Uplift and subsidence associated with the great Aceh‐Andaman earthquake of 2004

Rupture of the Sunda megathrust on 26 December 2004 produced broad regions of uplift and subsidence. We define the pivot line separating these regions as a first step in defining the lateral extent and the downdip limit of rupture during that great M_w ≈ 9.2 earthquake. In the region of the Andaman and Nicobar islands we rely exclusively on the interpretation of satellite imagery and a tidal model. At the southern limit of the great rupture we rely principally on field measurements of emerged coral microatolls. Uplift extends from the middle of Simeulue Island, Sumatra, at ~2.5°N, to Preparis Island, Myanmar (Burma), at ~14.9°N. Thus the rupture is ~1600 km long. The distance from the pivot line to the trench varies appreciably. The northern and western Andaman Islands rose, whereas the southern and eastern portion of the islands subsided. The Nicobar Islands and the west coast of Aceh province, Sumatra, subsided. Tilt at the southern end of the rupture is steep; the distance from 1.5 m of uplift to the pivot line is just 60 km. Our method of using satellite imagery to recognize changes in elevation relative to sea surface height and of using a tidal model to place quantitative bounds on coseismic uplift or subsidence is a novel approach that can be adapted to other forms of remote sensing and can be applied to other subduction zones in tropical regions.

[1]  G. Plafker,et al.  Alaskan Earthquake of 1964 and Chilean Earthquake of 1960: Implications for Arc Tectonics , 1972 .

[2]  S. Lavender,et al.  Remote Sensing of Coastal Aquatic Environments—Technologies, Techniques and Applications. , 2006 .

[3]  C. L. Nichols THE INTERNATIONAL HYDROGRAPHIC BUREAU , 1952 .

[4]  C. Frohlich,et al.  Analysis of partially emerged corals and reef terraces in the central Vanuatu Arc: Comparison of contemporary coseismic and nonseismic with quaternary vertical movements , 1987 .

[5]  James C. Savage,et al.  Mechanism of the Chilean Earthquakes of May 21 and 22, 1960 , 1970 .

[6]  K. Sieh,et al.  Paleogeodetic records of seismic and aseismic subduction from central Sumatran microatolls, Indonesia , 2004 .

[7]  G. Egbert,et al.  Efficient Inverse Modeling of Barotropic Ocean Tides , 2002 .

[8]  Duncan Carr Agnew,et al.  NLOADF: A program for computing ocean‐tide loading , 1997 .

[9]  Yehuda Bock,et al.  Plate-boundary deformation associated with the great Sumatra–Andaman earthquake , 2006, Nature.

[10]  S. Jade,et al.  Co-seismic and post-seismic displacements in Andaman and Nicobar Islands from GPS measurements , 2005 .

[11]  J. Curray,et al.  Tectonics and history of the Andaman Sea region , 2005 .

[12]  E. Engdahl,et al.  Constraining the boundary between the Sunda and Andaman subduction systems: Evidence from the 2002 Mw 7.3 Northern Sumatra earthquake and aftershock relocations of the 2004 and 2005 great earthquakes , 2005 .

[13]  J. Austin Changing Sea Levels: Effects of Tides, Weather and Climate , 2004 .

[14]  Chen Ji,et al.  Rupture Process of the 2004 Sumatra-Andaman Earthquake , 2005, Science.

[15]  R. Anu,et al.  Near-field observations on the co-seismic deformation associated with the 26 December 2004 Andaman-Sumatra earthquake , 2005 .

[16]  Richard L. Miller,et al.  Remote Sensing of Coastal Aquatic Environments , 2005 .

[17]  V. Gahalaut,et al.  Constraints on 2004 Sumatra Andaman earthquake rupture from GPS measurements in Andaman Nicobar Islands , 2006 .

[18]  Chalermchon Satirapod,et al.  Insight into the 2004 Sumatra–Andaman earthquake from GPS measurements in southeast Asia , 2005, Nature.

[19]  J. Tromp,et al.  The Great Sumatra-Andaman Earthquake , 2005 .

[20]  R. Bilham,et al.  Partial and Complete Rupture of the Indo-Andaman Plate Boundary 1847-2004 , 2005 .

[21]  K. Sieh,et al.  Modern Vertical Deformation above the Sumatran Subduction Zone: Paleogeodetic Insights from Coral Microatolls , 2000 .

[22]  H. Kanamori,et al.  The Great Sumatra-Andaman Earthquake of 26 December 2004 , 2005, Science.