent phase of the 1883 eruption was over by the late afternoon of 27 August, after light returned by 29 August, reports continued for months that Krakatoa was still in eruption. Verbeek's committee's earliest duties were to determine if this was true and verify reports of other volcanoes erupting on Java and Sumatra. In general, these were found to be false. Verbeek discounted any claims of Krakatoa still erupting after mid-October due to steaming of hot material, landslides due to heavy monsoon rains that season, and "hallucinations due to electrical activity" seen from a distance.[30]

No signs of further activity were seen until 1913 when an eruption was reported. An investigation could find no evidence the volcano was awakening. It was determined that what had been mistaken for renewed activity had been a major landslide (possibly the one which formed the second arc to Rakata's cliff).

Examinations after 1930 of bathymetric charts made in 1919 show evidence of a bulge indicative of magma near the surface at the site that became Anak Krakatau.

In popular culture Edit

 
The Scream.
  • The explosion has been theorized to be a source of inspiration for Edvard Munch's 1893 painting The Scream. The reddish sky in the background is the artist's memory of the effects of the powerful volcanic eruption of Krakatoa, which deeply tinted sunset skies red in parts of the Western hemisphere for months during 1883 and 1884, about a decade before Munch painted The Scream.[31]
  • The Newbery Medal-winning 1947 young adult novel The Twenty-One Balloons, by William Pène du Bois, features the 1883 eruption of Krakatoa as a major plot point.
  • The 1966 television episode of The Time Tunnel titled "Crack of Doom" has Tony and Doug transported to Krakatoa on 26 August 1883, the day before the cataclysmic eruption.[32]
  • The 1969 disaster film Krakatoa, East of Java is very loosely based on the 1883 eruption. The title is a notorious geographic error, as Krakatoa is west of Java; the producers wanted "East" instead to suggest the "Far East."
  • The 1998 Scrooge McDuck comic The Cowboy Captain of the Cutty Sark by Don Rosa features Scrooge witnessing the explosion during a trip aboard the Cutty Sark.
  • The 2022 novel The Sun Walks Down, by Fiona McFarlane, takes place over the span of a week in September 1883, when inhabitants of a fictional colony town in South Australia search for a missing boy under seven nights of vivid red sunsets.[33]

See also Edit

Notes Edit

  1. ^ A spike of more than 212 inches of mercury (ca 85 hPa) is equal to approximately 180 dBSPL; to compare this impact, the human threshold for pain is 134 decibels (dBSPL); and short-term hearing effect damage can occur at 120 dBSPL;[11]: 219 
  2. ^ A documentary film showed tests made by a research team at the University of Kiel, Germany, of pyroclastic flows moving over the water. See Freundt, Armin (2002). "Entrance of hot pyroclastic flows into the sea: experimental observations". Bulletin of Volcanology. 65 (2–3): 144–164. Bibcode:2002BVol...65..144F. doi:10.1007/s00445-002-0250-1. S2CID 73620085. Retrieved 10 April 2012. The tests revealed that hot ash travelled over the water on a cloud of superheated steam, continuing to be a pyroclastic flow after crossing water; the heavy matter precipitated out of the flow shortly after initial contact with the water, creating a tsunami due to the precipitate mass.

References Edit

  1. ^ a b c "Krakatau". Global Volcanism Program. Smithsonian Institution. Retrieved 3 May 2021.
  2. ^ Self, Stephen (1992). "Krakatau revisited: The course of events and interpretation of the 1883 eruption". GeoJournal. Springer Science+Business Media. 28 (2). doi:10.1007/BF00177223. S2CID 189890473. Retrieved 20 May 2022.
  3. ^ Chisholm, Hugh, ed. (1911). "Krakatoa" . Encyclopædia Britannica. Vol. 15 (11th ed.). Cambridge University Press. p. 923.
  4. ^ a b c d Symons, G.J. (ed) The Eruption of Krakatoa and Subsequent Phenomena (Report of the Krakatoa Committee of the Royal Society). London, 1888. Internet Archive. 1888.
  5. ^ a b c d Thornton, Ian W. B. (1997). Krakatau: The Destruction and Reassembly of an Island Ecosystem. Harvard University Press. pp. 9–11. ISBN 978-0-674-50572-8.
  6. ^ a b Monique R. Morgan (January 2013). "The Eruption of Krakatoa (also known as Krakatau) in 1883". 'BRANCH': Britain, Representation and Nineteenth-Century History. Retrieved 5 February 2019.
  7. ^ "How Krakatoa made the biggest bang"; The Independent, 3 May 2006
  8. ^ Woulff, Gordon; McGetchin, Thomas R (December 1958). "Acoustic Noise from Volcanoes: Theory and Experiment". Geophysical Journal International. Oxford University Press. 1 (4): 601–616. Bibcode:1958GeoJ....1..601W. doi:10.1111/j.1365-246X.1958.tb05346.x.
  9. ^ Oliveira, Justin M.; Vedo, Sabrina; Campbell, Michael D.; Atkinson, Joseph P. (2010). "KSC VAB Aeroacoustic Hazard Assessment" (PDF). KSC Engineering, NASA. p. 43. Retrieved 15 November 2016.
  10. ^ . Commonwealth of Australia 2012, Bureau of Meteorology. Archived from the original on 18 March 2016. Retrieved 5 April 2012.
  11. ^ a b c d e f Winchester, Simon (2003). Krakatoa: The Day the World Exploded, August 27, 1883. Penguin/Viking. ISBN 978-0-670-91430-2.
  12. ^ a b c . Department of Geological Sciences, San Diego State University. Archived from the original on 13 August 2008. Retrieved 28 January 2017.
  13. ^ Mandeville, C.W.; Carey, S; Sigurdsson, H. & King, J. (1994). "Paleomagnetic evidence for high-temperature emplacement of the 1883 subaqueous pyroclastic flows from Krakatau Volcano, Indonesia". Journal of Geophysical Research: Solid Earth. 99 (B5): 9487–9504. Bibcode:1994JGR....99.9487M. doi:10.1029/94JB00239.
  14. ^ Press, Frank (November 1956). "Volcanoes, ice, and destructive waves" (PDF). Engineering and Science. 20 (2): 26–30. ISSN 0013-7812. Retrieved 5 April 2007. Fortunately, the tide gauges of 1883 were sufficiently well designed to provide fairly good records of the Krakatoa waves. Thus we have instrumental data for the Krakatoa sea waves from such widely separated places as Honolulu, San Francisco, Colon, South Georgia and English Channel ports.
  15. ^ Pararas-Carayannis, George (2003). "Near and far-field effects of tsunamis generated by the paroxysmal eruptions, explosions, caldera collapses and massive slope failures of the Krakatau volcano in Indonesia on August 26–27, 1883" (PDF). Science of Tsunami Hazards. Vol. 21, no. 4. The Tsunami Society. pp. 191–201. ISSN 8755-6839. Retrieved 29 December 2007.
  16. ^ Mader, Charles. (2006). Numerical Modeling for the Krakatoa Hydrovolcanic Explosion and Tsunami. Science of Tsunami Hazards. 24. 174.
  17. ^ University of Minnesota. (PDF). Archived from the original (PDF) on 22 June 2010.
  18. ^ Bradley, Raymond S. (June 1988). "The explosive volcanic eruption signal in northern hemisphere continental temperature records" (PDF). Climatic Change. 12 (3): 221–243. Bibcode:1988ClCh...12..221B. doi:10.1007/bf00139431. ISSN 0165-0009. S2CID 153757349 – via Springer.
  19. ^ "Los Angeles and San Diego rainfall" (PDF).
  20. ^ Kuhn, Gerald G. and Shepard, Francis Parker; Sea Cliffs, Beaches, and Coastal Valleys of San Diego County: Some Amazing Histories and Some Horrifying Implications; p. 32. ISBN 9780520051188
  21. ^ Kane, R.P.; Kane (1 August 1997). "Relationship of El Niño–Southern Oscillation and Pacific Sea Surface Temperature with Rainfall in Various Regions of the Globe". Monthly Weather Review. 125 (8): 1792–1800. Bibcode:1997MWRv..125.1792K. doi:10.1175/1520-0493(1997)125<1792:roenos>2.0.co;2.
  22. ^ Mass, Clifford F.; Portman, David A.; Mass, Clifford F.; Portman, David A. (1 June 1989). "Major Volcanic Eruptions and Climate: A Critical Evaluation" (PDF). Journal of Climate. 2 (6): 566–593. Bibcode:1989JCli....2..566M. doi:10.1175/1520-0442(1989)002<0566:mveaca>2.0.co;2. JSTOR 26194042.
  23. ^ "USGS: Volcano Hazards Program". volcanoes.usgs.gov.
  24. ^ a b "Blue Moon". NASA Science. Retrieved 26 August 2013.
  25. ^
    • "Krakatoa provided backdrop to Munch's scream". The Age. Melbourne. 11 December 2003. Retrieved 15 November 2010.
    • "Why the sky was red in Munch's 'The Scream'". CNN. Reuters. 10 December 2003. Retrieved 15 November 2010.
    • Panek, Richard (8 February 2004). "'The Scream,' East of Krakatoa". The New York Times. Retrieved 15 November 2010.
  26. ^ Bishop, S.E. (29 January 1885). "Krakatoa". Nature. 31 (796): 288–289. Bibcode:1885Natur..31..288B. doi:10.1038/031288b0.
  27. ^ Winchester, Simon (15 April 2010). "A Tale of Two Volcanos". The New York Times. Retrieved 15 November 2010.
  28. ^ "Mengingat Dahsyatnya Letusan Gunung Krakatau 1883, Mungkinkah Terulang Kembali?". Tribunnews.com. 16 July 2018. Retrieved 5 July 2022.
  29. ^ Mader, Charles L.; Gittings, Michael L. (2006). "Numerical model for the Krakatoa hydrovolcanic explosion and tsunami". Science of Tsunami Hazards. 24 (3): 174–182.
  30. ^ Self, Stephen; Rampino, Michael R. (1981). "The 1883 eruption of Krakatau". Nature. 294 (5843): 699–704. Bibcode:1981Natur.294..699S. doi:10.1038/294699a0. ISSN 1476-4687. S2CID 4340524.
  31. ^ Olson, Donald W.; Russell L. Doescher; Marilynn S. Olson (May 2005). "The Blood-Red Sky of the Scream". APS News. American Physical Society. 13 (5). Retrieved 22 December 2007.
  32. ^ "'The Time Tunnel' Crack of Doom (TV Episode 1966)". IMDb.
  33. ^ "The Sun Walks Down". Macmillan. Retrieved 25 April 2023.

Bibliography

  • Cruijff, Henk J. & Koehler, R. B. (2006). "Question 15/05: Dutch Gunboat Berouw". Warship International. XLIII (2): 146–147. ISSN 0043-0374.
  • Dickins, Rosie; The Children's Book of Art (An introduction to famous paintings), Usborne Publishing Ltd., Usborne House, 83–85 Saffron Hill, London ISBN 978-0-439-88981-0 (2005)
  • Furneaux, Rupert; Krakatoa (1965) London, Secker and Warburg.
  • Self, Stephen; Rampino, Michael R. (1981). "The 1883 eruption of Krakatau". Nature. 294 (5843): 699–704. Bibcode:1981Natur.294..699S. doi:10.1038/294699a0. S2CID 4340524.
  • Simkin, Tom, and Richard S. Fiske (editors); Krakatau, 1883 – the volcanic eruption and its effects (1983) Washington, D.C. : Smithsonian Institution Press. ISBN 0-87474-841-0
  • Sturdy, E.W. (September 1884). "The Volcanic Eruption of Krakatoa". The Atlantic. Vol. 54, no. 323. pp. 385–91.
  • Verbeek, Rogier Diederik Marius (1884). "The Krakatoa eruption". Nature. 30 (757): 10–15. Bibcode:1884Natur..30...10V. doi:10.1038/030010a0.
  • Verbeek, Rogier Diederik Marius; Krakatau. Batavia, 1885, Internet Archive link
  • Winchester, Simon, Krakatoa: The Day the World Exploded: August 27, 1883, New York: HarperCollins (2003), ISBN 978-0-06-083859-1

External links Edit

September 01, 2023
1883, eruption, krakatoa, indonesian, letusan, krakatau, 1883, sunda, strait, occurred, from, until, october, 1883, peaking, late, morning, hours, august, when, over, island, krakatoa, surrounding, archipelago, were, destroyed, collapsed, into, caldera, photog. The 1883 eruption of Krakatoa Indonesian Letusan Krakatau 1883 in the Sunda Strait occurred from 20 May until 21 October 1883 peaking in the late morning hours of 27 August when over 70 of the island of Krakatoa and its surrounding archipelago were destroyed as it collapsed into a caldera 1883 eruption of KrakatoaPhotograph during the eruption in 1883VolcanoKrakatoaStart date20 May 1883 1 End date21 October 1883 1883 10 21 1 TypePlinian eruption 2 LocationKrakatoa archipelago Sunda Strait6 06 07 S 105 25 23 E 6 102 S 105 423 E 6 102 105 423VEI6 1 Impact20 million tons of sulphur released five year drop of 1 2 C 2 2 F Deaths36 417 120 000The change in geography after the eruptionLithograph of the eruption c 1888The eruption was one of the deadliest and most destructive volcanic events in recorded history The explosion was heard 3 110 kilometres 1 930 mi away in Perth Western Australia and Rodrigues near Mauritius 4 800 kilometres 3 000 mi away 3 The acoustic pressure wave circled the globe more than three times 4 63 At least 36 417 deaths are attributed to the eruption and the tsunamis it created Significant additional effects were felt worldwide in the days and weeks after the volcano s eruption Additional seismic activity was reported until February 1884 but any reports after October 1883 were dismissed by Rogier Verbeek s subsequent investigation into the eruption Contents 1 Early phase 2 Climactic phase 2 1 Pressure wave 3 Effects 3 1 The Burning Ashes of Ketimbang 3 2 Tsunamis and distant effects 3 3 Geographic effects 3 4 Global climate 3 5 Global optical effects 4 Death toll 5 Possible causes 6 Verbeek investigation 7 In popular culture 8 See also 9 Notes 10 References 11 External linksEarly phase EditIn the years before the 1883 eruption seismic activity around the Krakatoa volcano was intense with earthquakes felt as far away as Australia Beginning on 20 May 1883 steam venting began to occur regularly from Perboewatan the northernmost of the island s three cones Eruptions of ash reached an estimated altitude of 6 km 20 000 ft and explosions could be heard in Batavia Jakarta 160 km 100 mi away 5 Eruptions at Krakatoa started again around 16 June with loud explosions and a thick black cloud covering the islands for five days On 24 June a prevailing east wind cleared the cloud and two ash columns could be seen issuing from Krakatoa The seat of the eruption is believed to have been a new vent or vents that formed between Perboewatan and Danan The violence of the ongoing eruptions caused tides in the vicinity to be unusually high and ships at anchor had to be moored with chains Earthquakes were felt at Anyer Banten and ships began to report large pumice masses to the west in the Indian Ocean 5 In early August a Dutch topographical engineer Captain H J G Ferzenaar investigated the Krakatoa islands 5 He noted three major ash columns the newer from Danan which obscured the western part of the island and steam plumes from at least eleven other vents mostly between Danan and Rakata When he landed he noted an ash layer about 0 5 m 1 ft 8 in thick and the destruction of all vegetation leaving only tree stumps He advised against any further landings 5 Climactic phase EditBy 25 August the Krakatoa eruptions intensified At about 1 00 pm on 26 August the volcano entered its paroxysmal phase By 2 00 pm a black ash cloud could be seen 27 km 17 mi high At this point the eruption was almost continuous and explosions could be heard every ten minutes Ships within 20 km 12 mi of the volcano reported heavy ash fall with pieces of hot pumice up to 10 cm 4 in in diameter landing on their decks Between 7 00 pm and 8 00 pm a small tsunami hit the shores of Java and Sumatra 40 km 25 mi away On 27 August four enormous explosions occurred which marked the climax of the eruption At 5 30 am the first explosion was at Perboewatan triggering a tsunami heading to Telok Betong now known as Bandar Lampung At 6 44 am Krakatoa exploded again at Danan with the resulting tsunami propagating eastward and westward The third and largest explosion at 10 02 am was so violent that it was heard 3 110 km 1 930 mi away in Perth Western Australia and the Indian Ocean island of Rodrigues near Mauritius 4 800 km 3 000 mi away where the blast was thought to have been cannon fire from a nearby ship The third explosion has been reported as the loudest sound in history 6 7 8 602 4 79 The loudness of the blast heard 160 km 100 mi from the volcano has been calculated to have been 180 dB 9 Each explosion was accompanied by tsunamis estimated to have been over 30 metres 98 feet high in places A large area of the Sunda Strait and places on the Sumatran coast were affected by pyroclastic flows from the volcano The energy released from the explosion has been estimated to be equal to about 200 megatonnes of TNT 840 petajoules 10 roughly four times as powerful as the Tsar Bomba the most powerful thermonuclear weapon ever detonated This makes it one of the most powerful explosions in recorded history At 10 41 am a landslide tore off half of Rakata volcano along with the remainder of the island to the north of Rakata causing the final explosion 6 Pressure wave Edit The pressure wave generated by the colossal third explosion radiated out from Krakatoa at 1 086 km h 675 mph The eruption is estimated to have reached 180 dB loud enough to be heard 5 000 kilometres 3 100 mi away 11 248 It was so powerful that it ruptured the eardrums of sailors on RMS Norham Castle of the Castle Line which was hove to off Sumatra 11 231 234 and caused a spike of more than 8 5 kilopascals 2 5 inHg in the pressure gauge attached to a gasometer in the Batavia gasworks 160 km 100 miles away sending it off the scale 4 69 11 218 note 1 The pressure wave was recorded on barographs worldwide Several barographs recorded the wave seven times over five days four times with the wave travelling away from the volcano to its antipodal point and three times travelling back to the volcano 4 63 Hence the wave rounded the globe three and a half times Ash was propelled to an estimated height of 80 km 50 mi The eruptions diminished rapidly after that point and Krakatoa was silent by the morning of 28 August Small eruptions mostly of mud continued into October 1883 By then less than 30 of the original island remained Effects Edit nbsp Coral block thrown onto the shore of Java nbsp Krakatoa in the Sunda StraitThe combination of pyroclastic flows volcanic ash and tsunamis associated with the Krakatoa eruptions had disastrous regional consequences Some land in Banten approximately 80 km south was never repopulated it reverted to jungle and is now the Ujung Kulon National Park The official death toll recorded by the Dutch authorities was 36 417 12 The Burning Ashes of Ketimbang Edit Verbeek and others believe that the final major Krakatoa eruption was a lateral blast or pyroclastic surge Around noon on 27 August 1883 a rain of hot ash fell around Ketimbang now Katibung in Lampung Province in Sumatra Approximately 1 000 people were killed in Sumatra 11 there were no survivors from the 3 000 people on the island of Sebesi There are numerous reports of groups of human skeletons floating across the Indian Ocean on rafts of volcanic pumice and washing up on the east coast of Africa up to a year after the eruption 11 297 298 Tsunamis and distant effects Edit Ships as far away as South Africa rocked as tsunamis hit them and the victims bodies were found floating in the ocean for months after the event The tsunamis which accompanied the eruption were believed to have been caused by gigantic pyroclastic flows entering the sea each of the four great explosions was accompanied by large pyroclastic flows resulting from the gravitational collapse of the eruption columns citation needed This caused several cubic kilometres of material to enter the sea displacing an equal volume of seawater The town of Merak was destroyed by a tsunami that was 46 metres high Some of the pyroclastic flows reached the Sumatran coast as much as 40 km 25 mi away having moved across the water on a cushion of superheated steam note 2 There are also indications of submarine pyroclastic flows reaching 15 km 9 3 mi from the volcano 13 Smaller waves were recorded on tidal gauges as far away as the English Channel 14 These occurred too soon to be remnants of the initial tsunamis and may have been caused by concussive air waves from the eruption These air waves circled the globe several times and were still detectable on barographs five days later 15 Geographic effects Edit nbsp Evolution of the islands around KrakatoaIn the aftermath of the eruption it was found that Krakatoa had almost entirely disappeared except for the southern third Much of the Rakata cone had been sheared away leaving behind a 250 metre 820 ft cliff Of the northern two thirds of the island only a rocky islet named Bootsmansrots Bosun s Rock a fragment of Danan was left Poolsche Hoed had disappeared The huge amount of material the volcano deposited drastically altered the ocean floor It is estimated that as much as 18 21 km3 4 3 5 0 cu mi of ignimbrite were deposited over 1 100 000 km2 420 000 sq mi largely filling the 30 40 m 98 131 ft deep basin around the mountain The land masses of Verlaten and Lang islands were increased as was the western part of the remnant of Rakata Much of this gained material quickly eroded but volcanic ash remains a significant part of the geological composition of these islands The basin was 100 m 330 ft deep before the eruption and 200 300 m 660 980 ft after 16 Two nearby sandbanks called Steers and Calmeyer after the two naval officers who investigated them were built up into islands by ashfall but the sea later washed them away Seawater on hot volcanic deposits on Steers and Calmeyer had caused steam to rise which some mistook for a continued eruption Global climate Edit The eruption caused a volcanic winter 17 In the year following the eruption average Northern Hemisphere summer temperatures fell by 0 4 C 0 72 F 18 The record rainfall that hit Southern California during the water year from July 1883 to June 1884 Los Angeles received 970 millimetres 38 18 in and San Diego 660 millimetres 25 97 in 19 has been attributed to the Krakatoa eruption 20 There was no El Nino during that period as is usual when heavy rain occurs in Southern California 21 but many scientists doubt that there was a causal relationship 22 failed verification The eruption injected a tremendous amount of sulphur dioxide SO2 gas high into the stratosphere which was subsequently transported by high level winds all over the planet This led to a global increase in sulphuric acid H2SO4 concentration in high level cirrus clouds The resulting increase in cloud reflectivity or albedo reflected more incoming light from the sun than usual and cooled the entire planet until the sulphur fell to the ground as acid precipitation 23 Global optical effects Edit nbsp 1888 paintings showcasing the optical effects of the eruption on the sky over timeThe 1883 Krakatoa eruption darkened the sky worldwide for years afterwards and produced spectacular sunsets worldwide for many months British artist William Ascroft made thousands of colour sketches of the red sunsets halfway around the world from Krakatoa in the years after the eruption The ash caused such vivid red sunsets that fire engines were called out in New York Poughkeepsie and New Haven to quench the apparent conflagration 24 This eruption also produced a Bishop s Ring around the sun by day and a volcanic purple light at twilight In 2004 an astronomer proposed the idea that the red sky shown in Edvard Munch s 1893 painting The Scream is an accurate depiction of the sky over Norway after the eruption 25 Weather watchers of the time tracked and mapped the effects on the sky They labelled the phenomenon the equatorial smoke stream 26 This was the first identification of what is known today as the jet stream 27 For several years following the eruption it was reported that the moon appeared to be blue and sometimes green This was because some ash clouds were filled with particles about 1 mm wide the right size to strongly scatter red light while allowing other colours to pass White moonbeams shining through the clouds emerged blue and sometimes green People also saw lavender suns and for the first time recorded noctilucent clouds 24 Death toll EditThe official reported death toll was 36 417 12 although an estimate puts it at 120 000 28 Official death toll 12 Location DeathsBanten 21 565Lampung 12 466Jakarta 2 350Bengkulu 34West Java 2Total 36 417Possible causes EditThis section needs additional citations for verification Please help improve this article by adding citations to reliable sources in this section Unsourced material may be challenged and removed Find sources 1883 eruption of Krakatoa news newspapers books scholar JSTOR August 2020 Learn how and when to remove this template message The fate of northern Krakatoa has been the subject of some dispute among geologists It was initially proposed that the island had been blown apart by the force of the eruption Most of the material deposited by the volcano is magmatic in origin and the caldera formed by the eruption is not extensively filled with deposits from the 1883 eruption This indicates that the island subsided into an empty magma chamber at the end of the eruption sequence rather than having been destroyed during the eruptions Based on the findings of contemporary investigators the established hypotheses assume that part of the island subsided before the first explosions on the morning of 27 August This forced the volcano s vents to be below sea level causing major flooding which created a series of phreatic explosions interaction of ground water and magma seawater to cool the magma enough for it to crust over and produce a pressure cooker effect that was relieved only when explosive pressures were reached Geological evidence does not support the assumption that only subsidence before the explosion was the cause For instance the pumice and ignimbrite deposits are not of a kind consistent with a magma seawater interaction These findings have led to other hypotheses an underwater land slump or partial subsidence suddenly exposed the highly pressurized magma chamber opening a pathway for seawater to enter the magma chamber and setting the stage for a magma seawater interaction the final explosions may have been caused by magma mixing a sudden infusion of hot basaltic magma into the cooler and lighter magma in the chamber below the volcano This would have resulted in a rapid and unsustainable increase in pressure leading to a cataclysmic explosion Evidence for this theory is the existence of pumice consisting of light and dark material the dark material being of much hotter origin Such material reportedly is less than five per cent of the content of the Krakatoa ignimbrite and some investigators have rejected this as a prime cause of the 27 August explosions source source source source source source Numerical model of hydrovolcanic explosion of Krakatoa and Tsunami generationA numerical model for a Krakatoa hydrovolcanic explosion and the resulting tsunami was described by Mader amp Gittings in 2006 29 A high wall of water is formed that is initially higher than 100 metres driven by the shocked water basalt and air Verbeek investigation EditAlthough the violent phase of the 1883 eruption was over by the late afternoon of 27 August after light returned by 29 August reports continued for months that Krakatoa was still in eruption Verbeek s committee s earliest duties were to determine if this was true and verify reports of other volcanoes erupting on Java and Sumatra In general these were found to be false Verbeek discounted any claims of Krakatoa still erupting after mid October due to steaming of hot material landslides due to heavy monsoon rains that season and hallucinations due to electrical activity seen from a distance 30 No signs of further activity were seen until 1913 when an eruption was reported An investigation could find no evidence the volcano was awakening It was determined that what had been mistaken for renewed activity had been a major landslide possibly the one which formed the second arc to Rakata s cliff Examinations after 1930 of bathymetric charts made in 1919 show evidence of a bulge indicative of magma near the surface at the site that became Anak Krakatau In popular culture Edit nbsp The Scream The explosion has been theorized to be a source of inspiration for Edvard Munch s 1893 painting The Scream The reddish sky in the background is the artist s memory of the effects of the powerful volcanic eruption of Krakatoa which deeply tinted sunset skies red in parts of the Western hemisphere for months during 1883 and 1884 about a decade before Munch painted The Scream 31 The Newbery Medal winning 1947 young adult novel The Twenty One Balloons by William Pene du Bois features the 1883 eruption of Krakatoa as a major plot point The 1966 television episode of The Time Tunnel titled Crack of Doom has Tony and Doug transported to Krakatoa on 26 August 1883 the day before the cataclysmic eruption 32 The 1969 disaster film Krakatoa East of Java is very loosely based on the 1883 eruption The title is a notorious geographic error as Krakatoa is west of Java the producers wanted East instead to suggest the Far East The 1998 Scrooge McDuck comic The Cowboy Captain of the Cutty Sark by Don Rosa features Scrooge witnessing the explosion during a trip aboard the Cutty Sark The 2022 novel The Sun Walks Down by Fiona McFarlane takes place over the span of a week in September 1883 when inhabitants of a fictional colony town in South Australia search for a missing boy under seven nights of vivid red sunsets 33 See also Edit nbsp Volcanoes portal nbsp Indonesia portalFair Wind to Java Krakatit Krakatoa documentary and historical materials List of natural disasters by death toll List of volcanoes in Indonesia The Devil at 4 O Clock VogNotes Edit A spike of more than 21 2 inches of mercury ca 85 hPa is equal to approximately 180 dBSPL to compare this impact the human threshold for pain is 134 decibels dBSPL and short term hearing effect damage can occur at 120 dBSPL 11 219 A documentary film showed tests made by a research team at the University of Kiel Germany of pyroclastic flows moving over the water See Freundt Armin 2002 Entrance of hot pyroclastic flows into the sea experimental observations Bulletin of Volcanology 65 2 3 144 164 Bibcode 2002BVol 65 144F doi 10 1007 s00445 002 0250 1 S2CID 73620085 Retrieved 10 April 2012 The tests revealed that hot ash travelled over the water on a cloud of superheated steam continuing to be a pyroclastic flow after crossing water the heavy matter precipitated out of the flow shortly after initial contact with the water creating a tsunami due to the precipitate mass References Edit a b c Krakatau Global Volcanism Program Smithsonian Institution Retrieved 3 May 2021 Self Stephen 1992 Krakatau revisited The course of events and interpretation of the 1883 eruption GeoJournal Springer Science Business Media 28 2 doi 10 1007 BF00177223 S2CID 189890473 Retrieved 20 May 2022 Chisholm Hugh ed 1911 Krakatoa Encyclopaedia Britannica Vol 15 11th ed Cambridge University Press p 923 a b c d Symons G J ed The Eruption of Krakatoa and Subsequent Phenomena Report of the Krakatoa Committee of the Royal Society London 1888 Internet Archive 1888 a b c d Thornton Ian W B 1997 Krakatau The Destruction and Reassembly of an Island Ecosystem Harvard University Press pp 9 11 ISBN 978 0 674 50572 8 a b Monique R Morgan January 2013 The Eruption of Krakatoa also known as Krakatau in 1883 BRANCH Britain Representation and Nineteenth Century History Retrieved 5 February 2019 How Krakatoa made the biggest bang The Independent 3 May 2006 Woulff Gordon McGetchin Thomas R December 1958 Acoustic Noise from Volcanoes Theory and Experiment Geophysical Journal International Oxford University Press 1 4 601 616 Bibcode 1958GeoJ 1 601W doi 10 1111 j 1365 246X 1958 tb05346 x Oliveira Justin M Vedo Sabrina Campbell Michael D Atkinson Joseph P 2010 KSC VAB Aeroacoustic Hazard Assessment PDF KSC Engineering NASA p 43 Retrieved 15 November 2016 The eruption of Krakatoa August 27 1883 Commonwealth of Australia 2012 Bureau of Meteorology Archived from the original on 18 March 2016 Retrieved 5 April 2012 a b c d e f Winchester Simon 2003 Krakatoa The Day the World Exploded August 27 1883 Penguin Viking ISBN 978 0 670 91430 2 a b c How Volcanoes Work Krakatau Indonesia 1883 Department of Geological Sciences San Diego State University Archived from the original on 13 August 2008 Retrieved 28 January 2017 Mandeville C W Carey S Sigurdsson H amp King J 1994 Paleomagnetic evidence for high temperature emplacement of the 1883 subaqueous pyroclastic flows from Krakatau Volcano Indonesia Journal of Geophysical Research Solid Earth 99 B5 9487 9504 Bibcode 1994JGR 99 9487M doi 10 1029 94JB00239 Press Frank November 1956 Volcanoes ice and destructive waves PDF Engineering and Science 20 2 26 30 ISSN 0013 7812 Retrieved 5 April 2007 Fortunately the tide gauges of 1883 were sufficiently well designed to provide fairly good records of the Krakatoa waves Thus we have instrumental data for the Krakatoa sea waves from such widely separated places as Honolulu San Francisco Colon South Georgia and English Channel ports Pararas Carayannis George 2003 Near and far field effects of tsunamis generated by the paroxysmal eruptions explosions caldera collapses and massive slope failures of the Krakatau volcano in Indonesia on August 26 27 1883 PDF Science of Tsunami Hazards Vol 21 no 4 The Tsunami Society pp 191 201 ISSN 8755 6839 Retrieved 29 December 2007 Mader Charles 2006 Numerical Modeling for the Krakatoa Hydrovolcanic Explosion and Tsunami Science of Tsunami Hazards 24 174 University of Minnesota With a Bang Not a Whimper PDF Archived from the original PDF on 22 June 2010 Bradley Raymond S June 1988 The explosive volcanic eruption signal in northern hemisphere continental temperature records PDF Climatic Change 12 3 221 243 Bibcode 1988ClCh 12 221B doi 10 1007 bf00139431 ISSN 0165 0009 S2CID 153757349 via Springer Los Angeles and San Diego rainfall PDF Kuhn Gerald G and Shepard Francis Parker Sea Cliffs Beaches and Coastal Valleys of San Diego County Some Amazing Histories and Some Horrifying Implications p 32 ISBN 9780520051188 Kane R P Kane 1 August 1997 Relationship of El Nino Southern Oscillation and Pacific Sea Surface Temperature with Rainfall in Various Regions of the Globe Monthly Weather Review 125 8 1792 1800 Bibcode 1997MWRv 125 1792K doi 10 1175 1520 0493 1997 125 lt 1792 roenos gt 2 0 co 2 Mass Clifford F Portman David A Mass Clifford F Portman David A 1 June 1989 Major Volcanic Eruptions and Climate A Critical Evaluation PDF Journal of Climate 2 6 566 593 Bibcode 1989JCli 2 566M doi 10 1175 1520 0442 1989 002 lt 0566 mveaca gt 2 0 co 2 JSTOR 26194042 USGS Volcano Hazards Program volcanoes usgs gov a b Blue Moon NASA Science Retrieved 26 August 2013 Krakatoa provided backdrop to Munch s scream The Age Melbourne 11 December 2003 Retrieved 15 November 2010 Why the sky was red in Munch s The Scream CNN Reuters 10 December 2003 Retrieved 15 November 2010 Panek Richard 8 February 2004 The Scream East of Krakatoa The New York Times Retrieved 15 November 2010 Bishop S E 29 January 1885 Krakatoa Nature 31 796 288 289 Bibcode 1885Natur 31 288B doi 10 1038 031288b0 Winchester Simon 15 April 2010 A Tale of Two Volcanos The New York Times Retrieved 15 November 2010 Mengingat Dahsyatnya Letusan Gunung Krakatau 1883 Mungkinkah Terulang Kembali Tribunnews com 16 July 2018 Retrieved 5 July 2022 Mader Charles L Gittings Michael L 2006 Numerical model for the Krakatoa hydrovolcanic explosion and tsunami Science of Tsunami Hazards 24 3 174 182 Self Stephen Rampino Michael R 1981 The 1883 eruption of Krakatau Nature 294 5843 699 704 Bibcode 1981Natur 294 699S doi 10 1038 294699a0 ISSN 1476 4687 S2CID 4340524 Olson Donald W Russell L Doescher Marilynn S Olson May 2005 The Blood Red Sky of the Scream APS News American Physical Society 13 5 Retrieved 22 December 2007 The Time Tunnel Crack of Doom TV Episode 1966 IMDb The Sun Walks Down Macmillan Retrieved 25 April 2023 Bibliography Cruijff Henk J amp Koehler R B 2006 Question 15 05 Dutch Gunboat Berouw Warship International XLIII 2 146 147 ISSN 0043 0374 Dickins Rosie The Children s Book of Art An introduction to famous paintings Usborne Publishing Ltd Usborne House 83 85 Saffron Hill London ISBN 978 0 439 88981 0 2005 Furneaux Rupert Krakatoa 1965 London Secker and Warburg Self Stephen Rampino Michael R 1981 The 1883 eruption of Krakatau Nature 294 5843 699 704 Bibcode 1981Natur 294 699S doi 10 1038 294699a0 S2CID 4340524 Simkin Tom and Richard S Fiske editors Krakatau 1883 the volcanic eruption and its effects 1983 Washington D C Smithsonian Institution Press ISBN 0 87474 841 0 Sturdy E W September 1884 The Volcanic Eruption of Krakatoa The Atlantic Vol 54 no 323 pp 385 91 Verbeek Rogier Diederik Marius 1884 The Krakatoa eruption Nature 30 757 10 15 Bibcode 1884Natur 30 10V doi 10 1038 030010a0 Verbeek Rogier Diederik Marius Krakatau Batavia 1885 Internet Archive link Winchester Simon Krakatoa The Day the World Exploded August 27 1883 New York HarperCollins 2003 ISBN 978 0 06 083859 1External links EditWorks about the 1883 eruption of Krakatoa at Open Library Krakatau Indonesia 1883 Archived 16 December 2014 at the Wayback Machine information from San Diego State University Retrieved from https en wikipedia org w index php title 1883 eruption of Krakatoa amp oldid 1172383089, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.