1909 Kerinci earthquake explained

Timestamp:1909-06-03 18:40:43
Local-Time:01:40 WIB
Anss-Url:iscgem16958038
Isc-Event:16958038
Magnitude:7.6
Fault:Great Sumatran Fault
Type:Strike-slip
Affected:Dutch East Indies
Casualties:195–200 fatalities
Location:-2°N 101°W

The 1909 Kerinci earthquake struck Sumatra, Dutch East Indies (present-day Indonesia) on June 4 at 01:40 WIB. The shock measured 7.6 and occurred along the Great Sumatran Fault. Damage was extensive and great around the Kerinci area; many homes collapsed and roads were damaged. The death toll stood at between 195 and 230.

Tectonic setting

The Sunda megathrust off the west coast of Sumatra is a [1] long convergent boundary where the Australian Plate subducts beneath the Burma Plate and Sunda Plate at a rate of per year.[2] Convergence along the plate boundary is highly oblique, severely deforming the overriding Sunda Plate, where it is accommodated by strike-slip motion along the Great Sumatran fault. The Great Sumatran fault is a -long strike-slip fault system located on Sumatra. The fault is divided into about 20 segments.[3] Earthquakes associated with segments of the fault occurred 1933, 1943, 1994, 1995 and 2022.[4]

Earthquake

The earthquake had an epicenter near the Suliti and Siulak segments. It was associated with rupture along the Siulak segment of the Great Sumatran Fault. The Siulak segment also ruptured during the 6.7 earthquake of 1995.

Damage

Damage to roads, houses, rice barns and other buildings was extensive along the Siulak segment. The official government reported 195 people died, 4,384 buildings destroyed and 7,261 buildings badly damaged.[5] At Dusun Lolo, few homes remained intact; irrigation channels at Lempur flooded. A road between Sebukar and Semerah was offset by . Another road between Jujun and Lolo was offset by . Land subsidence occurred at Sungai Full, Semurup, Siulak Deras and Lubuk Nagodang. The rice fields from Sebukar to Seleman subsided and were submerged under water. Hamlets at Semurup subsided and residents had to evacuate. Subsidence at Lake Kerinci caused water to flood homes.[6] Building collapses triggered fires.

Widespread landslides affected a river and changed its course. Some tributaries of the Siulak River dried. Landslides at Lake Kerinci buried many areas of rice fields. At Lolo Kecil, a small lake appeared. The hot springs at Semurup widened by while new hot springs emerged.

Stone buildings cracked and tilted; pillars fractured but did not fall at Padang. In Solok, homes cracked and frightened residents ran outside. At Jambi and Bajunglentjin, shutters rattled, lamps swayed and furniture shook. On Pandang Island, the lighthouse buzzed and oil splashed from a reservoir. Shaking was felt at Pajakumbuh, Pakanbaru, Djebus, Tandjungpinang and Palembang. In Singapore, residents were awaken by vibrations and creaking noises. A rumble was heard and some frightened residents fled to the streets.[7]

Aftermath

Residents constructed tents on the edges of their rice fields. There was insufficient tents to accommodate the homeless and the soil where these tents were constructed above were damp and harbored diseases. In response the Dutch East Indies government built huts which were leveled above the ground. They also used funds from the home affairs department to repair damaged buildings.

See also

Notes and References

  1. Sieh . Kerry . The Sunda megathrust - Past, present and future . Journal of Earthquake and Tsunami . 2007 . 1 . 1–19 . California Institute of Technology . 10.1142/S179343110700002X . 1793-4311 . 25 February 2022 . 22 December 2018 . https://web.archive.org/web/20181222165223/http://tecto.caltech.edu/sumatra/downloads/papers/Snu.pdf . live .
  2. Belle Philibosian Kerry Sieh Jean-Philippe Avouac Danny H. Natawidjaja Hong-Wei Chiang Chung-Che Wu Hugo Perfettini Chuan-Chou Shen Mudrik R. Daryono Bambang W. Suwargadi. 2014. Rupture and variable coupling behavior of the Mentawai segment of the Sunda megathrust during the supercycle culmination of 1797 to 1833. Journal of Geophysical Research: Solid Earth. 119. 9. 7258–7287. 10.1002/2014JB011200. 2014JGRB..119.7258P. free. 10356/79397. free.
  3. Web site: Natawidjaja . D.H. . Tohari . A. . Subowo . E. . Daryono . M.R. . 2007 . Western Sumatra Earthquakes of March 6, 2007 . 25 February 2022 . Earthquake Engineering Research Institute . 4 March 2016 . https://web.archive.org/web/20160304000348/https://www.eeri.org/lfe/pdf/Indonesia_WesternSumatra_SR_May07.pdf . dead .
  4. Hurukawa . Nobuo . Wulandari . Biana Rahayu . Kasahara . Minoru . Earthquake History of the Sumatran Fault, Indonesia, since 1892, Derived from Relocation of Large Earthquakes . . 2014 . 104 . 4 . 1750–1762 . 10.1785/0120130201 . 2014BuSSA.104.1750H . 10.1.1.855.946 .
  5. Hudaya . Padhil . Gempa Bumi di Kerinci Tahun 1909. Earthquake in Kerinci in 1909 . 4 June 2023 . Gadjah Mada University . Masters . 2022.
  6. Web site: Hudaya . Padhil . Gempa Kerinci Tahun 1909. The 1909 Kerinci Earthquake . Literasi Arsip Kebencanaan Indonesia . National Agency for Disaster Countermeasure . 4 June 2023 . id . 20 September 2021.
  7. National Geophysical Data Center / World Data Service (NGDC/WDS): NCEI/WDS Global Significant Earthquake Database. NOAA National Centers for Environmental Information.