2004 Indian Ocean earthquake and tsunami
|UTC time||2004-12-26 00:58:53|
|Local date||26 December 2004|
07:28:53 UTC+6½ |
|Depth||30 km (19 mi)|
|Epicenter||3°18′58″N 95°51′14″E / 3.316°N 95.854°ECoordinates: 3°18′58″N 95°51′14″E / 3.316°N 95.854°E|
|Total damage||$19.9 billion (2017 USD)|
|Max. intensity||IX (Violent)|
|Tsunami||15 to 30 metres (50 to 100 ft) with maximum runup of 51 m (167.3 ft) at Lhoknga.|
|Casualties||227,898 dead and missing|
The 2004 Indian Ocean earthquake occurred at 00:58:53 UTC on 26 December, with an epicentre off the west coast of Sumatra, Indonesia, a moment magnitude of 9.1–9.3 and a maximum Mercalli intensity of IX (Violent). It was an undersea megathrust earthquake caused by rupture along the fault between the Burma Plate and the subducting Indian Plate. The 2004 Indian Ocean earthquake triggered a series of devastating tsunamis up to 30 metres (100 ft) high, inundating coastal communities along the coasts of the Indian Ocean and killing an estimated 227,898 people in 14 countries. The earthquake was one of the deadliest natural disasters in recorded history, the deadliest of the 21st century so far. Indonesia was the hardest-hit country, followed by Sri Lanka, India, and Thailand.
2004 Indian Ocean earthquake is the third-largest earthquake ever recorded on a seismograph and had the longest duration of faulting ever observed, between 8.3 and 10 minutes. It caused the entire planet to vibrate as much as 1 centimetre (0.4 inches), and it triggered other earthquakes as far away as Alaska. Its epicentre was between Simeulue and mainland Sumatra. The plight of the affected people and countries prompted a worldwide humanitarian response. In all, the worldwide community donated more than US$14 billion (2004) in humanitarian aid. The event is known by the scientific community as the Sumatra–Andaman earthquake.
The resulting tsunami was given various names, including the 2004 Indian Ocean tsunami, South Asian tsunami, Indonesian tsunami, Christmas tsunami and the Boxing Day tsunami.
|2004 Indian Ocean tsunami|
|Animation of tsunami caused by the earthquake showing how it radiated from the entire length of the 1,600 km (990 mi) rupture|
The 2004 Indian Ocean earthquake was initially documented as having a moment magnitude of 8.8. In February 2005 scientists revised the estimate of the magnitude to 9.0. Although the Pacific Tsunami Warning Center has accepted these new numbers, the United States Geological Survey has so far not changed its estimate of 9.1. A 2006 study estimated a magnitude of Mw 9.1–9.3; Hiroo Kanamori of the California Institute of Technology estimates that Mw 9.2 is a representative of the earthquake's size.
The hypocentre of the main earthquake was approximately 160 km (100 mi) off the western coast of northern Sumatra, in the Indian Ocean just north of Simeulue island at a depth of 30 km (19 mi) below mean sea level (initially reported as 10 km (6.2 mi)). The northern section of the Sunda megathrust ruptured over a length of 1,300 km (810 mi). The earthquake (followed by the tsunami) was felt in Bangladesh, India, Malaysia, Myanmar, Thailand, Sri Lanka and the Maldives. Splay faults, or secondary "pop up faults", caused long, narrow parts of the sea floor to pop up in seconds. This quickly elevated the height and increased the speed of waves, destroying the nearby Indonesian town of Lhoknga.
Indonesia lies between the Pacific Ring of Fire along the north-eastern islands adjacent to New Guinea, and the Alpide belt that runs along the south and west from Sumatra, Java, Bali, Flores to Timor.
Great earthquakes, such as the 2004 Indian Ocean earthquake, are associated with megathrust events in subduction zones. Their seismic moments can account for a significant fraction of the global seismic moment across century-scale time periods. Of all the moment released by earthquakes in the 100 years from 1906 through 2005, roughly one-eighth was due to the 2004 Indian Ocean earthquake. This quake, together with the Good Friday earthquake (Alaska, 1964) and the Great Chilean earthquake (1960), account for almost half of the total moment.
Since 1900, the only earthquakes recorded with a greater magnitude were the 1960 Great Chilean earthquake (magnitude 9.5) and the 1964 Good Friday earthquake in Prince William Sound (9.2). The only other recorded earthquakes of magnitude 9.0 or greater were off Kamchatka, Russia, on 4 November 1952 (magnitude 9.0) and Tōhoku, Japan (magnitude 9.1) in March 2011. Each of these megathrust earthquakes also spawned tsunamis in the Pacific Ocean. However, in comparison to the 2004 Indian Ocean earthquake, the death toll from these earthquakes was significantly lower, primarily because of the lower population density along the coasts near affected areas, the much greater distances to more populated coasts, and the superior infrastructure and warning systems in MEDCs (More Economically Developed Countries) such as Japan.
Other very large megathrust earthquakes occurred in 1868 (Peru, Nazca Plate and South American Plate); 1827 (Colombia, Nazca Plate and South American Plate); 1812 (Venezuela, Caribbean Plate and South American Plate) and 1700 (western North America, Juan de Fuca Plate and North American Plate). All of them are believed to be greater than magnitude 9, but no accurate measurements were available at the time.
The 2004 Indian Ocean earthquake was unusually large in geographical and geological extent. An estimated 1,600 kilometres (1,000 mi) of fault surface slipped (or ruptured) about 15 metres (50 ft) along the subduction zone where the Indian Plate slides (or subducts) under the overriding Burma Plate. The slip did not happen instantaneously but took place in two phases over several minutes: Seismographic and acoustic data indicate that the first phase involved a rupture about 400 kilometres (250 mi) long and 100 kilometres (60 mi) wide, 30 kilometres (19 mi) beneath the sea bed—the largest rupture ever known to have been caused by an earthquake. The rupture proceeded at about 2.8 kilometres per second (1.7 miles per second) (10,000 km/h or 6,200 mph), beginning off the coast of Aceh and proceeding north-westerly over about 100 seconds. After a pause of about another 100 seconds, the rupture continued northwards towards the Andaman and Nicobar Islands. However, the northern rupture occurred more slowly than in the south, at about 2.1 km/s (1.3 mi/s) (7,500 km/h or 4,700 mph), continuing north for another five minutes to a plate boundary where the fault type changes from subduction to strike-slip (the two plates slide past one another in opposite directions).
The Indian Plate is part of the great Indo-Australian Plate, which underlies the Indian Ocean and Bay of Bengal, and is moving north-east at an average of 6 centimetres per year (2.4 inches per year). The India Plate meets the Burma Plate (which is considered a portion of the great Eurasian Plate) at the Sunda Trench. At this point the India Plate subducts beneath the Burma Plate, which carries the Nicobar Islands, the Andaman Islands, and northern Sumatra. The India Plate sinks deeper and deeper beneath the Burma Plate until the increasing temperature and pressure drive volatiles out of the subducting plate. These volatiles rise into the overlying plate, causing partial melting and the formation of magma. The rising magma intrudes into the crust above and exits the Earth's crust through volcanoes in the form of a volcanic arc. The volcanic activity that results as the Indo-Australian Plate subducts the Eurasian Plate has created the Sunda Arc.
As well as the sideways movement between the plates, the 2004 Indian Ocean earthquake is resulted in a rise of the sea floor by several metres, displacing an estimated 30 cubic kilometres (7.2 cu mi) of water and triggering devastating tsunami waves. The waves did not originate from a point source, as was inaccurately depicted in some illustrations of their paths of travel, but rather radiated outwards along the entire 1,600-kilometre (1,000 mi) length of the rupture (acting as a line source). This greatly increased the geographical area over which the waves were observed, reaching as far as Mexico, Chile, and the Arctic. The raising of the sea floor significantly reduced the capacity of the Indian Ocean, producing a permanent rise in the global sea level by an estimated 0.1 millimetres (0.004 in).
Aftershocks and other earthquakes
Numerous aftershocks were reported off the Andaman Islands, the Nicobar Islands and the region of the original epicentre in the hours and days that followed. The magnitude 8.7 2005 Nias–Simeulue earthquake, which originated off the coast of the Sumatran island of Nias, is not considered an aftershock, despite its proximity to the epicenter, and was most likely triggered by stress changes associated with the 2004 event. The earthquake produced its own aftershocks (some registering a magnitude of as great as 6.1) and presently ranks as the third largest earthquake ever recorded on the moment magnitude or Richter magnitude scale.
Other aftershocks of up to magnitude 6.6 continued to shake the region daily for three or four months. As well as continuing aftershocks, the energy released by the original earthquake continued to make its presence felt well after the event. A week after the earthquake, its reverberations could still be measured, providing valuable scientific data about the Earth's interior.
The 2004 Indian Ocean earthquake came just three days after a magnitude 8.1 earthquake in an uninhabited region west of New Zealand's subantarctic Auckland Islands, and north of Australia's Macquarie Island. This is unusual, since earthquakes of magnitude 8 or more occur only about once per year on average. However, the U.S. Geological Survey sees no evidence of a causal relationship between these events.
The 2004 Indian Ocean earthquake is thought to have triggered activity in both Leuser Mountain and Mount Talang, volcanoes in Aceh province along the same range of peaks, while the 2005 Nias–Simeulue earthquake had sparked activity in Lake Toba, an ancient crater in Sumatra.
The energy released on the Earth's surface (ME, which is the seismic potential for damage) by the 2004 Indian Ocean earthquake was estimated at 1.1×1017 joules, or 26 megatons of TNT. This energy is equivalent to over 1,500 times that of the Hiroshima atomic bomb, but less than that of Tsar Bomba, the largest nuclear weapon ever detonated; however, the total work done MW (and thus energy) by the quake was 4.0×1022 joules (4.0×1029 ergs), the vast majority underground, which is over 360,000 times more than its ME, equivalent to 9,600 gigatons of TNT equivalent (550 million times that of Hiroshima) or about 370 years of energy use in the United States at 2005 levels of 1.08×1020 J. The only recorded earthquakes with a larger MW were the 1960 Chilean and 1964 Alaskan quakes, with 2.5×1023 joules (250 ZJ) and 7.5×1022 joules (75 ZJ) respectively.
The earthquake generated a seismic oscillation of the Earth's surface of up to 20–30 cm (8–12 in), equivalent to the effect of the tidal forces caused by the Sun and Moon. The seismic waves of the earthquake were felt across the planet; as far away as the U.S. state of Oklahoma, where vertical movements of 3 mm (0.12 in) were recorded. By February 2005, the earthquake's effects were still detectable as a 20 μm (0.02 mm; 0.0008 in) complex harmonic oscillation of the Earth's surface, which gradually diminished and merged with the incessant free oscillation of the Earth more than 4 months after the earthquake.
Because of its enormous energy release and shallow rupture depth, the earthquake generated remarkable seismic ground motions around the globe, particularly due to huge Rayleigh (surface) elastic waves that exceeded 1 cm (0.4 in) in vertical amplitude everywhere on Earth. The record section plot displays vertical displacements of the Earth's surface recorded by seismometers from the IRIS/USGS Global Seismographic Network plotted with respect to time (since the earthquake initiation) on the horizontal axis, and vertical displacements of the Earth on the vertical axis (note the 1 cm scale bar at the bottom for scale). The seismograms are arranged vertically by distance from the epicenter in degrees. The earliest, lower amplitude, signal is that of the compressional (P) wave, which takes about 22 minutes to reach the other side of the planet (the antipode; in this case near Ecuador). The largest amplitude signals are seismic surface waves that reach the antipode after about 100 minutes. The surface waves can be clearly seen to reinforce near the antipode (with the closest seismic stations in Ecuador), and to subsequently encircle the planet to return to the epicentral region after about 200 minutes. A major aftershock (magnitude 7.1) can be seen at the closest stations starting just after the 200 minute mark. The aftershock would be considered a major earthquake under ordinary circumstances, but is dwarfed by the mainshock.
The shift of mass and the massive release of energy slightly altered the Earth's rotation. The exact amount is not yet known, but theoretical models suggest the earthquake shortened the length of a day by 2.68 microseconds, due to a decrease in the oblateness of the Earth. It also caused the Earth to minutely "wobble" on its axis by up to 2.5 cm (1 in) in the direction of 145° east longitude, or perhaps by up to 5 or 6 cm (2.0 or 2.4 in). However, because of tidal effects of the Moon, the length of a day increases at an average of 15 µs per year, so any rotational change due to the earthquake will be lost quickly. Similarly, the natural Chandler wobble of the Earth, which in some cases can be up to 15 m (50 ft), will eventually offset the minor wobble produced by the earthquake.
There was 10 m (33 ft) movement laterally and 4–5 m (13–16 ft) vertically along the fault line. Early speculation was that some of the smaller islands south-west of Sumatra, which is on the Burma Plate (the southern regions are on the Sunda Plate), might have moved south-west by up to 36 m (120 ft), but more accurate data released more than a month after the earthquake found the movement to be about 20 cm (8 in). Since movement was vertical as well as lateral, some coastal areas may have been moved to below sea level. The Andaman and Nicobar Islands appear to have shifted south-west by around 1.25 m (4 ft 1 in) and to have sunk by 1 m (3 ft 3 in).
In February 2005, the Royal Navy vessel HMS Scott surveyed the seabed around the earthquake zone, which varies in depth between 1,000 and 5,000 m (550 and 2,730 fathoms; 3,300 and 16,400 ft). The survey, conducted using a high-resolution, multi-beam sonar system, revealed that the earthquake had made a huge impact on the topography of the seabed. 1,500-metre-high (5,000 ft) thrust ridges created by previous geologic activity along the fault had collapsed, generating landslides several kilometres wide. One such landslide consisted of a single block of rock some 100 m high and 2 km long (300 ft by 1.25 mi). The momentum of the water displaced by tectonic uplift had also dragged massive slabs of rock, each weighing millions of tons, as far as 10 km (6 mi) across the seabed. An oceanic trench several kilometres wide was exposed in the earthquake zone.
The TOPEX/Poseidon and Jason-1 satellites happened to pass over the tsunami as it was crossing the ocean. These satellites carry radars that measure precisely the height of the water surface; anomalies of the order of 50 cm (20 in) were measured. Measurements from these satellites may prove invaluable for the understanding of the earthquake and tsunami. Unlike data from tide gauges installed on shores, measurements obtained in the middle of the ocean can be used for computing the parameters of the source earthquake without having to compensate for the complex ways in which close proximity to the coast changes the size and shape of a wave.
The sudden vertical rise of the seabed by several metres during the earthquake displaced massive volumes of water, resulting in a tsunami that struck the coasts of the Indian Ocean. A tsunami that causes damage far away from its source is sometimes called a teletsunami and is much more likely to be produced by vertical motion of the seabed than by horizontal motion.
The tsunami, like all others, behaved differently in deep water than in shallow water. In deep ocean water, tsunami waves form only a low, broad hump, barely noticeable and harmless, which generally travels at a high speed of 500 to 1,000 km/h (310 to 620 mph); in shallow water near coastlines, a tsunami slows down to only tens of kilometres per hour but, in doing so, forms large destructive waves. Scientists investigating the damage in Aceh found evidence that the wave reached a height of 24 metres (80 ft) when coming ashore along large stretches of the coastline, rising to 30 metres (100 ft) in some areas when traveling inland.
Radar satellites recorded the heights of tsunami waves in deep water: at two hours after the earthquake, the maximum height was 60 centimetres (2 ft). These are the first such observations ever made. These observations could not be used to provide a warning, since the satellites were not built for that purpose and the data took hours to analyze.
According to Tad Murty, vice-president of the Tsunami Society, the total energy of the tsunami waves was equivalent to about five megatons of TNT (20 petajoules), which is more than twice the total explosive energy used during all of World War II (including the two atomic bombs) but still a couple of orders of magnitude less than the energy released in the earthquake itself. In many places the waves reached as far as 2 km (1.2 mi) inland.
Because the 1,600 km (1,000 mi) fault affected by the earthquake was in a nearly north-south orientation, the greatest strength of the tsunami waves was in an east-west direction. Bangladesh, which lies at the northern end of the Bay of Bengal, had few casualties despite being a low-lying country relatively near the epicenter. It also benefited from the fact that the earthquake proceeded more slowly in the northern rupture zone, greatly reducing the energy of the water displacements in that region.
Coasts that have a landmass between them and the tsunami's location of origin are usually safe; however, tsunami waves can sometimes diffract around such landmasses. Thus, the state of Kerala was hit by the tsunami despite being on the western coast of India, and the western coast of Sri Lanka suffered substantial impacts. Distance alone was no guarantee of safety, as Somalia was hit harder than Bangladesh despite being much farther away.
Because of the distances involved, the tsunami took anywhere from fifteen minutes to seven hours to reach the coastlines. The northern regions of the Indonesian island of Sumatra were hit quickly, while Sri Lanka and the east coast of India were hit roughly 90 minutes to two hours later. Thailand was struck about two hours later despite being closer to the epicentre, because the tsunami traveled more slowly in the shallow Andaman Sea off its western coast.
The tsunami was noticed as far as Struisbaai in South Africa, some 8,500 km (5,300 mi) away, where a 1.5 m (5 ft) high tide surged on shore about 16 hours after the earthquake. It took a relatively long time to reach Struisbaai at the southernmost point of Africa, probably because of the broad continental shelf off South Africa and because the tsunami would have followed the South African coast from east to west. The tsunami also reached Antarctica, where tidal gauges at Japan's Showa Base recorded oscillations of up to a metre (3 ft 3 in), with disturbances lasting a couple of days.
Some of the tsunami's energy escaped into the Pacific Ocean, where it produced small but measurable tsunamis along the western coasts of North and South America, typically around 20 to 40 cm (7.9 to 15.7 in). At Manzanillo, Mexico, a 2.6 m (8 ft 6 in) crest-to-trough tsunami was measured. As well, the tsunami was large enough to be detected in Vancouver, British Columbia, Canada, which puzzled many scientists, as the tsunamis measured in some parts of South America were larger than those measured in some parts of the Indian Ocean. It has been theorized that the tsunamis were focused and directed at long ranges by the mid-ocean ridges which run along the margins of the continental plates.
Signs and warnings
Despite a lag of up to several hours between the earthquake and the impact of the tsunami, nearly all of the victims were taken by surprise. There were no tsunami warning systems in the Indian Ocean to detect tsunamis or to warn the general population living around the ocean. Tsunami detection is not easy because while a tsunami is in deep water, it has little height and a network of sensors is needed to detect it. Setting up the communications infrastructure to issue timely warnings is an even bigger problem, particularly in a relatively poor part of the world.
Tsunamis are more frequent in the Pacific Ocean than in other oceans because of earthquakes in the "Ring of Fire". Although the extreme western edge of the Ring of Fire extends into the Indian Ocean (the point where the earthquake struck), no warning system exists in that ocean. Tsunamis there are relatively rare despite earthquakes being relatively frequent in Indonesia. The last major tsunami was caused by the Krakatoa eruption of 1883. Not every earthquake produces large tsunamis: on 28 March 2005, a magnitude 8.7 earthquake hit roughly the same area of the Indian Ocean but did not result in a major tsunami.
The first warning sign of a possible tsunami is the earthquake itself. However, tsunamis can strike thousands of kilometres away where the earthquake is felt only weakly or not at all. Also, in the minutes preceding a tsunami strike, the sea often recedes temporarily from the coast, something which was observed on the eastern side of the rupture zone of the earthquake such as around the coastlines of Aceh province, Phuket island, and Khao Lak area in Thailand, Penang island of Malaysia, and the Andaman and Nicobar islands. Around the Indian Ocean, this rare sight reportedly induced people, especially children, to visit the coast to investigate and collect stranded fish on as much as 2.5 km (1.6 mi) of exposed beach, with fatal results. However, not all tsunamis cause this "disappearing sea" effect. In some cases, there are no warning signs at all: the sea will suddenly swell without retreating, surprising many people and giving them little time to flee.
Reportedly, scuba divers near the abundant coral reefs in Thailand and the Maldives were caught off guard by violent, swirling underwater currents. The divers described the experience like being in a 'washing machine'. Coral reef animals such as fish were also absent as the tsunami passed by.
One of the few coastal areas to evacuate ahead of the tsunami was on the Indonesian island of Simeulue, close to the epicentre. Island folklore recounted an earthquake and tsunami in 1907, and the islanders fled to inland hills after the initial shaking and before the tsunami struck. These tales and oral folklore from previous generations may have helped the survival of the inhabitants. On Maikhao Beach in north Phuket, Thailand, a 10-year-old British tourist named Tilly Smith had studied tsunamis in geography at school and recognised the warning signs of the receding ocean and frothing bubbles. She and her parents warned others on the beach, which was evacuated safely. John Chroston, a biology teacher from Scotland, also recognised the signs at Kamala Bay north of Phuket, taking a busload of vacationers and locals to safety on higher ground.
Anthropologists had initially expected the aboriginal population of the Andaman Islands to be badly affected by the tsunami and even feared the already depopulated Onge tribe could have been wiped out. Many of the aboriginal tribes evacuated and suffered fewer casualties, however. Oral traditions developed from previous earthquakes helped the aboriginal tribes escape the tsunami. For example, the folklore of the Onges talks of "huge shaking of ground followed by high wall of water". Almost all of the Onge people seemed to have survived the tsunami.
Aceh Province, Sumatra, Indonesia
The tsunami struck the west and north coasts of northern Sumatra, particularly in Aceh Province, Indonesia, during the early morning. At Ulee Lheue in Banda Aceh, a survivor described three waves, with the first wave rising only to the foundation of the buildings.
This was followed by a large withdrawal of the sea before the second and third waves hit. The tsunami reached shore 15–20 minutes after the earthquake, and the second was bigger than the first. A local resident living at Banda Aceh stated that the wave was "higher than my house". Another resident living 2 km (1.2 mi) near the coast on the outskirt of the city said that the tsunami was "like a wall, very black" in colour and had a "distinct sound" getting louder as it neared the coast.
- 15–30 m (49 ft–98 ft) on the west coast of Aceh.
- 6–12 m (19.7 ft–39.4 ft) on the Banda Aceh coast.
- 6 m (19.7 ft) on the Krueng Raya coast (3 oil tanks floated out)
- 5 m (16.4 ft) on the Sigli coast.
- 3–6 m (9.8 ft–19.7 ft) on the north coast of Weh Island directly facing the tsunami source.
- 3 m (9.8 ft) on the opposite side of the coast of Weh Island facing the tsunami.
The tsunami height on the Banda Aceh coast was lower than half of that on the west coast. The tsunami height was reduced by half from 12 m (39.4 ft) at Ulee Lheue to 6 m (19.7 ft) a further 8 km (4.97 miles) to the northeast. The inundation was observed to lie 3–4 km (1.86–2.49 miles) inland throughout the city. Flow depths over the ground were observed to be over 9 m (29.5 ft) in the seaside section of Ulee Lheue and tapered landward. The level of destruction was more extreme on the northwestern flank of the city in the areas immediately inland of the aquaculture ponds. The area toward the sea was wiped clean of nearly every structure, while closer to the river dense construction in a commercial district showed the effects of severe flooding. The flow depth was just at the level of the second floor, and there were large amounts of debris piled along the streets and in the ground-floor storefronts. One of the reasons seems to be that there is an archipelago between Lhoknga and Banda Aceh. Within 2–3 km (1.24–1.86 miles) of the shoreline, houses, except for strongly-built reinforced concrete ones with brick walls, which seemed to have been partially damaged by the earthquake before the tsunami attack, were swept away or destroyed by the tsunami.
Three small islands: Weh, Breueh, and Nasi, lie just north of the capital city. The tsunami effects on two of the islands, Breueh and Nasi were extreme, with a runup of 10–20 m (33–66 ft) on the west-facing shores. Coastal villages were destroyed by the tsunami waves. On Pulau Weh, however, the island experienced strong surges in the port of Sabang, yet there was little damage with a reported runup values of 3–5 m (9.8–16.4 ft), which was most likely sheltered from the direct tsunami attack by the islands to the southwest.
In Lhoknga, a town in Aceh Besar Regency, Aceh Special Region, on the western side of the island of Sumatra, 13 km (8.08 miles) southwest of Banda Aceh was flattened and destroyed by the 2004 Boxing Day tsunami, where its population dwindled from 7,500 to 400. Tsunami waves were almost 30 m (98.4 ft) high. Eyewitnesses reported 10 to 12 waves, the second and third being the highest. The sea receded (drawback) 10 minutes after the earthquake and the first wave came rapidly landward from the southwest as a turbulent flow (flood) with depths ranging from 0.5 to 2.5 m (1.64 ft–8.20 ft) high. The second and third waves were 15–30 m (49.2 ft–98.4 ft) high at the coast, described having an appearance to a surf wave (cobra-shaped) but "taller than the coconut trees" and "like a mountain". The second and third tsunami waves changed appearance from a surfing wave form to a huge tsunami bore (similar to tsunami witnessed in Khao Lak, Thailand). The second wave (the tsunami bore) was the largest; it came from the west-southwest within five minutes of the first wave. Consequently, the tsunami stranded cargo ships and barges and destroyed a cement factory near the Lampuuk coast. Surveyed areas by scientists show runup heights over 20 m (65.6 ft) on the northwest coast of Sumatra in Aceh Province with a maximum runup of 51 m (167.3 ft).
In Meulaboh based on survivor testimonies, the tsunami arrived after the sea receded about 500 m (0.31 miles), followed by an advancing small tsunami. The second and third destructive waves arrived later, which exceeded the height of the coconut trees. The inundation distance is about 5 km (3.1 miles).
Such high and fast waves arising from the epicentre by a megathrust earthquake were later found to be due to splay faults, secondary faults arising due to cracking of the sea floor to jut upwards in seconds, causing waves' speed and height to increase. A large slip of 30 m (98.4 ft) was estimated on the subfault off the west coast of Aceh Province. Another factor is subsidence at Banda Aceh (20–60 cm), Peukan Bada (>20 cm), Lhok Nga and Leupung (>1.5 m).
Other towns on Aceh's west coast hit by the disaster included Leupung, Lhokruet, Lamno, Patek, Calang, Teunom, and the island of Simeulue. Affected or destroyed towns on the region's north and east coast were Pidie Regency, Samalanga, Panteraja, and Lhokseumawe.
The high fatality in the area was mainly due to the unpreparedness of the population. Helicopter surveys showed entire settlements virtually destroyed with destruction miles inland with only some mosques left standing.
Andaman and Nicobar Islands, India
The tsunami arrived in the Andaman and Nicobar Islands minutes after the earthquake, and it caused extensive devastation to the islands' environment. Specifically, the Andaman Islands were moderately affected while the island of Little Andaman and the Nicobar Islands were severely affected by the tsunami. The tsunami survey were carried out in Little Andaman (mainly at Hut Bay), South Andaman (mainly in and around Port Blair), Car Nicobar (along Kankana-Mus sector), Great Nicobar (mainly at Campbell Bay and Joginder Nagar area).
In the South Andaman, based on local eyewitnesses, tsunami waves attacked three times. Of the three, the third one was the most devastating. Flooding occurred at the coastlines of the islands and low-lying areas inland, which are connected to open sea through creeks. Inundation has been observed, along east coast of South Andaman Island and is found to be restricted at Chidiyatapu, Burmanallah, Kodiaghat, Beadnabad, Corbyn’s cove and Marina Park/Aberdeen Jetty areas. Along the west coast, the inundation has been observed around Guptapara, Manjeri, Wandoor, Collinpur and Tirur regions. Several near shore establishments and numerous infrastructures such as seawalls and a 20 MW diesel generated power plant at Bamboo Flat were extensively damaged.
Results of the tsunami survey in South Andaman along Chiriyatapu, Corbyn’s Cove and Wandoor beaches:
- 5.0 m (16.4 ft) in maximum tsunami height with a run-up of 4.24 m (13.9 ft) at Chiriyatapu Beach.
- 5.48 m (18 ft) in maximum tsunami height and run-up at Corbyn's Cove Beach.
- 6.64 m (21.8 ft) in maximum tsunami height and run-up of 4.63 m (15.2 ft) at Wandoor Beach.
Meanwhile, in the Little Andaman, tsunami waves impinged on the eastern shore of this island 25 to 30 minutes after the earthquake. It was a four-wave cycle; out of which the fourth one was most devastating with a tsunami wave height of about 10 m (33 ft). The tsunami water had converted the settlements at Hut Bay into rubbles within a range of 1 km inland from the seashore. Everything was destroyed including the jetty and the breakwater. Run up level up to 3.3 m (10.8 ft) have been measured.
Moreover, in Malacca located on the island of Car Nicobar, According to local people, three pulses of tsunami waves attacked the area three times. The first wave that came 5 minutes after the earthquake was preceded by recession of the seawater up to 600–700 m (1969–2297 ft), exposing the seabed. The second and third waves came with a 10 minutes interval after the first and second waves respectively. The third wave was the strongest, with a maximum tsunami wave height of 11 m (36 ft) and was accompanied by a loud noise. Furthermore, waves nearly 3 stories high devastated the Indian Air Force base, located just south of Malacca. The tsunami waves attacked the area three times with a maximum tsunami wave height of 11 m (36 ft). Inundation limit was found to be up to 1.25 km (4101 ft) inland. The impact of the waves was so severe that four Oil tankers of IOC were thrown almost 800 m (2624 ft) from the seashore near Malacca to Air force colony main gate. In Chuckchucha and Lapati, the tsunami arrived in a three wave cycle with a maximum tsunami wave height of 12 m (39 ft).
In Campbell Bay of Great Nicobar island, the tsunami waves hit the area three times with an inundation limit of 250–550 m (820–1804 ft). The first wave came within 5 minutes of the earthquake. The second and third waves came 10 minutes after first and second waves respectively. The second wave was the strongest with a loud noise. Deadly tsunami waves wreaked havoc in this densely populated Jogindar Nagar area, situated 13 km south of Campbell Bay. According to local information, tsunami waves attacked the area thrice. The first wave came 5 minutes after the main shock (0629 hrs.) with a marginal drop in sea level. Second wave came 10 minutes after the first one with a maximum height of 4.84 m (15.9 ft) and caused the major destruction. The third wave came within 15 minutes after the second one with a lower wave height. The maximum inundation limit due to tsunami water intrusion has been found to be about 500 m (0.5 km).
Eyewitnesses at Port Blair recall that the water receded before the first wave, and the third wave was the tallest and caused the most damage. However, at Hut Bay, Malacca and Campbell Bay — locations far south of Port Blair — it was reported that the water level rose by about 1–2 m (3.3 ft–6.6 ft) from the normal sea level and remained there before the first wave crashed ashore.
- 1.5 m (4.9 ft) at Diglipur and Rangat at North Andaman Island.
- 8 m (26.2 ft) high at Campbell Bay (in Great Nicobar Island),
- 10–12 m (32.8 ft–39.4 ft) high at Malacca (in Car Nicobar Island) and at Hut Bay (in Little Andaman Island).
- 3 m (9.8 ft) high at Port Blair (in South Andaman Island).
The significant shielding of Port Blair and Campbell Bay by steep mountainous outcrops may have contributed to the relatively low wave heights at these locations, whereas the open terrain along the eastern coast at Malacca and Hut Bay likely contributed to the great height of the tsunami waves
The tsunami first arrived on the eastern coast and subsequently refracted around the southern point of Sri Lanka (Dondra Head). The refracted tsunami waves inundated the southwestern part of Sri Lanka after some of its energy had been reflected from impact with the Maldives. Sri Lanka is located 1,700 km (1056.33 miles) far from the epicenter and the tsunami source, so no one felt the ground shake and the tsunami hit the entire coastline of Sri Lanka around 2 hours after the earthquake. It seems that the tsunami flooding consisted of three main waves, with the second being the largest and most destructive. The first tsunami waves had initially caused a small flood (positive wave) as it struck the Sri Lankan coastline. Moments later, the ocean floor was exposed to as much as 1 km (0.62 miles) in places due to drawback (negative wave), which was followed by a massive second tsunami wave in the form of a flood. Certain locations managed to reduce the power of the waves through construction of seawalls and breakwaters.
The largest run-up measured was at 12.5 m (41 ft) with inundation distance of 390 m to 1.5 km (0.242 miles-0.932 miles) in Yala. In Hambantota, tsunami run-ups are measured at 11 m (36.1 ft) with the greatest inundation distance of 2 km (1.24 miles), and tsunami run-up measurements along the Sri Lankan coasts are at 2.4–11 m (7.87 ft–36.1 ft). Tsunami waves measured on the east coast ranged from 4.5 m-9 m (14.8 ft–29.5 ft) at Pottuvill to around Batticaloa, 2.6 m- 5 m (8.53 ft–16.4 ft) in the northeast around Trincomalee and 4 m-5 m (13.1 ft–16.4 ft) in the west coast from Moratuwa to Ambalangoda.
- 9 m (29.5 Ft) at Koggala.
- 6 m (19.7 ft) at Galle port.
- 4.8 m (15.7 ft) around the Galle coast.
- 8.71 m (28.6 ft) at Nonagama.
- 4.9 m (16.1 ft) at Weligama.
- 4 m (13.1 ft) at Dodundawa.
- 4.7 m (15.4 ft) at Ambalangoda.
- 4.7 m (15.4 ft) at Hikkaduwa Fishery Harbour.
- 10 m (33 ft) at Kahawa.
- 4.8 m (15.7 ft) at North Beach of Beruwala.
- 6 m (19.7 ft) at Paiyagala.
The Train #50, a regular passenger train operating between the cities of Colombo Maradana and Matara, was derailed and overturned by the tsunami which caused the 2004 Sri Lanka tsunami-rail disaster which took at least 1,700 lives, making it the largest single rail disaster in world history by death toll. Estimates based on the state of the shoreline and a high-water mark on a nearby building place the tsunami 7.5–9 m (24.6 ft to 29.5 ft) above sea level and 2–3 m (6.6 ft to 9.8 ft) higher than the top of the train.
In Sri Lanka, the civilian casualties were second only to those in Indonesia. Reports vary on the number of deaths since many people are still missing and the country lacks adequate communications. The eastern shores of Sri Lanka faced the hardest impact since they were facing the epicenter of the earthquake. The southwestern shores were hit later, but the death toll was just as severe. The southwestern shores are a hotspot for tourists as well as the fishing economy. Tourism and fishing industries created high population densities along the coast.
The coastal lifestyle of people and degradation of the natural environment in Sri Lanka contributed to the high death tolls. In addition to the high number of fatalities, approximately 90,000 buildings were destroyed. Houses were easily destroyed since they were built mostly from wood.
The tsunami hit the southwest coast of southern Thailand, which was about 500 km (310.69 miles) from the epicenter. The region is heavily visited by foreigners during the Christmas season. Since the tsunami hit during high tide, its damage was severe. Approximately 5,400 people were killed and 3,100 people were reported missing. The places where the tsunami struck were Phang Nga Province, Phuket, the Phi Phi Islands, Ko Racha Yai, Ko Lanta Yai and Ao Nang of Krabi Province, offshore archipelagos like the Surin Islands, the Similan Islands, and coastal areas of Satun, Ranong, and Trang. The country experienced the largest tsunami run-up height of any location outside of Sumatra, which occurred at Khao Lak and the areas of Takua Pa District that face the Andaman Sea. The tsunami heights recorded:
- 6–10 m (19.7 ft–32.8 ft) in Khao Lak.
- 3–6 m (9.84 ft–19.7 ft) along the west coast of Phuket island.
- 3 m (9.84 ft) along the south coast of Phuket island.
- 2 m (6.56 ft) along the east coast of Phuket island.
- 4–6 m (13.12 ft–19.7 ft) on the Phi Phi Islands.
- 19.6 m (64.3 ft) at Ban Thung Dap.
- 5 m (16.4 ft) at Ramson.
- 6.8 m (22.3 ft) at Ban Thale Nok.
- 5 m (16.4 ft) at Hat Praphat (Ranong Coastal Resources Research Station).
- 6.3 m (20.7 ft) at Thai Mueang District.
- 6.8 m (22.3 ft) at Rai Dan.
The province of Phang Nga was the most heavily affected area in Thailand. The northern part of Phang Nga Province is rural, with fishery and agricultural villages while the central part has several resort hotels. Khao Lak is in the south of Phang Nga Province with many luxury hotels, popular with foreign tourists. Khao Lak was hit by the tsunami after 10:00 and the death toll in the area was the largest in Thailand. Many local villagers and tourists lost their lives during the event. A maximum inundation of approximately 2 km (1.2 miles) and the inundated depths were 4–7 m (13.12 ft–23 ft) in Khao Lak. Surveys conducted show that the tsunami inundated the third floor of a resort hotel. Tsunami heights in Khao Lak were much higher than on Phuket Island. The reason for the difference seems to have been caused by the local bathymetry off Khao Lak. According to some interviews with local residents and affected tourists, the leading wave produced an initial depression, called a tsunami drawback or "disappearing sea" effect and the second wave was larger. The highest recorded tsunami run-up measured was at 19.6 m (64.3 ft) at Ban Thung Dap, on the southwest tip of Ko Phra Thong Island and the second highest at 15.8 m (51.8 ft) at Ban Nam Kim.
At Phuket island, many of its west coast beaches were affected. At Patong Beach, a tourist mecca, tsunami heights were 5–6 m (16.4 ft–19.7 ft) and the inundated depth was about 2 m (6.6 ft). Tsunami heights became lower from the west coast, the south coast to the east coast of the island. On Karon Beach on the west coast, the coastal road was built higher than the shore and it acted as a seawall, protecting a hotel which was behind it. On the east coast of Phuket Island, which was not facing the tsunami, the tsunami height was about 2 m (6.6 ft). In one river mouth, many boats were damaged. The tsunami propagated anticlockwise around Phuket Island, as was the case at Okushiri Island in the 1993 Hokkaido earthquake. According to some interviews with the people, the leading wave produced an initial depression and the second wave was the largest.
The Phi Phi Islands are a group of small islands that were affected by the tsunami. The north bay of Phi Phi Don Island opens to the northwest, thus it faced in the direction of the tsunami. The measured tsunami height on this beach was 5.8 m (19.02 ft). According to some eyewitnesses accounts, the tsunami came from the north and south, and totally washed the central area away. The ground level here was about 2 m (6.6 ft) above sea level and there were many cottages and hotels. The tsunami waves from the north and south destroyed the area. The south bay opens to the southeast and faces in the opposite direction from which the tsunami was propagated. Further, Phi Phi Le Island shields the port of Phi Phi Don Island. The measured tsunami height, however, was 4.6 m (15.1 ft) in the port. It indicated that the tsunami propagated around the islands.
Many amateur videos recorded by tourists and locals of the tsunami at Thailand were televised popularly in the media.
The tsunami arrived in the states of Andhra Pradesh and Tamil Nadu along the southeast coast of the Indian mainland shortly after 9:00 a.m. At least two hours later, it arrived in the state of Kerala along the southwest coast. Tamil Nadu, the union territory of Pondicherry and Kerala were extensively damaged, while Andhra Pradesh sustained moderate damage. There were two to five waves of varying height that coincided with the local high tide in some areas.
The tsunami run-up was only 1.6 m (5.2 ft) in areas in the state of Tamil Nadu that were shielded by the island of Sri Lanka, but was 4–5 m (13.1 ft–16.4 ft) in coastal districts such as Nagapattinam in Tamil Nadu that were directly across from Sumatra, which happen to be the highest on the Indian mainland. On the western coast, the runup elevations were 4.5 m (14.8 ft) at Kanyakumari District in Tamil Nadu, and 3.4 m (11.2 ft) each at Kollam and Ernakulam Districts in Kerala. The duration between the waves also varied from about 15 minutes to about 90 minutes. Additionally, the tsunami varies in height when it struck the Indian coast, ranging from 2–10 m (6.6 ft–33 ft) on average based on survivor's accounts.
- 3.4 m (11.2 ft) at Kerala, inundation distance of 0.5–1.5 km (0.31–0.62 miles) with 250 km (155.3 miles) of coastline affected.
- 4.5 m (14.8 ft) at southern coastline of Tamil Nadu, inundation distance of 0.2–2.0 km (0.12–1.24 miles) with 100 km (62.1 miles) of coast affected.
- 5 m (16.4 ft) at eastern coastline of Tamil Nadu facing tsunami source, inundation distance of 0.4–1.5 km (0.25–0.93 miles) with 800 km (497 miles) of coastline affected.
- 4 m (13.1 ft) at Pondicherry, inundation distance of 0.2–2.0 km (0.12–1.24 miles) with 25 km (15.5 miles) of coast affected.
- 2.2 m (7.22 ft) at Andhra Pradesh, inundation distance of 0.2–1.0 km (0.12–0.62 miles) with 985 km (612 miles) of coast.
The tsunami traveled 2.5 km (1.55 miles) at its maximum inland at Karaikal, Puducherry. The inundation distance varied between 100–500 m (0.062 miles-0.311 miles) in most areas, except at river mouths, where it was more than 1 km (0.62 miles). The inundation distance varied with topology and vegetation. Areas with dense coconut groves or mangroves had much smaller inundation distances, and those with river mouths or backwaters saw much larger inundation distances.Presence of seawalls at the Kerala coast and some of Tamil Nadu coast helped to reduce the impact of the waves. However, when the seawalls were made of loose stones, the stones were displaced and carried a few metres inland.
The state of Kerala experienced tsunami-related damage in three southern districts, Ernakulam, Alappuzha, and Kollam, which are densely populated with villagers, due to diffraction of the waves around Sri Lanka. The southernmost district of Thiruvananthpuram, however, escaped damage, possibly due to the wide turn of the diffracted waves at the peninsular tip. Major damage occurred in two narrow strips of land bound on the west by the Arabian Sea and on the east by a network of backwaters – Kerala backwaters. The waves receded before the first tsunami with the highest fatality reported from the densely populated Alappad panchayat (including the villages of Cheriya Azhikkal and Azhikkal) at Kollam district, caused by a 4 m (13.1 ft) tsunami.
The worst affected area in Tamil Nadu was Nagapattinam district, with a reported 6,051 fatalities caused by a 5 m (16.4 ft) tsunami, followed by Cuddalore district, with many villages destroyed. The 13 km (8.1 miles) Marina Beach in Chennai was battered by the tsunami which swept across the beach taking morning walkers unaware. Besides that, a 10 m (33 ft) black muddy tsunami reportedly ravaged the city of Karaikal, where 492 lives were lost. The city of Pondicherry, protected by seawalls relatively escaped unscathed in comparison to other areas in the state.
At the same time, many villages from many districts at the state of Andhra Pradesh were destroyed. In the Krishna district, the tsunami created havoc in Manginapudi and on Machalipattanam Beach, which came like a running wall at the latter. The most affected was Prakasham District, recording 35 deaths, with maximum damage at Singraikonda, a beautiful beach hamlet.
Given the enormous power of the tsunami, the fishing industry suffered the greatest. Moreover, the cost of damage in the transport sector was reported in the tens of thousands. Many buildings and infrastructures near the coast were obliterated.
Conclusively, the tsunami effects varied greatly across different parts of the coast according to the number of waves experienced, the inundation distance and height of waves, and the population density of the area, as well as topological and geographical features that made some areas more vulnerable than others. Besides these factors, the number of lives lost was influenced by exposure to previous disasters and the local disaster management capability. Most of the people killed were members of the fishing community and, in some cases such as Marina Beach at Chennai and Velankanni in Nagapattinam, they were visitors on the beach.
The tsunami of 26 December 2004 severely affected the Maldives at a distance of 2,500 km (1553.4 miles) from the epicenter of the magnitude 9.0 earthquake. Identically to Sri Lanka, survivors reported three waves with the second wave being the most powerful. Being rich in coral reefs, the Maldives provides an opportunity for scientists to assess the impact of a tsunami on coral atolls. The significantly lower tsunami impact on the Maldives compared to Sri Lanka is largely due to the topography and bathymetry of the atoll chain with offshore coral reefs, deep channels separating individual atolls and its arrival within low tide which decreased the power of the tsunami. After the tsunami, there were some concern that the country might be totally submerged and become uninhabitable. However, this was proven untrue.
The largest tsunami wave measured was 4 m (13.1 ft) at Vilufushi Island (Thaa Atoll). The tsunami arrived approximately 2 hours after the earthquake. The greatest tsunami inundation occurred at North Male Atoll, Male island at 250 m (0.155 miles) along the streets.
- 1.3 m-2.4 m (4.27 ft–7.87 ft) at North Male Atoll, Male Island.
- 2 m (6.56 ft) at North Male Atoll, Huhule Island.
- 1.7 m-2.8 m (5.58 ft–9.2 ft) at South Male Atoll, Embudhu Finothu.
- 2.5 m-3.3 m (8.2 ft–10.8 ft) at Laamu Atoll, Fonadhoo Island.
- 2.2 m-2.9 m (7.2 ft–9.51 ft) at Laamu Atoll, Gan Island.
- 2.3 m-3 m (7.5 ft–9.8 ft) at North Male Atoll, Dhiffushi Island.
- 2.2 m-2.4 m (7.2 ft–7.87 ft) at North Male Atoll, Huraa Island.
- more than 1.5 m (4.92 ft) at North Male Atoll, Kuda Huraa Island.
In Myanmar, the tsunami caused only moderate damage, which arrived between 2 and 5.5 hours after the earthquake. Although the country's western Andaman Sea coastline lies at the proximity of the rupture zone, there were smaller tsunamis than the neighboring Thai coast, probably because the main tsunami source did not extend to the Andaman Islands. Another factor is that some coasts of Taninthayi Division was protected by offshore islands of the Myeik Archipelago. Based on scientific surveys from Ayeyarwaddy Delta through Taninthayi Division, it is revealed that tsunami heights along the Myanmar coast were between 0.4–2.9 m (1.3–9.5 ft). Eyewitnesses often compared the December tsunami heights with the “rainy season high tide”; although at most locations, the tsunami height was similar or smaller than the “rainy season high tide” level.
Tsunami survey heights:
- 0.6 m-2.3 m (1.97 ft–7.54 ft) around the Ayeyarwady delta.
- 0.9 m-2.9 m (2.95 ft–9.5 ft) at Dawei area.
- 0.7 m-2.2 m (2.3 ft–7.2 ft) around Myeik.
- 0.4 m-2.6 m (1.3 ft–8.5 ft) around Kawthaung.
Interviews with local people indicate that they did not feel the earthquake in Taninthayi Division or in Ayeyarwaddy Delta. The 71 casualties can be attributed to poor housing infrastructure and additionally, the fact that the coastal residents in the surveyed areas live on flat land along the coast, especially in the Ayeyarwaddy Delta, and that there is no higher ground to evacuate. The tsunami heights from the 2004 December earthquake were not more than 3 m (9.8 ft) along the Myanmar coast, the amplitudes are slightly large off the Ayeyarwaddy Delta, probably because the shallow delta cause a concentration in tsunami energy.
The tsunami travelled 5000 km (3106.86 miles) west across the open ocean before striking the East African country of Somalia. Around 289 fatalities were reported in the Horn of Africa, drowned by four tsunami waves. The hardest hit was a 650 km (403.9 miles) stretch of the Somalia coastline between Garacad (Mudug region) and Xaafuun (Bari region), which forms part of the Puntland Province. Most of the victims were reported along the low-lying Xaafuun Peninsula. The Puntland coast in northern Somalia was by far the area hardest hit by the waves to the west of the Indian subcontinent. The waves arrived around noon local time.
Consequently, tsunami runup heights vary from 5 m (16.4 ft) to 9 m (29.5 ft) with inundation distances varying from 44 m (0.027 miles) to 704 m (0.44 miles). The maximum runup height of almost 9 m (29.5 ft) was recorded in Bandarbeyla. An even higher runup point was measured on a cliff near the town of Eyl, solely on an eyewitness account.
The highest death toll was in Xaafuun, also known as Hafun, with 19 bodies and 160 people presumed missing out of its 5000 inhabitants, which amounts to the highest number of casualties in a single African town and the largest tsunami death toll in a single town to the west of the Indian subcontinent. In Xaafuun, small drawbacks were observed before the third and most powerful tsunami flood the town.
Numerous fishing boats and buildings were also devastated.
Elsewhere in the Indian Ocean
The tsunami also reached Malaysia, mainly on the northern states such as Kedah, Perak and Penang and on offshore islands such as Langkawi island. Peninsular Malaysia was shielded by the full force of the tsunami due to the protection offered by the island of Sumatra, which lies just off the western coast.
In Bangladesh, located on the northern Bay of Bengal escaped major damage and deaths because the water displaced by the strike-slip fault was relatively little on the northern section of the rupture zone, which ruptured slowly. In Yemen, the tsunami killed 2 people with a maximum runup of 2 m (6.6 ft).
The tsunami was detected in the southern parts of east Africa, where rough seas were reported, specifically on the eastern and southern coasts that face the Indian Ocean. Countries apart from Somalia that recorded fatalities include South Africa (the furthest)- 2, Kenya- 1, The Seychelles- 3 and Tanzania- 10.
Tidal surges also occurred along the Western Australian coast that lasted for several hours, resulting in boats losing their moorings and two people needing to be rescued.
Death toll and casualties
According to the U.S. Geological Survey a total of 227,898 people died (see table below for details). Measured in lives lost, this is one of the ten worst earthquakes in recorded history, as well as the single worst tsunami in history. Indonesia was the worst affected area, with most death toll estimates at around 170,000. In an initial report by Siti Fadilah Supari, the Indonesian Minister of Health at the time, estimated the death total to be as high as 220,000 in Indonesia alone, giving a total of 280,000 fatalities. However, the estimated number of dead and missing in Indonesia were later reduced by over 50,000. In their Synthesis Report the Tsunami Evaluation Coalition said "It should be remembered that all such data are subject to error, as data on missing persons especially are not always as good as one might wish". A much higher number of deaths (up to 600) has been suggested for Myanmar based on reports from Thailand.
The tsunami caused serious damage and deaths as far as the east coast of Africa, with the farthest recorded death due to the tsunami occurring at Rooi Els in South Africa, 8,000 km (5,000 mi) away from the epicentre. In total, eight people in South Africa died due to abnormally high sea levels and waves.
Relief agencies reported that one-third of the dead appeared to be children. This was a result of the high proportion of children in the populations of many of the affected regions and because children were the least able to resist being overcome by the surging waters. Oxfam went on to report that as many as four times more women than men were killed in some regions because they were waiting on the beach for the fishermen to return and looking after their children in the houses.
In addition to the large number of local residents, up to 9,000 foreign tourists (mostly Europeans) enjoying the peak holiday travel season were among the dead or missing, especially people from the Nordic countries. The European nation hardest hit may have been Sweden, whose death toll was 543. Germany was close behind with 539 identified victims. Among the international victims were a Thai prince, and a number of relatively well known musicians and sports players.
States of emergency were declared in Sri Lanka, Indonesia, and the Maldives. The United Nations estimated at the outset that the relief operation would be the costliest in human history. Then-UN Secretary-General Kofi Annan stated that reconstruction would probably take between five and ten years. Governments and non-governmental organisations feared that the final death toll might double as a result of diseases, prompting a massive humanitarian response. In the end, this fear did not materialise.
For purposes of establishing timelines of local events, the time zones of affected areas are: UTC+3: (Kenya, Madagascar, Somalia, Tanzania); UTC+4: (Mauritius, Réunion, Seychelles); UTC+5: (Maldives); UTC+5:30: (India, Sri Lanka); UTC+6: (Bangladesh); UTC+6:30: (Cocos Islands, Myanmar); UTC+7: (Indonesia (western), Thailand); UTC+8: (Malaysia). Since the earthquake occurred at 00:58:53 UTC, add the above offsets to find the local time of the earthquake.
|Affected country[a]||Confirmed deaths||Estimated deaths[b]||Injured||Missing||Displaced||Ref|
The earthquake and resulting tsunami affected many countries in Southeast Asia and beyond, including Indonesia, Sri Lanka, India, Thailand, the Maldives, Somalia, Myanmar, Malaysia, Seychelles and others. Many other countries, especially in Europe, had large numbers of citizens traveling in the region on holiday. Sweden lost 543 citizens in the disaster, while Germany had 539 identified victims.
Event in historical context
The last major tsunami in the Indian Ocean was about A.D. 1400. In 2008, a team of scientists working on Phra Thong, a barrier island along the hard-hit west coast of Thailand, reported evidence of at least three previous major tsunamis in the preceding 2,800 years, the most recent from about 700 years ago. A second team found similar evidence of previous tsunamis in Aceh, a province at the northern tip of Sumatra; radiocarbon dating of bark fragments in soil below the second sand layer led the scientists to estimate that the most recent predecessor to the 2004 tsunami probably occurred between A.D. 1300 and 1450.
The 2004 earthquake and tsunami combined are the world's deadliest natural disaster since the 1976 Tangshan earthquake. The earthquake was the third most powerful earthquake recorded since 1900. The deadliest known earthquake in history occurred in 1556 in Shaanxi, China, with an estimated death toll of 830,000, though figures from this period may not be as reliable.
The 2004 tsunami is the deadliest in recorded history. Before 2004, the tsunami created in both Indian and Pacific Ocean waters by the 1883 eruption of Krakatoa, thought to have resulted in anywhere from 36,000 to 120,000 deaths, had probably been the deadliest in the region. In 1782 about 40,000 people are thought to have been killed by a tsunami (or a cyclone) in the South China Sea. The most deadly tsunami before 2004 was Italy's 1908 Messina earthquake on the Mediterranean Sea where the earthquake and tsunami killed about 123,000.
A great deal of humanitarian aid was needed because of widespread damage of the infrastructure, shortages of food and water, and economic damage. Epidemics were of special concern due to the high population density and tropical climate of the affected areas. The main concern of humanitarian and government agencies was to provide sanitation facilities and fresh drinking water to contain the spread of diseases such as cholera, diphtheria, dysentery, typhoid and hepatitis A and B.
In the days following the tsunami, significant effort was spent in burying bodies hurriedly due to fear of disease spreading. However, the public health risks may have been exaggerated, and therefore this may not have been the best way to allocate resources. The World Food Programme provided food aid to more than 1.3 million people affected by the tsunami.
Nations all over the world provided over US$14 billion in aid for damaged regions, with the governments of Australia pledging US$819.9 million (including a US$760.6-million aid package for Indonesia), Germany offering US$660 million, Japan offering US$500 million, Canada offering US$343 million, Norway and the Netherlands offering both US$183 million, the United States offering US$35 million initially (increased to US$350 million), and the World Bank offering US$250 million. Also Italy offered US$95 million, increased later to US$113 million of which US$42 million was donated by the population using the SMS system According to USAID, the US has pledged additional funds in long-term U.S. support to help the tsunami victims rebuild their lives. On 9 February 2005, President Bush asked Congress to increase the U.S. commitment to a total of US$950 million. Officials estimated that billions of dollars would be needed. Bush also asked his father, former President George H. W. Bush, and former President Bill Clinton to lead a U.S. effort to provide private aid to the tsunami victims.
In mid-March the Asian Development Bank reported that over US$4 billion in aid promised by governments was behind schedule. Sri Lanka reported that it had received no foreign government aid, while foreign individuals had been generous. Many charities were given considerable donations from the public. For example, in the United Kingdom the public donated roughly £330,000,000 sterling (nearly US$600,000,000). This considerably outweighed the donation by the government and came to an average of about £5.50 (US$10) donated by every citizen.
In August 2006, fifteen local aid staff working on post-tsunami rebuilding were found executed in northeast Sri Lanka after heavy fighting, the main umbrella body for aid agencies in the country said. There had been reports and rumors that the local aid workers had been killed.
The level of damage to the economy resulting from the tsunami depends on the scale examined. While local economies were devastated, the overall impact to the national economies was minor. The two main occupations affected by the tsunami were fishing and tourism. The impact on coastal fishing communities and the people living there, some of the poorest in the region, has been devastating with high losses of income earners as well as boats and fishing gear. In Sri Lanka artisanal fishery, where the use of fish baskets, fishing traps, and spears are commonly used, is an important source of fish for local markets; industrial fishery is the major economic activity, providing direct employment to about 250,000 people. In recent years the fishery industry has emerged as a dynamic export-oriented sector, generating substantial foreign exchange earnings. Preliminary estimates indicate that 66% of the fishing fleet and industrial infrastructure in coastal regions have been destroyed by the wave surges, which will have adverse economic effects both at local and national levels.
While the tsunami destroyed many of the boats vital to Sri Lanka's fishing industry, it also created demand for fiberglass reinforced plastic catamarans in boatyards of Tamil Nadu. Since over 51,000 vessels were lost to the tsunami, the industry boomed. However, the huge demand has led to lower quality in the process, and some important materials were sacrificed to cut prices for those who were impoverished by the tsunami.
But some economists believe that damage to the affected national economies will be minor because losses in the tourism and fishing industries are a relatively small percentage of the GDP. However, others caution that damage to infrastructure is an overriding factor. In some areas drinking water supplies and farm fields may have been contaminated for years by salt water from the ocean. Even though only coastal regions were directly affected by the waters of the tsunami, the indirect effects have spread to inland provinces as well. Since the media coverage of the event was so extensive, many tourists cancelled vacations and trips to that part of the world, even though their travel destinations may not have been affected. This ripple effect could especially be felt in the inland provinces of Thailand, such as Krabi, which acted like a starting point for many other tourist destinations in Thailand.
Both the earthquake and the tsunami may have affected shipping in the Malacca Straits, which separate Malaysia and the Indonesian island of Sumatra, by changing the depth of the seabed and by disturbing navigational buoys and old shipwrecks. In one area of the Strait, water depths were previously up to 4,000 feet (1,200 m), and are now only 100 feet (30 m) in some areas, making shipping impossible and dangerous. These problems also made the delivery of relief aid more challenging. Compiling new navigational charts may take months or years. However, officials hope that piracy in the region will drop off as a result of the tsunami.
Countries in the region appealed to tourists to return, pointing out that most tourist infrastructure is undamaged. However, tourists were reluctant to do so for psychological reasons. Even beach resorts in parts of Thailand which were untouched by the tsunami were hit by cancellations.
Beyond the heavy toll on human lives, the Indian Ocean earthquake has caused an enormous environmental impact that will affect the region for many years to come. It has been reported that severe damage has been inflicted on ecosystems such as mangroves, coral reefs, forests, coastal wetlands, vegetation, sand dunes and rock formations, animal and plant biodiversity and groundwater. In addition, the spread of solid and liquid waste and industrial chemicals, water pollution and the destruction of sewage collectors and treatment plants threaten the environment even further, in untold ways. The environmental impact will take a long time and significant resources to assess.
According to specialists, the main effect is being caused by poisoning of the freshwater supplies and of the soil by saltwater infiltration and a deposit of a salt layer over arable land. It has been reported that in the Maldives, 16 to 17 coral reef atolls that were overcome by sea waves are without fresh water and could be rendered uninhabitable for decades. Uncountable wells that served communities were invaded by sea, sand, and earth; and aquifers were invaded through porous rock. Salted-over soil becomes sterile, and it is difficult and costly to restore for agriculture. It also causes the death of plants and important soil micro-organisms. Thousands of rice, mango, and banana plantations in Sri Lanka were destroyed almost entirely and will take years to recover. On the island's east coast, the tsunami contaminated wells on which many villagers relied for drinking water. The Colombo-based International Water Management Institute monitored the effects of saltwater and concluded that the wells recovered to pre-tsunami drinking water quality one and a half years after the event. IWMI developed protocols for cleaning wells contaminated by saltwater; these were subsequently officially endorsed by the World Health Organization as part of its series of Emergency Guidelines.
The United Nations Environment Programme (UNEP) is working with governments of the region in order to determine the severity of the ecological impact and how to address it. UNEP has decided to earmark a US$1,000,000 emergency fund and to establish a Task Force to respond to requests for technical assistance from countries affected by the tsunami. In response to a request from the Maldivian Government, the Australian Government sent ecological experts to help restore marine environments and coral reefs—the lifeblood of Maldivian tourism. Much of the ecological expertise has been rendered from work with the Great Barrier Reef, in Australia's northeastern waters.
- Psychological trauma
Many health professionals and aid workers have reported widespread psychological trauma associated with the tsunami. Traditional beliefs in many of the affected regions state that a relative of the family must bury the body of the dead, and in many cases, no body remained to be buried. Women in Aceh required a special approach from foreign aid agencies, and continue to have unique needs.
- Conflicts and a cease-fire
The hardest hit area, Aceh, is considered to be a religiously conservative Islamic society and has had no tourism nor any Western presence in recent years due to armed conflict between the Indonesian military and Acehnese separatists. Some believe that the tsunami was divine punishment for lay Muslims shirking their daily prayers and/or following a materialistic lifestyle. Others have said that Allah was angry that there were Muslims killing other Muslims in an ongoing conflict. Saudi cleric Muhammad Al-Munajjid attributed it to divine retribution against non-Muslim vacationers "who used to sprawl all over the beaches and in pubs overflowing with wine" during Christmas break.
The widespread devastation caused by the tsunami led the main rebel group GAM to declare a cease-fire on 28 December 2004 followed by the Indonesian government, and the two groups resumed long-stalled peace talks, which resulted in a peace agreement signed 15 August 2005. The agreement explicitly cites the tsunami as a justification.
- Media coverage
In a poll conducted in 27 countries by GlobeScan for BBC World Service, 15 percent of respondents named the tsunami the most significant event of the year. Only the Iraq War was named by as many respondents. The extensive international media coverage of the tsunami, and the role of mass media and journalists in reconstruction, were discussed by editors of newspapers and broadcast media in tsunami-affected areas, in special video-conferences set up by the Asia Pacific Journalism Centre.
- Fraud, false alarms, and panic
The 26 December 2004 Asian tsunami left both the people and government of India in a state of heightened alert. On 30 December 2004, four days after the tsunami, the Portland, Oregon-based company Terra Research notified the India government that its sensors indicated there was a possibility of 7.9 to 8.1 magnitude tectonic shift in the next 12 hours between Sumatra and New Zealand. In response, the India Home Affairs minister announced that a fresh onslaught of deadly tsunami were likely along the India southern coast and Andaman and Nicobar Islands, even as there was no sign of turbulence in the region. The announcement generated panic in the Indian Ocean region and caused thousands to flee their homes, which resulted in jammed roads. The announcement was a false alarm and the Home Affairs minister withdrew their announcement. On further investigation, the India government learned that the consulting company Terra Research was run from the home of a self-described earthquake forecaster who had no telephone listing and maintained a website where he sold copies of his detection system. Three days after the announcement, Indian National Congress president Sonia Gandhi called Science & Technology minister Kapil Sibal to express her concern about Sibal's 30 December public warning being "hogwash".
- Impact on Sweden
The tsunami had a severe humanitarian and political impact in Sweden. The hardest hit country outside Asia, 543 Swedish tourists, mainly in Thailand, died. With no single incident having killed more Swedish people since the battle of Poltava in 1709, the cabinet of Göran Persson was heavily criticized for lack of action.
- Tsunami warning system
Smith Dharmasaroja, a meteorologist who predicted the tsunami before it hit, was assigned the development of the Thai tsunami warning system. The Indian Ocean Tsunami warning system was formed in early 2005 immediately after the tragedy of 26 December 2004 to provide an early warning of tsunamis for inhabitants around the Indian Ocean coasts.
- Effect on the Earth
The changes in the distribution of masses inside the Earth due to the earthquake had several consequences. It displaced the North Pole by 2.5 cm. It also slightly changed the shape of the Earth, specifically by decreasing Earth's oblateness by about one part in 10 billion, consequentially increasing Earth's rotation a little and thus shortening the length of the day by 2.68 microseconds.
In popular culture
Films and television
- Children of Tsunami: No More Tears (2005), a 24-minute documentary film, and its full-length follow-up Children of Tsunami: The Journey Continues.
- Hafalan Shalat Delisa (2011), an Indonesian movie.
- Tsunami: The Aftermath (2006), a two-part television miniseries about its after-effects.
- The Impossible (2012), an English-language Spanish film based on the story of María Belón and her family.
- Dasavathaaram (2008), a Tamil disaster film which culminates with 2004 tsunami.
- Kayal (2014), a Tamil drama film which culminates with the 2004 tsunami.
- The Wave That Shook The World (2005), a PBS NOVA educational television-series documentary about the 2004 tsunami.
- Hereafter (2010), a main character's life is affected after surviving the tsunami while on vacation.
- Haeundae (2009), Man-sik goes on a fishing trip with Yeon-hee's Dad & A tsunami hits.
- Tsunami: Caught on Camera (2009), a minute-by-minute account of the 2004 tsunami told through amateur video footage of witnesses from Indonesia, Thailand and Sri Lanka.
- Naked Science: Tsunami Warning (2009), an episode of an American documentary television series that premiered in 2004 on the National Geographic Channel with the episode dedicated to the events of 26 December 2004 and implications of a worldwide tsunami warning system.
- The Killing Sea, a 2006 novel by Richard Lewis, tells the story of two teenagers- a tourist and a local- as they struggle to survive in the days after the tsunami.
- Wave, a memoir by Sonali Deraniyagala, details the impact of the tsunami on Sri Lanka and the Indian subcontinent.
- Paint The Sky With Stars, a 2005 Anthology of Poetry and Prose, edited by Stephen Kuta. a collected work of voices written by poets around the world.
Rediscovery of Mahabalipuram
- Another result of the tsunami, respective of Indian culture, was the water that washed away centuries of sand from some of the ruins of a 1,200-year-old lost city at Mahabalipuram on the south coast of India. The site, containing such notable structures as a half-buried granite lion near a 7th-century Mahablipuram temple and a relic depicting an elephant, is part of what archaeologists believe to be an ancient port city that was swallowed by the sea hundreds of years ago.
- The song "12/26" by Kimya Dawson was written about the event and the humanitarian efforts by other countries afterward, from the perspective of a victim whose whole family died in the disaster.
- 1946 Aleutian Islands earthquake
- 1960 Valdivia earthquake
- 1964 Alaska earthquake
- 2008 Sichuan earthquake
- 2009 Samoa earthquake and tsunami
- 2010 Chile earthquake
- 2010 Haiti earthquake
- 2011 Tōhoku earthquake and tsunami
- Aid Still Required
- Great Hanshin earthquake
- List of earthquakes in 2004
- List of earthquakes in Indonesia
- Pornthip Rojanasunand, a prominent Thai doctor who took charge of identifying the bodies
- "Magnitude 9.1 – OFF THE WEST COAST OF SUMATRA". U.S. Geological Survey. Archived from the original on 17 August 2012. Retrieved 26 August 2012.
- Satake, K.; Atwater, B. (2007), "Long-Term Perspectives on Giant Earthquakes and Tsunamis at Subduction Zones" (PDF), Annual Review of Earth and Planetary Sciences, Annual Reviews, 35: 351, Bibcode:2007AREPS..35..349S, doi:10.1146/annurev.earth.35.031306.140302
- "Indian Ocean Tsunami - Economic Aspects". indianoceantsunami.web.unc.edu.
- "Astonishing Wave Heights Among the Findings of an International Tsunami Survey Team on Sumatra". U.S. Geological Survey. Retrieved 16 June 2016.
- Paris, R.; Lavigne F.; Wassimer P.; Sartohadi J. (2007). "Coastal sedimentation associated with the December 26, 2004 tsunami in Lhok Nga, west Banda Aceh (Sumatra, Indonesia)". Marine Geology. Elsevier. 238 (1–4): 93–106. Bibcode:2007MGeol.238...93P. doi:10.1016/j.margeo.2006.12.009.
- Paris, Raphaël; Cachão, Mário; Fournier, Jérôme; Voldoire, Olivier (1 April 2010). "Nannoliths abundance and distribution in tsunami deposits: example from the December 26, 2004 tsunami in Lhok Nga (northwest Sumatra, Indonesia)". Géomorphologie : relief, processus, environnement. 16 (1): 109–118. doi:10.4000/geomorphologie.7865.
- "Joint evaluation of the international response to the Indian Ocean tsunami: Synthesis Report" (PDF). TEC. July 2006. Archived from the original (PDF) on 2006-08-25. Retrieved 9 July 2018.
- "Earthquakes with 50,000 or More Deaths". U.S. Geological Survey. Archived from the original on 5 June 2013.
- "Indian Ocean tsunami anniversary: Memorial events held". BBC News. 26 December 2014. Retrieved 15 December 2016.
- "Analysis of the Sumatra-Andaman Earthquake Reveals Longest Fault Rupture Ever". National Science Foundation. 19 May 2005. Retrieved 15 December 2016.
- Walton, Marsha (20 May 2005). "Scientists: Sumatra quake longest ever recorded". CNN. Retrieved 15 December 2016.
- West, Michael; Sanches, John J.; McNutt, Stephen R. (20 May 2005). "Periodically Triggered Seismicity at Mount Wrangell, Alaska, After the Sumatra Earthquake". Science. 308 (5725): 1144–1146. Bibcode:2005Sci...308.1144W. doi:10.1126/science.1112462.
- Nalbant, Suleyman S.; Steacy, Sandy; Sieh, Kerry; Natawidjaja, Danny; McCloskey, John (9 June 2005). "Seismology: Earthquake risk on the Sunda trench" (PDF). Nature. 435 (7043): 756–757. Bibcode:2005Natur.435..756N. doi:10.1038/nature435756a. Archived from the original (PDF) on 19 May 2009. Retrieved 16 May 2009.
- Jayasuriya, Sisira; McCawley, Peter (2010). The Asian Tsunami: Aid and Reconstruction after a Disaster. Cheltenham UK and Northampton MA USA: Edward Elgar. ISBN 978-1-84844-692-2.
- Lay, T.; Kanamori, H.; Ammon, C.; Nettles, M.; Ward, S.; Aster, R.; Beck, S.; Bilek, S.; Brudzinski, M.; Butler, R.; DeShon, H.; Ekström, G.; Satake, K.; Sipkin, S. (20 May 2005). "The Great Sumatra-Andaman Earthquake of 26 December 2004". Science. 308 (5725): 1127–1133. Bibcode:2005Sci...308.1127L. doi:10.1126/science.1112250.
- "Tsunamis and Earthquakes: Tsunami Generation from the 2004 Sumatra Earthquake — USGS Western Coastal and Marine Geology". Walrus.wr.usgs.gov. Retrieved 12 August 2010.
- McKee, Maggie (9 February 2005). "Power of tsunami earthquake heavily underestimated". New Scientist. Archived from the original on 27 February 2005.
- EERI Publication 2006–06, page 14.
- Løvholt, F.; Bungum, H.; Harbitz, C. B.; Glimsdal, S.; Lindholm, C. D.; Pedersen, G. (30 November 2006). "Earthquake related tsunami hazard along the western coast of Thailand" (PDF). Natural Hazards and Earth System Sciences. 6 (6): 979–997. doi:10.5194/nhess-6-979-2006. Archived from the original (PDF) on 19 May 2009. Retrieved 16 May 2009.
- Sibuet, J.; Rangin, C.; Le Pichon, X.; Singh, S.; Cattaneo, A.; Graindorge, D.; Klingelhoefer, F.; Lin, J.; Malod, J.; Maury, T; Schneider, J.; Sultan, N.; Umber, M.; Yamaguchi, H.; "Sumatra aftershocks" team (15 November 2007). "26th December 2004 great Sumatra–Andaman earthquake: Co-seismic and post-seismic motions in northern Sumatra" (PDF). Earth and Planetary Science Letters. 263 (1–2): 88–103. Bibcode:2007E&PSL.263...88S. doi:10.1016/j.epsl.2007.09.005. Archived from the original (PDF) on 19 May 2009. Retrieved 16 May 2009.
- ""Kamchatka Earthquake, 4 November 1952". United States Geological Survey. Archived from the original on 12 October 2007.
- Vallée, M. (2007). "Rupture Properties of the Giant Sumatra Earthquake Imaged by Empirical Green's Function Analysis" (PDF). Bulletin of the Seismological Society of America. Seismological Society of America. 97 (1A): S103–S114. Bibcode:2007BuSSA..97S.103V. doi:10.1785/0120050616.
- Bilham, Roger (20 May 2005). "A Flying Start, Then a Slow Slip". Science. 308 (5725): 1126–1127. Bibcode:2005Sci...308.1126B. doi:10.1126/science.1113363.
- USGS (22 July 2010). "Poster of the Northern Sumatra Earthquake of 28 March 2005 – Magnitude 8.7". Archived from the original on 14 May 2011. Retrieved 26 June 2011.
- "Sumatra shaken by new earthquake". BBC News. 10 April 2005. Retrieved 24 December 2012.
- "USGS Earthquake Hazards Program: FAQ". Earthquake.usgs.gov. 10 December 2012. Archived from the original on 20 November 2014. Retrieved 24 December 2012.
- "Magnitude 9.1 Sumatra-Andaman Islands Earthquake FAQ". USGS. 29 December 2014. Archived from the original on 13 December 2014. Retrieved 6 January 2015.
- Rinaldo, Aditya (12 April 2005). "Thousands flee as Indonesian volcano spews into life". Hindustan Times. Archived from the original on 17 February 2006.
- Johnston, Tim (13 April 2005). "Indonesian Volcanoes Erupt; Thousands Evacuated". VOA News. Archived from the original on 21 April 2005. Retrieved 22 April 2006.
- "Volcano on Indonesia's Sumatra Erupts". ABC News. 11 April 2005. Archived from the original on 19 September 2005.
- "USGS Energy and Broadband Solution". National Earthquake Information Center, US Geological Survey. Archived from the original on 4 April 2010. Retrieved 12 August 2010.
- "USGS, Harvard Moment Tensor Solution". National Earthquake Information Center, US Geological Survey. 26 December 2004. Archived from the original on 17 January 2010. Retrieved 12 August 2010.
- "USGS:Measuring the size of earthquakes". Earthquake.usgs.gov. 27 October 2009. Archived from the original on 1 September 2009. Retrieved 12 August 2010.
- Virtanen, Heikki (2006). Studies of earth dynamics with the superconducting gravimeter (PDF) (Dissertation). University of Helsinki. Retrieved 21 September 2009.
- Cook-Anderson, Gretchen; Beasley, Dolores (10 January 2005). "NASA Details Earthquake Effects on the Earth" (Press release). NASA. Retrieved 16 December 2016.
- Schechner, Sam. "Earthquakes vs. the Earth's Rotation." Slate. 27 December 2004.
- "Italian scientists say Asian quakes cause Earth's axis shifted". Xinhua. 29 December 2004. Archived from the original on 5 July 2009.
- Staff Writer (31 January 2005). "Quake moved Sumatra by only 20 centimeters: Danish scientists". Agence France-Presse.
- Bagla, Pallava (28 January 2005). "After the Earth Moved". Science Now. Retrieved 16 December 2016.
- Knight, Will (10 February 2005). "Asian tsunami seabed pictured with sonar". New Scientist. Archived from the original on 27 February 2005.
- "NASA/French Satellite Data Reveal New Details of Tsunami". Jet Propulsion Laboratory/NASA. 11 January 2005. Archived from the original on 5 March 2016. Retrieved 16 December 2016.
- "TOPEX/Poseidon Satellite Data on 26 December 2004 tsunami in the Indian Ocean". Aviso. Archived from the original on 24 June 2011.
- Lorca, Emilio; Recabarren, Margot (1997). Earthquakes and tsunamis: high school textbook (PDF). Retrieved 16 December 2016.
- Leslie, John (10 January 2005). "NOAA Scientists able to Measure Tsunami Height from Space". NOAA Magazine. National Oceanic and Atmospheric Administration. Retrieved 16 December 2016.
- McKee, Maggie (6 January 2005). "Radar satellites capture tsunami wave height". New Scientist. Archived from the original on 24 September 2008.
- Pearce, Fred; Holmes, Bob (15 January 2005). "Tsunami: The impact will last for decades". New Scientist. Archived from the original on 17 April 2008.
- "Tsunami time travel map". Tsunami Laboratory, Novosibirsk, Russia. Archived from the original on 3 April 2012. Retrieved 20 July 2012.
- "Time travel map: Active Fault Research Center: National Institute of Advanced Industrial Science and Technology, Japan". Staff.aist.go.jp. Archived from the original on 17 July 2012. Retrieved 24 December 2012.
- "Indian Ocean Tsunami" at Syowa Station, Antarctica". Hydrographic and Oceanographic Dept. Japan Coast Guard. Retrieved 17 December 2016.
- "Indian Ocean Tsunami of 26 December 2004". West Coast/Alaska Tsunami Warning Center (USGS). 31 December 2004. Archived from the original on 4 February 2012.
- Carey, Bjorn (25 August 2005). "Tsunami Waves Channeled Around the Globe in 2004 Disaster". LiveScience. Retrieved 17 December 2016.
- "The 2004 Boxing Day tsunami". Australian Geographic. Retrieved 5 March 2015.
- Block, Melissa (27 December 2004). "Sri Lankans Seek Lost Relatives After Tsunami". All Things Considered. NPR. Retrieved 20 December 2016.
- Nadia Aly (5 April 2014). "Scuba Diving in a Tsunami". Scuba Diver Life. Retrieved 20 December 2016.
- Campbell, Matthew; Loveard, Keith; et al. "Tsunami disaster: Focus: Nature's timebomb." Times Online. 2 January 2005.
- "Girl, 10, used geography lesson to save lives". The Telegraph. London. 1 January 2005. Retrieved 20 December 2016.
- Subir Bhaumik (30 December 2004). "Andaman aborigines' fate unclear". BBC News. Retrieved 13 February 2010.
- Gupta, Manu; Sharma, Anshu (2006). "Compounded loss: the post tsunami recovery experience of Indian island communities". Disaster Prevention and Management. 15 (1): 67–78. doi:10.1108/09653560610654248.
- Math, Suresh Bada; Girimaji1, Satish Chandra; Benegal, V; Uday Kumar, GS; Hamza, A; Nagaraja, D (2006). "Tsunami: Psychosocial aspects of Andaman and Nicobar islands. Assessments and intervention in the early phase". International Review of Psychiatry. 18 (3): 233–239. doi:10.1080/09540260600656001. PMID 16753660.
- Bhaumik, Subir (20 January 2005). "Tsunami folklore 'saved islanders'". BBC News. Retrieved 20 December 2016.
- Borrero, Jose C. (9 February 2005). "Field Survey northern Sumatra and Banda Aceh, Indonesia and after the Tsunami and Earthquake of 26 December 2004" (PDF). Los Angeles: Department of Civil Engineering, University of Southern California. Retrieved 20 December 2016.
- "YouTube" (Video).
- red17khmer (30 November 2008). "Great Tsunami 12/26/04 @ Aceh, Sumatra, Indonesia 1 of 3" (Video) – via YouTube.
- "Chapter 2 Earthquake, Tsunami and Damage in Banda Aceh and Northern Sumatra" (PDF). tsunami.civil.tohoku.ac.jp. Retrieved 20 December 2016.
- Borrero, Jose C.; Synolakis, Costas E.; Fritz, Hermann (June 2006). "Northern Sumatra Field Survey after the December 2004 Great Sumatra Earthquake and Indian Ocean Tsunami" (PDF). Earthquake Spectra. Earthquake Engineering Research Institute. 22 (S3): 93–104. doi:10.1193/1.2206793.
- Kaget Mera (25 January 2016). "Seconds From Disaster S03E13 Asian Tsunami" (Video) – via YouTube.
- red17khmer (30 November 2008). "Great Tsunami 12-26-04 at Banda Aceh, Sumatra, Indonesia 3 of 3" (Video) – via YouTube.
- geoffmackley (19 November 2009). "Boxing Day Tsunami Banda Aceh 4 of 4" (Video) – via YouTube.
- "Tsunami Wave Run-ups: Indian Ocean – 2004". Science on a Sphere. National Oceanic and Atmospheric Administration. Retrieved 20 December 2016.
- Yalciner, A.C.; Perincek, D.; Ersoy, S.; Presateya, G.; Hidayat, R.; McAdoo, B. (2005). "Report on December 26, 2004, Indian Ocean Tsunami, Field Survey on Jan 21–31 at North of Sumatra" (PDF). ITST of UNESCO IOC. Retrieved 20 December 2016.
- T. Ghosh, P. Jana, T.S. Giritharan, S. Bardhan, S.R. Basir, A.K. Ghosh Roy. (2007). Tsunami survey in Andaman and Nicobar group of Islands. Geological Survey of India Special Publication no.89. 165–184.
- Paul, D.K.; Singh, Yogendra; Dubey, R.N. "Damage to Andaman & Nicobar Islands due to Earthquake and Tsunami of Dec. 26, 2004" (PDF). Department of Earthquake Engineering, IIT Roorkee. Retrieved 20 December 2016.
- "Tsunami in Andaman & Nicobar Islands". Andamanconnections.com. Retrieved 20 December 2016.
- Pomonis, Antonios; Rossetto, Tiziana; Peiris, Navin; Wilkinson, Sean; Del Re, Domenico; Koo, Raymond; Manlapig, Raul; Gallocher, Stewart (February 2006). The Indian Ocean Tsunami of 26 December 2004: Mission Findings in Sri Lanka and Thailand (PDF). London: Earthquake Engineering Field Investigation Team, Institution of Structural Engineers. ISBN 0-901297-41-0.
- "The Great Sumatra Earthquake and Indian Ocean Tsunami of December 26, 2004: The Effects in Mainland India and in the Andaman-Nicobar Islands" (PDF). EERI Special Earthquake Report. April 2005. Retrieved 21 December 2016.
- Ramanamurthy, M. V.; Sundaramoorthy, S.; Pari, Y.; Rao, V. Ranga; Mishra, P.; Bhat, M.; Usha, Tune; Venkatesan, R.; Subramanian, B. R. (10 June 2005). "Inundation of sea water in Andaman and Nicobar Islands and parts of Tamil Nadu coast during 2004 Sumatra tsunami" (PDF). Current Science. 88 (11): 1736–1740.
- "Quick Report on the Study of the 2004 Sumatra Earthquake and Tsunami Effects" (PDF). Department of Civil Engineering, Indian Institute of Technology Kanpur. Retrieved 21 December 2016.
- Goff, James; Liu, Philip L-F.; Higman, Bretwood; Morton, Robert; Jaffe, Bruce E.; Fernando, Harindra; Lynett, Patrick; Fritz, Hermann; Synolakis, Costas; Fernando, Starin (2006). "Sri Lanka Field Survey after the December 2004 Indian Ocean Tsunami". Earthquake Spectra. 22 (S3): 155–172. doi:10.1193/1.2205897.
- Liu, P. L.-F. (1 July 2005). "Observations by the International Tsunami Survey Team in Sri Lanka". Science. 308 (5728): 1595–1595. doi:10.1126/science.1110730.
- "Tsunami – Tsunami Disaster in Sri Lanka".
- "Download Limit Exceeded". citeseerx.ist.psu.edu.
- "Tsunami Affected Areas in India 2004".
- "Zoltán Grossman – Member of the Faculty in Geography & Native Studies, The Evergreen State College, Olympia, Washington". academic.evergreen.edu.
- Jha, M. K. (20 July 2010). "Natural and Anthropogenic Disasters: Vulnerability, Preparedness and Mitigation". Springer Science & Business Media – via Google Books.
- "Tsunami – India".
- "Tsunami death toll passes 283,000 – Asia Tsunami – www.smh.com.au".
- "International Tsunami Information Center – International Tsunami Information Center".
- Fritz, Hermann M.; Borrero, Jose C.; Synolakis, Costas E.; Okal, Emile A. (1 January 2006). "FIELD SURVEYS OF 2004 INDIAN OCEAN TSUNAMI FROM SUMATRA TO EAST AFRICA".
- "Unesco Yemen Tsunami" (PDF). smartech.gatech.edu. Retrieved November 13, 2017.
- "WA feels the tsunami's ripples – www.smh.com.au".
- "Home". Islamic Relief USA. Archived from the original on 17 January 2011. Retrieved 12 August 2010.
- "Indonesia quake toll jumps again". BBC News. 25 January 2005. Retrieved 24 December 2012.
- "Myanmar is withholding true casualties figures, says Thai priest". AsiaNews.it. 4 January 2005. Archived from the original on 9 October 2006. Retrieved 12 February 2011.
A missioner in Ranong, a town on the border between Thailand and Myanmar, says locals talk about 600 victims. Burmese political dissidents say the same.
- "Most tsunami dead female – Oxfam". BBC News. 26 March 2005. Retrieved 24 December 2012.
- Meisl, C.S.; Safaie S.; Elwood K.J.; Gupta R.; Kowsari R. (2006). "Housing Reconstruction in Northern Sumatra after the December 2004 Great Sumatra Earthquake and Tsunami". Earthquake Spectra. 22: S777. doi:10.1193/1.2201668. Retrieved 26 June 2011.
- "One year after the tsunami, Sri Lankan survivors still live in squalour". World Socialist Web Site. 29 December 2005. Retrieved 24 December 2012.
- "TsunamiMemorial.or.th". Web.archive.org. 28 September 2007. Archived from the original on 28 September 2007. Retrieved 24 December 2012.
- Schwartz, D.; Goldberg A.; Ashenasi I.; Nakash G.; Leiba A.; Levei Y.; Bar-Dayan Y. (2006). "Prehospital care of tsunami victims in Thailand: description and analysis". Prehospital Disaster Medicine. 21 (3): 204–210. PMID 16892886.
- Martin Plaut (26 December 2005). "Tsunami: Somalia's slow recovery". BBC News. Retrieved 24 December 2012.
- "India, Indonesia, Maldives, Myanmar, Somalia, Thailand: Earthquake and Tsunami OCHA Situation Report No. 14". Reliefweb.int. Retrieved 12 August 2010.
- "Asia-Pacific | 'Hundreds feared dead' in Burma". BBC News. 4 January 2005. Retrieved 24 December 2012.
- "TsunamiMaldives.mv". Web.archive.org. 17 June 2009. Archived from the original on 17 June 2009. Retrieved 24 December 2012.
- UNICEF (May 2006). "The 2004 Indian Ocean Tsunami Disaster: Evaluation of UNICEF's response (emergency and recovery phase). Maldives Report" (PDF). p. i. Retrieved 26 June 2011.
- firstname.lastname@example.org (13 January 2005). "Death toll in Asian tsunami disaster tops 159,000". People's Daily. Retrieved 12 August 2010.
- "Killer Waves". Channelnewsasia.com. Archived from the original on 2012-10-23. Retrieved 24 December 2012.
- "Asian tsunami death toll passes 144,000". Australia: ABC. 3 January 2005. Archived from the original on 17 June 2009. Retrieved 12 August 2010.
- "The Seychelles raises its voice". Web.archive.org. Retrieved 12 August 2010.
- "Tsunami Evaluation Coalition: Initial Findings" (PDF). Archived from the original (PDF) on 24 March 2006. Retrieved 12 August 2010.
- Okal, E.A.; Hartnady C.J. (2010). "The South Sandwich Islands earthquake of 27 June 1929: seismological study and inference on tsunami risk for the southern Atlantic" (PDF). South African Journal of Geology. 112 (3–4): 359–370. doi:10.2113/gssajg.112.3-4.359. Retrieved 26 June 2011.
- "YEMEN: Tsunami damage over US $1 million – UNEP assessment". Irinnews.org. 22 February 2005. Retrieved 24 December 2012.
- "Tsunami devastates Somali island". BBC News. 29 December 2004. Retrieved 24 December 2012.
- Palmer, Jason (29 October 2008). "Tsunami in 2004 'not the first'". BBC News. Retrieved 12 August 2010.
- "Researchers uncover 2004 tsunami predecessor". ABC Radio Australia News. 30 October 2008. Retrieved 13 April 2011.
- "Scientists Find Evidence of Tsunamis on Indian Ocean Shores Long Before 2004". Newswise.com. 27 October 2008. Retrieved 24 December 2012.
- Most Destructive Known Earthquakes on Record in the World (Earthquakes with 50,000 or More Deaths). United States Geological Survey. Archived 1 September 2009 at the Wayback Machine.
- "The world's worst natural disasters".
- "UN upbeat on tsunami hunger aid". BBC News. 9 January 2005. Retrieved 24 December 2012.
- "United Nations: World Food Programme: Report on the Tsunami Crisis". Reliefweb.int. 4 November 2005. Retrieved 24 December 2012.
- Chapter 3, "The matter of money", in Jayasuriya, Sisira and Peter McCawley, "The Asian Tsunami: Aid and Reconstruction after a Disaster". Cheltenham UK and Northampton MA USA: Edward Elgar, 2010.
- Staff Writer (27 January 2005). "Tsunami aid: Who's giving what". BBC News. Retrieved 22 April 2006.
- Staff Writer. "Clinton, Bush: Tsunami Aid Helping." The Early Show/CBS News. 21 February 2005.
- Staff Writer. "Tsunami aid shortfall over $4bn." BBC News. 18 March 2005.
- Gunatillake, Daya (2007). "The 2004 Tsunami in Sri Lanka: Destruction and recovery". Geography. 92 (3): 285–293. JSTOR 40574342.
- Staff Writer. "Indian Ocean Tsunamis Devastate Fisherfolk." UK Agricultural Biodiversity Coalition. 26 December 2004.
- Staff Writer. "Food Supply and Food Security Situation in Countries Affected by the Asia Tsunami." Food and Agriculture Organization of the United Nations. 14 January 2005.
- "Demand for FRP boats rise after tsunami" (PDF). Archived from the original (PDF) on 1 November 2010. Retrieved 12 August 2010.
- Pearce, Fred. "Tsunami's salt water may leave islands uninhabitable." New Scientist. 5 January 2005. Archived 22 April 2008 at the Wayback Machine.
- Rigg, Johnathan; Lisa Lawt; May Tan-Mullins; Carl Grundy-Warr (December 2005). "The Indian Ocean Tsunami: Socio-Economic Impacts in Thailand". The Geographical Journal. 171 (4): 374–379. doi:10.1111/j.1475-4959.2005.00175_3.x. JSTOR 3451210.
- Staff Writer. "Tsunami redrew ship channels, ocean floor." MSNBC/Associated Press. 5 January 2005.
- Chapter 6, "Thailand", in Jayasuriya, Sisira and Peter McCawley, The Asian Tsunami: Aid and Reconstruction after a Disaster. Cheltenham UK and Northampton MA USA: Edward Elgar, 2010.
- Staff Writer. "Impact of Tsunamis on Ecosystems Archived 20 August 2008 at the Wayback Machine.." UN Atlas of the Oceans. Retrieved 10 March 2005.
- Helping restore the quality of drinking water after the tsunami. International Water Management Institute, 2010. Downloaded 25 February 2011
- Water sanitation and health: WHO technical notes for emergencies. Archived 12 February 2016 at the Wayback Machine. Page. Retrieved 25 February 2011
- Falt, Eric. "Environmental Issues Emerging from Wreckage of Asian Tsunami." United Nations Environment Programme.
- "United Nations Environment Programme; Environment for Development". Archived from the original on 12 April 2006. Retrieved 22 April 2006.
- Broadway, Bill. "Divining a Reason for Devastation." The Washington Post. 8 January 2005.
- Associated Press – Tsunami survivors cling tightly to faith across ravaged region by Brian Murphy, January 2005
- "Memorandum of Understanding between Indonesian government and the Free Aceh Movement" (PDF). BBC News. 15 August 2005. Retrieved 24 December 2012.
- "Most significant events of 2005" (PDF). BBC World Service. 30 December 2005. Retrieved 26 September 2013., and "Iraq war and tsunami top BBC poll". BBC World Service. 30 December 2005. Retrieved 26 September 2013., see also Brighton, Paul; Foy, Dennis (2007). News Values. London: Sage. p. 44. ISBN 978-1412946001.
- "Asia Pacific Journalism Centre — Home Page". Archived from the original on 13 October 2007. Retrieved 24 October 2007.
- Press Trust of India (30 December 2004) "Alert scaled down, capping day long confusion."
- Tran, Tina. (30 December 2004) Associated Press "False tsunami alarm sparks panic in Indian Ocean region. Archived 21 June 2009 at the Wayback Machine."
- Associated Press (31 December 2004) "Suspect quake forecast causes panic."
- The Financial Express (2 January 2005) "Congress chief steps in as home, S&T ministers lock horns."
- Cook-Anderson, Gretchen; Beasley, Dolores (January 10, 2005). "NASA Details Earthquake Effects on the Earth". National Aeronautics and Space Administration (press release).
- Paint the sky with stars. Dawe, Michael., Kuta, Stephen. Rayne: Re-invention UK. 2005. ISBN 0954989902. OCLC 60607113.
- Staff Writer. "Tsunami waves exposed remnants of lost city." New Scientist. 26 February 2005. Archived 8 October 2008 at the Wayback Machine.
- "India finds more 'tsunami gifts'". BBC News. 27 February 2005. Retrieved 24 December 2012.
- M9.1 Sumatra-Andaman Earthquake & Tsunami, 2004 – Amateur Seismic Centre (ASC)
- The Sumatra-Andaman Islands Earthquake – IRIS Consortium
- Tsunami Surges on Dry Coastal Plains: Application of Dam Break Wave Equations, Coastal Engineering Journal, 48 4: 355–370
- The 26 December 2004 Tsunami: a Hydraulic Engineering Phenomenon of International Significance. First Comments, Journal La Houille Blanche, No. 2, pp. 25–32
- The 2004 Indian Ocean Tsunami – Thomson Reuters & IFRC
- 2004 Indian Ocean earthquake and tsunami in the Newseum archive of front page images from 2004-12-27.
- Satellite images of tsunami-affected areas – National University of Singapore
- Asian Tsunami Anniversary – Thailand Tsunami Then and Now Comparison Series – Zoriah Miller
- Recovering a future: Rebuilding lives after the tsunami – British Red Cross
- The 26 December 2004, Sumatra Earthquake and Indian Ocean Tsunami: Field Perspectives on the Impacts to the Peoples, Cultures, Politics, and Economies of One of the World's Most Vibrant Regions, Speaker: Tom Casadevall, 26 September 2006. Sponsored by The Center for Global Studies and Center for Advanced Study, University of Illinois at Urbana-Champaign.
- The International Seismological Centre has a bibliography and/or authoritative data for this event.
- ReliefWeb has a report on this event.