The Chaman Fault is a major, active
geological fault in
Pakistan and
Afghanistan that runs for over 850 km.[1]Tectonically, it is actually a system of related geologic faults that separates the
Eurasian Plate from the
Indo-Australian Plate. It is a terrestrial, primarily
transform,
left-lateral strike-slip fault. The slippage rate along the Chaman fault system as the Indo-Australian Plate moves northward (relative to the Eurasian Plate) has been estimated at 10 mm/yr or more.[1] In addition to its primary transform aspect, the Chaman fault system has a
compressional component as the
Indian Plate is colliding with the Eurasian Plate. This type of plate boundary is sometimes called a transpressional boundary.[2]
From the south, the Chaman fault starts at the
triple junction where the
Arabian Plate, the
Eurasian Plate and the
Indo-Australian Plate meet, which is just off the
Makran Coast of Pakistan. The fault tracks northeast across
Balochistan and then north-northeast into Afghanistan, runs just to the west of
Kabul, and then northeastward across the right-lateral-slip Herat fault, up to where it merges with the Pamir fault system north of the 38° parallel.[3] The Ghazaband and Ornach-Nal faults are often included as part of the Chaman fault system. South of the triple junction, where the fault zone lies undersea and extends southwest to approximately 10°N 57°E, it is known as the
Owen Fracture Zone.
While there is general agreement that the fault is slipping at a rate of at least 10 mm/yr, there is a report of volcanic rocks in Pakistan dated to 2 m.y. BP which have been offset such as to indicate a slip rate of 25–35 mm/yr.[4] Offsets have been described throughout the fault in Pakistan that are young enough that "only the alluvium of the bottom of active dry washes is not displaced".[5]
The parallel mountain ranges of eastern Balochistan, (east to west) the
Kirthar Mountains, the Khude Mountains, the Zarro Mountains, the Pab Mountains and the Mor Mountains, are a result of the compressional plate boundary and are aligned parallel to the Chaman fault movement. The fault itself is west of these ranges.
Significant earthquakes along the fault
1505, 5 July or 6th – An earthquake created a 60 km long surface rupture along a transverse fault in the Chaman system with several meters of vertical offset. This transverse fault is sometimes called the Paghman fault.[6]
1935, 31 May – The 7.7
1935 Balochistan earthquake along the Ghazaband portion of the fault system killed upwards of 35,000 people.[8]
1978, 16 March – A 6.4 earthquake created a 5 km long rupture with up to 4 cm of left-lateral offset, and a smaller amount of vertical slip as the eastern wall of the fault dropped down.[9]
^not viewed, cited by Lawrence , R. D.; Khan, S. Hasan and Nakata, T. (1992) "Chaman fault, Pakistan-Afghanistan" In Bucknam, R. C. and Hancock, P. L. (eds.) (1992) Major active faults of the world—Results of IGCP project 206Annales Tectonicae 6(supplement): pp. 196–223
^Lawrence, R. D.; Khan, S. Hasan and Nakata, T. (1992) "Chaman fault, Pakistan-Afghanistan" In Bucknam, R. C. and Hancock, P. L. (eds.) (1992) Major active faults of the world—Results of IGCP project 206Annales Tectonicae 6(supplement): pp. 196–223, p. 204
^
abQuittmeyer, R. C. and Jacob, K. H.(1979) "Historical and modern seismicity of Pakistan, Afghanistan, northwestern India, and southeastern Iran" Bulletin of the Seismological Society of America 69: pp. 773–823, p.791
^Yeats, R. S.; Lawrence, R. D.; Jamil-Ud-Din, Syed and Khan, S. H. (1979) "Surface effects of the 16 March 1978 earthquake, Pakistan-Afghanistan border" In Farah, Abul and DeJong, Kees A. (eds.) (1979) Geodynamics of Pakistan Geological Survey of Pakistan, Quetta, pp. 359–361