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Mahajan, A. K.
- Study of Intensities of 26th April 1986 Dbaramshala Earthquake (Himachal Pradesh) and Associated Tectonics
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Authors
Affiliations
1 Wadia Institute of Himalayan Geology, Dehra Dun 248001, IN
1 Wadia Institute of Himalayan Geology, Dehra Dun 248001, IN
Source
Journal of Geological Society of India (Online archive from Vol 1 to Vol 78), Vol 35, No 2 (1990), Pagination: 213-219Abstract
A moderate earthquake of magnitude 5.5 on Richter scale rocked the Dharamshala area in Himachal Pradesh on 26th April 1986 at 07.35 : 17 GMT. The earthquake was felt in Kangra valley, Kullu, Mandi and Chamba areas. Dharamshala town, Macleodganj and Naddi etc., were subjected to maximum damage where the mud houses, older buildings and some of the Govt. buildings suffered maximum loss. Cracks along mortar joints, fall of plaster and relative movement of walls were observed in a number of residential buildings. On the basis of study, four isoseisrnals of VII, VI, V, IV intensities on the MMscale have been drawn. The shape of these isoseismals is elliptical and based on this, the NW/SE trending epicentral tract of this earthquake has been estimated to bel oeated just at Dharamshala Town. With the land levelHng survey and field observation of cracks and fracture, the direction of movement and direction of fracture is also shown. Local depth distribution of earthquake in the Dharamshala area suggests that fractures causing this earthquake have. direct relationship with the local thrust faults.Keywords
Geophysics (Seismology), Earthquake, Dharamshala, Himachal Pradesh.- Local Gravity Anomaly and Geotectonics in the Dharamsala Palampur Area, Northwest Himalaya
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Authors
Affiliations
1 Scientist Incharge, Kangra Seismic Array, c/o K.C. Mahajan, Shyamnagar Dharamsala, Dist. Kangra - 176215. (H.P.), IN
2 Wadia Institute of Himalayan Geology, Dehra Dun-248 00, IN
1 Scientist Incharge, Kangra Seismic Array, c/o K.C. Mahajan, Shyamnagar Dharamsala, Dist. Kangra - 176215. (H.P.), IN
2 Wadia Institute of Himalayan Geology, Dehra Dun-248 00, IN
Source
Journal of Geological Society of India (Online archive from Vol 1 to Vol 78), Vol 50, No 1 (1997), Pagination: 75-84Abstract
Gravity survey in the station spacing of about 2 km was carried out in Dhararnsala-Palampur area (36 x 20 km) of the northwest Himalaya to study the seismotectonics of the region. The regional trend of Bouguer anomaly shows general decrease from -230 mGal to -250 mGal from south to north. The present gravity survey in DhararnsaIa-Palampur area has brought out some gravity highs trending transverse to the Himalayan trend. The presence of gravity high zone in the central portion of the study area near Yol may indicate either an anticlinal structure or emplacement of denser material from below, probably along the southeast dipping transverse feature noticed in the area. Another gravity high is noticed southwest of Palampur, also named as Paror anticline. The Bouguer anomaly map has helped to detect some transverse faults trending northeast-southwest and north-south i.e. oblique to the major thrust in the Dharamsala-Palampur region.Keywords
Geophysics, Tectonics, Gravity Anomaly, Himalaya.- The 24th March, 1995 Chamba Earthquake (NW Himalaya), Field Observations and Seismotectonics
Abstract Views :203 |
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Authors
Affiliations
1 CRSSN, Wadia Institute of Himalayan Geology, Naddi, Dharamsala, IN
1 CRSSN, Wadia Institute of Himalayan Geology, Naddi, Dharamsala, IN
Source
Journal of Geological Society of India (Online archive from Vol 1 to Vol 78), Vol 51, No 2 (1998), Pagination: 227-232Abstract
On 24th March, 1995 at 17:22 hr. IST (11:52 UTC) an earthquake of magnitude 4.9 mb (USGS) struck the Chamba region in northwest Himalaya. The epicentral zone lies 8-10 km northeast of Chamba township. Based on the isoseist characteristics, the source mechanism of this earthquake has been evaluated. The longest axis of the isoseismal is aligned in NW-SE direction, which is parallel to the trend of strike of rocks in the area. The pattern of isoseismals suggest that the causative fault for the 1995 Chamba earthquake is parallel to the local Himalayan trends and the strain has been released at a very shallow depth.Keywords
Seismology, Earthquake, Chamba, Himalaya.- Site Response Evolution and Sediment Mapping Using Horizontal to Vertical Spectral Ratios (HVSR) of Ground Ambient Noise in Jammu City, NW India
Abstract Views :351 |
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Authors
Affiliations
1 Wadia Institute of Himalayan Geology, 33, General Mahadeo Singh Road, Dehradun, IN
1 Wadia Institute of Himalayan Geology, 33, General Mahadeo Singh Road, Dehradun, IN
Source
Journal of Geological Society of India (Online archive from Vol 1 to Vol 78), Vol 75, No 6 (2010), Pagination: 799-806Abstract
The technique of ground ambient noise (micro tremor) measurement and analysis has been successful for site characterization in many places around the world. This technique has the advantage of being a fast and easy way to estimate the effect of ground motion characteristics due to an earthquake. Single station ground ambient noise (micro tremor) measurements were carried out at 136 sites in the municipal limit of Jammu city, NW Himalaya. This extensive survey allows the estimation of fundamental resonance frequencies (0.432 to 7 Hz) of the region and identifies the areas prone to site amplification. The thickness of the soft sediments has been derived using empirical relationship that comes out to be 14 to 295 mts above the bedrock. The results are in good agreement with the 1-D profile derived using MASW measurements from representative sites. The resonance frequency and sediment thickness is in good agreement with the geological distribution of sedimentary units, indicating a progressive decrease of the fundamental resonance frequencies from the northeastern part (where the bedrock outcrops is exposed) to the southwestern and southern side where a thick sedimentary cover is estimated.Keywords
Himalaya, Resonance Frequency, HVSR, Soil Thickness, Seismic Microzonation, Jammu City.- Interpretation of Intensity Attenuation Relation of 1905 Kangra Earthquake with Epicentral Distance and Magnitude in the Northwest Himalayan Region
Abstract Views :190 |
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Authors
G. K. Ghosh
1,
A. K. Mahajan
2
Affiliations
1 Oil India Limited, Duliajan, Assam - 786 602, IN
2 Wadia Institute of Himalayan Geology, 33, GMS Road, Dehradun - 248 001, IN
1 Oil India Limited, Duliajan, Assam - 786 602, IN
2 Wadia Institute of Himalayan Geology, 33, GMS Road, Dehradun - 248 001, IN
Source
Journal of Geological Society of India (Online archive from Vol 1 to Vol 78), Vol 77, No 6 (2011), Pagination: 511-520Abstract
Seismic intensity information of historical earthquake of NW Himalayas has been utilized for evaluating the attenuation of the intensity with the epicentral distance. Purposefully, the observed intensity of big historical earthquake may implicitly incorporate some site effects arising due to the near surface geology or deposited soil. The isoseismal map of the 1905 Kangra earthquake yields an area of perceptibility defined by the intensity VII (RF Scale), which is mainly elongated in the NNW-SSE direction. However, the higher isoseismals of intensity VIII and IX are more symmetrical and elongated in the SE direction. These isoseismals are more compressed in the northeast and northwest direction indicating fast attenuation characteristics, which may be either due to the presence of any transverse geotectonic feature or change in lithology. In the present study the regression relation has been derived to incorporate the attenuation of intensity with variable magnitudes at different epicentral distances. The derived attenuation relation is useful for assessing damage of a potential future earthquake (earthquake scenario-based planning purposes) for the Kangra region, Northwest Himalaya. The derived relation is mentioned below:I(R, Ms) = 2.856 + 1.31* Ms - 0.0017 R* - 0.9598 *ln(R)
The decrease in intensity with distance has been used to calculate the PGA using the relation of Atkinson and Sonley (2000). The calculated values are quite in agreement with the values obtained by others around its epicentral zone. Another derived relation is used to calculate the size of the Kangra earthquake (Mw = 8.4) using intensity attenuation characteristic.