Ibagué Fault
The Ibagué Fault (Spanish: Falla de Ibagué) is a major dextral slightly oblique strike-slip fault in the department of Tolima in central Colombia. The fault has a total length of 123.9 kilometres (77.0 mi) and runs along an average east-northeast to west-southwest strike of 067.9 ± 11 cross-cutting the Central Ranges of the Colombian Andes.
Ibagué Fault | |
---|---|
Falla de Ibagué | |
Etymology | Ibagué |
Country | |
Region | Andean |
State | Tolima |
Cities | Ibagué |
Characteristics | |
Range | Central Ranges, Andes |
Part of | Andean strike-slip faults |
Length | 123.9 km (77.0 mi) |
Strike | 067.9 ± 11 |
Dip | Vertical |
Displacement | 1–5 mm (0.039–0.197 in)/yr |
Tectonics | |
Plate | North Andean |
Status | Active |
Earthquakes | Pre-Columbian era (~1040-1280 AD) Possibly 1825 & 1942 |
Type | Slightly oblique strike-slip fault |
Movement | Reverse dextral |
Rock units | Cajamarca Complex, Gualanday & Honda Groups, Ibagué Batholith & Fan |
Age | Holocene |
Orogeny | Andean |
The fault is part of a regional shear zone and has been active in historical times, possibly associated with the 1825 Ibagué earthquake and an earthquake in 1942.
Description
The Ibagué Fault crosses the central part and eastern slope of the Central Ranges of the Colombian Andes, close to the city of Ibagué. The fault strikes west-southwest to east-northeast, controlling the course of the Cocora River. The fault has a well developed fault trace with prominent linear fault ridges (whale backs) as much as 800 metres (2,600 ft) long and 50 metres (160 ft) high, fault scarplets aligned with ridges, sag ponds, fault-controlled drainage, tilted deposits and upwarping. There is about 600 metres (2,000 ft) of (young) displacement along strike as calculated from a "whale back" offset by the fault.[2] The fault, forming a series of ramps,[3] terminates at the Magdalena River, north of Guataquí.[4]
Tectonic framework
The Ibagué Fault forms part with the Garrapatas and Cucuana Faults a shear zone between the latitudes 4 and 5 degrees north. To the north of this zone, regional structures are oriented along a north-northeast strike, characterised by sinistral displacement, among others the San Jerónimo, Silvia-Pijao, Cauca-Almaguer, Murindó, Bituima-La Salina and Bucaramanga-Santa Marta Faults. The movement along these structures generates a transpressive tectonic regime, related to the collision of the Chocó Block in the west of Colombia, during the Late Miocene. To the south of the structural zone the Ibagué Fault belongs to, north-northeast striking faults are mostly dextral, such as the Buesaco-Aranda, Cali-Patía and Algeciras Faults. Those are produced by the oblique subduction of the Malpelo Plate, formerly considered belonging to the Nazca Plate with the continental margin of the South American Plate.[5]
The Ibagué Fault cross-cuts the central part of the Central Ranges and extends along a strike of approximately 070 to the east to the Middle Magdalena Valley. Along its trace it principally cuts Paleozoic metamorphic rocks of the Cajamarca Complex, the Jurassic age Ibagué Batholith (consisting of granodiorites, tonalites, granites, porphyrics of andesitic and dacitic composition and extrusive rocks as pyroclastic deposits and lava,[6] Paleogene and Neogene sedimentary rocks of the Gualanday and Honda Groups and displacing and deforming the Neogene to Quaternary Ibagué Fan (Spanish: Abanico de Ibagué), which is of volcano-sedimentary origin.[2][7] The fault passes southeast of the Nevado del Ruiz and Cerro Machín volcanoes.[8][9]
Activity
A rate of 1 to 5 millimetres (0.039 to 0.197 in) per year is estimated and 2.5 millimetres (0.098 in) per year published,[10] based on deformed and offset Quaternary features and dated deposits. A calculated moment magnitude of 7.0-7.2 is based on most probable fault rupture length of about 45 kilometres (28 mi), from Ibagué to Piedras.[2] The most recent movement is estimated at about 1040 to 1280 AD on the basis of radiocarbon dated deposits.[11] Two epicentres of historical earthquakes are located close to the fault, an earthquake of May 22, 1942 with magnitude 5.8 and an intensity in Ibagué of VIII and the intensity VI 1825 Ibagué earthquake of January 1, 1825.[12]
References
- Diederix et al., 2006, p.492
- Paris et al., 2000, p.50
- Cuéllar Cárdenas, 2014, p.43
- Plancha 245, 1999
- Montes et al., 2004, p.14
- Cuéllar Cárdenas et al., 2014, p.39
- Montes et al., 2004, p.15
- Montes et al., 2004, p.16
- Montes et al., 2004, p.17
- Diederix et al., 2006, p.502
- Montes et al., 2004, p.167
- Montes et al., 2004, p.18
Bibliography
- Cuéllar Cárdenas, Mario Andrés; Julián Andrés López Isaza; Edgar Joaquín Carrillo Lombana; Diego Gerardo Ibáñez Almeida; Jesús Hernando Sandoval Ramírez, and Jairo Alonso Osorio Naranjo. 2014. Control de la actividad tectónica sobre los procesos de erosión remontante: el caso de la cuenca del río Combeima, Cordillera Central, Colombia. Boletín de Geología, Universidad Industrial de Santander 36. 37–56. Accessed 2017-09-29.
- Diederix, Hans; Franck Audemard; Jairo Alonso Osorio; Nohora Montes; Francisco Velandia, and Jaime Romero. 2006. Modelado morfotectónico de la falla transcurrente de Ibagué, Colombia. Revista de la Asociación Geológica Argentina 61. 492–503. Accessed 2017-09-29.
- Paris, Gabriel; Michael N. Machette; Richard L. Dart, and Kathleen M. Haller. 2000a. Map and Database of Quaternary Faults and Folds in Colombia and its Offshore Regions, 1–66. USGS. Accessed 2017-09-18.
- Montes, Nohora; Jairo A. Osorio; Francisco Velandia; Jorge Acosta Garay; Alberto Núñez Tello; Franck Audemard, and Hans Diederix. 2004. Paleosismología de la Falla Ibagué, 1–239. INGEOMINAS. Accessed 2017-09-29.
Maps
- Paris, Gabriel; Michael N. Machette; Richard L. Dart, and Kathleen M. Haller. 2000b. Map of Quaternary Faults and Folds of Colombia and Its Offshore Regions, 1. USGS. Accessed 2017-09-18.
- Acosta, Jorge E.; Rafael Guatame; Oscar Torres, and Frank Solano. 1999. Plancha 245 - Girardot - 1:100,000, 1. INGEOMINAS. Accessed 2017-06-06.
Further reading
- Page, W.D. 1986. Seismic geology and seismicity of Northwestern Colombia, 1–200. San Francisco, California, Woodward-Clyde Consultants Report for ISA and Integral Ltda., Medellín.