Open Access Open Access  Restricted Access Subscription Access

Active Fault Study along Foothill Zone of Kumaun Sub-Himalaya: Influence on Landscape Shaping and Drainage Evolution


Affiliations
1 Department of Civil Engineering, Indian Institute of Technology Kanpur, Kanpur 208 016, India
2 Department of Geography, Faculty of Letters, Hiroshima University, Higashi-Hiroshima 739-8522, Japan
 

The Kumaun Sub-Himalaya region is one of the most active regions falling into Seismic Zone V along the Himalaya. The geomorphology and drainage patterns in the area of active faulting and related growing fold provide significant information on the ongoing tectonic activity. The Kaladungi Fault (KF), an imbricated thrust fault of the Himalayan Frontal Thrust system provides an excellent example of forward and lateral propagation of fault and related folding in both directions along the strike of the fault. The KF has displaced the distal part of the Kaladungi fan surface resulting into formation of south-facing active fault scarp with variable heights along the front. In the east, the uplifted fan surface is ∼60 m, is comparatively higher in the central part with height of ∼200 m and ∼80 m high in the west. The variation in heights along the fault is attributed to lateral propagation of fault and associated fold in both directions (i.e. east and west) from the centre. These clearly testify displacement starting at nucleation in the centre and propagating laterally in an elliptical manner. The northwest and southeast propagation of KF has resulted into diversion of the Dabka and Baur rivers respectively. A marked diversion of the modern Dabka river along its present course from east to west can be traced between Shivlalpur and Karampur towns, covering a distance of about 10-12 km. Similarly, the Baur river is shifted from west to east by about 5-6 km between Kamola and Kaladungi towns. The diversion of Dabka and Baur rivers can well be justified by the existence of palaeo-wind-gaps through which these rivers flowed earlier during the recent past. The wind-gaps are characterized by about 0.5-1.0 km wide incised valley extending in NE-SW direction between Kaladungi and Karampur along the frontal zone.

Keywords

Active Fault, Fold and Thrust Belt, Lateral Propagation, River Diversion.
User
Notifications
Font Size

Abstract Views: 484

PDF Views: 126




  • Active Fault Study along Foothill Zone of Kumaun Sub-Himalaya: Influence on Landscape Shaping and Drainage Evolution

Abstract Views: 484  |  PDF Views: 126

Authors

Javed N. Malik
Department of Civil Engineering, Indian Institute of Technology Kanpur, Kanpur 208 016, India
Afroz A. Shah
Department of Civil Engineering, Indian Institute of Technology Kanpur, Kanpur 208 016, India
Sambit P. Naik
Department of Civil Engineering, Indian Institute of Technology Kanpur, Kanpur 208 016, India
Santiswarup Sahoo
Department of Civil Engineering, Indian Institute of Technology Kanpur, Kanpur 208 016, India
Koji Okumura
Department of Geography, Faculty of Letters, Hiroshima University, Higashi-Hiroshima 739-8522, Japan
Nihar R. Patra
Department of Civil Engineering, Indian Institute of Technology Kanpur, Kanpur 208 016, India

Abstract


The Kumaun Sub-Himalaya region is one of the most active regions falling into Seismic Zone V along the Himalaya. The geomorphology and drainage patterns in the area of active faulting and related growing fold provide significant information on the ongoing tectonic activity. The Kaladungi Fault (KF), an imbricated thrust fault of the Himalayan Frontal Thrust system provides an excellent example of forward and lateral propagation of fault and related folding in both directions along the strike of the fault. The KF has displaced the distal part of the Kaladungi fan surface resulting into formation of south-facing active fault scarp with variable heights along the front. In the east, the uplifted fan surface is ∼60 m, is comparatively higher in the central part with height of ∼200 m and ∼80 m high in the west. The variation in heights along the fault is attributed to lateral propagation of fault and associated fold in both directions (i.e. east and west) from the centre. These clearly testify displacement starting at nucleation in the centre and propagating laterally in an elliptical manner. The northwest and southeast propagation of KF has resulted into diversion of the Dabka and Baur rivers respectively. A marked diversion of the modern Dabka river along its present course from east to west can be traced between Shivlalpur and Karampur towns, covering a distance of about 10-12 km. Similarly, the Baur river is shifted from west to east by about 5-6 km between Kamola and Kaladungi towns. The diversion of Dabka and Baur rivers can well be justified by the existence of palaeo-wind-gaps through which these rivers flowed earlier during the recent past. The wind-gaps are characterized by about 0.5-1.0 km wide incised valley extending in NE-SW direction between Kaladungi and Karampur along the frontal zone.

Keywords


Active Fault, Fold and Thrust Belt, Lateral Propagation, River Diversion.



DOI: https://doi.org/10.18520/cs%2Fv106%2Fi2%2F229-236