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1.
The Precambrian metamorphites of Northeastern Rajasthan belonging to Pre-Aravalli, Aravalli and Delhi Supergroups exhibit a mature topography where the physiography has faithfully depicted the major structures of area. Few important megalineaments demarcated on the imagery either represent major fault zones or the zones of intense granitic activity. Some of these are oblique to the regional strike of rocks and support drainage running in diagonally opposite direction within the same lineament, indicating thereby upheavels subsequent to the lineament formation. The lineaments fall broadly in two sets which are correlatable to the two major phases of Delhi orogeny. The lineaments of the first set trend NE-SW and are more prominent: than the NW-SE and WNW-ESE running lineaments. The major lineaments such as Sabi-Sota, Mendha and Kakor-Lalsot lineament together with other regional lineaments depict appreciable geomorphological expressions and significant geological evidences. 相似文献
2.
P K Champatiray A K Roy B Prabhakaran 《Journal of the Indian Society of Remote Sensing》1995,23(2):77-86
The C-band imaging radar of ERS-1, due to its high sensitivity to terrain surface features, holds tremendous potential in topographic terrain mapping for various applications. This is being examined for geological applications, mainly structural and lithological mapping in a mineral belt of Bihar and Orissa, India. The high image contrast that facilitates structural interpretation and highlights topography on the SAR images, reflects the high sensitivity of the ERS-1-SAR to change in terrain slope in the study area. Extensive lineaments, fold structure and major lithological contacts are easily mappable from the SAR imagery. Many of the lineaments, lithological contacts and fold pattern are mapped equally from optical data (Landsat-TM and IRS-1B FCC). The close association of fold pattern and mineral deposits in the region has necessitated the study of those structures carefully from various remote sensing data products. Synergism between SAR and TM provided useful results regarding structure and lithology of the region. The advantage of SAR in highlighting topography and detecting lineaments are affected to a great extent by the speckle noise and low pixel resolution. The present study shows that future geologic interpretation demands high spatial resolution and efficient data processing technique which reduces the speckle noise more significantly. 相似文献
3.
S. M. Ramasamy P. C. Bakliwal K. L. V. Ramana Rao 《Journal of the Indian Society of Remote Sensing》1988,16(1):63-71
Synoptivity and the exemplified fracture systems exhibited by the space borne imagery data has helped in solving many of the geological enigma in various parts of the world. The study conducted, using such remotly sensed data, in Jhalawar anticline, part of Proterozoic Cratonic Vindhyan Basin, Rajasthan, India, led to infer the history of tectonic evolution of peribasinal deformation which has been a matter of controversy for a century and more. In Landsat MSS data the Jhalawar region displays a panorama of lineaments and their analysis through azimuthal frequency diagrams, isofracture, lineament incidence and lineament intersection incidence density maps shows that the mean orientation of the lineaments fall in NW-SE and NE-SW and the shape of the various lineament density contours also show NE-SW and NW-SE orientations. In aerial photographs the area exhibits four sets of lineaments in NE-SW, NW-SE, N-S and E-W directions. Amongst these the former two sets are expressed as wide open master fracture systems with prolific vegetation fills along them and the latter two sets are characteristically observed as thin vegetation linears with frequent strike slip faulting along them. The further analysis of these fracture/lineament systems derived from multi-level remote sensing data shows that the Jhalawar anticline, which followed the pattern of flexural slip fold mechanism, was evolved by horizontally disposed σ1 (greatest principal stress) and 3σ (least principal stress) with the former oriented in NE-SW and the latter aligned in NW-SE directions with vertically disposed 2σ. The inference of such palaeostress environment of the Jhalawar region lead in the identification of a buried rigid basement high southwest of Jhalawar anticline, beneath the Deccan pile and loci of ground water, silica sand and probable igneous plug. 相似文献
4.
The Bundi-Indergarh sector in southeast Rajasthan is characterized by folded and faulted Vindhyan rocks that are exposed as
NE-SW trending long parallel ridges. The sector is separated from older rocks by the Great Boundary Thrust and is traversed
by younger cross faults at several localities. The thematic maps of geomorphology, slope, vegetation index and morphotectonic
parameters of Bundi-Indergarh sector have been prepared using IRS ID L1SS III and WiFS and, Landsat ETM digital data. These
theme are integrated in GIS environment to assess the neotectonic potential in the area. The neotectonic potential map of
the sector has been generated that indicates relative potential values as high (55–85), medium (35–55) and low (5–35) on 100-point
scale. The observed four high potential zones in the area are located at the intersection of NE-SW and NW-SE lineaments. The
study brings out methodology for assessing active tectonic potential of the area. 相似文献
5.
Geology in parts of Sainj Valley,Kulu district,Himachal Pradesh 总被引:1,自引:0,他引:1
R. C. Lakhera Asis Bhattacharya A. K. Roy 《Journal of the Indian Society of Remote Sensing》1980,8(1):53-64
The paper highlights the findings of photogeological studies, with selective field checks, carried out in Sainj Valley. For the first time, a photogeological map of the area has been prepared using large scale aerial photographs Structurally the area forms‘Window in a Window’ structure as the oldest rocks of Kulu formation are thrusted over the younger rocks of Larji Group (Larji and Banjar formations) and further Banjars are thrusted over Larjis. Thus, Larjis being stratigraphically youngest, occupy the lowest tectonic position. The Kulu formation mainly consists of Central Crystalline, schists and gneisses. Banjar is composed of quartzite, metabasics, slate and phyllite. Larji predominantly consists of dolomite and quartzite with slate and phyllite. The photogeological studies have helped to bring out the lineament pattern, landslide zones, major structural trends and main geological formations. The lineaments mainly trend in NNE-SSW, NW-SE, NE-SW and NNW-SSE directions. A key for photo-characters of different litho units and terrain elements of the area is established. 相似文献
6.
G P Singh 《Journal of the Indian Society of Remote Sensing》1999,27(1):1-8
An attempt is made to mark regional geology of part of Lalitpur district. The area is characterized by flat topography gently sloping east ward with isolated hillocks. The well contrasted lithology has been marked on the basis of variation in tone, drainage pattern and texture. The main lithounits are foliated granites/gneiss, banded iron formation, granites, ultra basic, quartz reef and basic dykes. The structural elements of lineaments are visible on aerial photos and imagery which range in length from 1 to 10 km. The lineaments at places intersect with each other. The major trends are NNW- SSE. NE- SW. NNH- SSW. These NNW- SSE and NE-SW lineaments are retlected by well aligned body of quartz- sericite schist and quartz reef respectively. 相似文献
7.
Optical and microwave remote sensing data are used in conjunction with a digital elevation model to map lineaments in the central parts of the Aravalli region, Rajasthan, western India. Lineament maps interpreted from each data-set are subsequently combined to derive a composite lineament map of the area. Rose plots are used to identify the prominent trends of the lineaments and compared with published structural map of the study area. Three major trends are identified, namely, the NE–SW, NNE–SSW and EW, which are interpreted to be, related to the DF1, DF2 and DF4 deformation phases identified by the previous workers through field studies. The lineaments are classified as fold axes or faults, and a total of 10-fold axes and 30 faults mapped in the area. 相似文献
8.
Geofractures play a crucial role in environmental degradation and environmental pollution. Such geofractures were interpreted using LANDSAT and IRS 1A imagery and integrated with seismic, erosion and groundwater-chemistry data. The study shows that mostly the N-S and NE-SW trending fractures are prone to seismicity and pollutant migration while NE-SW and WNW-ESE trending faults are prone to soil erosion. The study further shows that mostly the Quaternary fractures/lineaments and the Quaternary reactivated Precambrian fractures are having a dominant control over such phenomena. On the basis of such studies, suggestions are made to take adequate care while dealing with such regions for resource exploitation and developmental purposes. 相似文献
9.
O N Tiwari 《Journal of the Indian Society of Remote Sensing》1993,21(1):13-19
In hard-rock terrain under semi-arid climatic zone of western Rajasthan, prospective groundwater zones are poorly defined. The area of Sirohi district studied is regarded as a critical zone for tubewell siting. The present study involves delineation of lineaments on spaceborne and airborne data and their identification in field. Lineaments are identified with surface and subsurface geological features for selection of drilling sites. The study has resulted in 100 percent high-yielding exploratory wells in the area. Identical results obtained in their respective observation wells reaffirm utility of the approach adopted. 相似文献
10.
SS Rana 《Journal of the Indian Society of Remote Sensing》1998,26(1-2):35-44
The significance of neotectonic lineaments for groundwater prospecting was studied for the area around Bhinmal — a semi-arid part of Thar desert. The application of Directional Filtering procedures on IRS LISS I Band 4 digital image of the study area revealed NE-SW, NW-SE and E-W trending lineaments which are very subtle and in two cases, even unnoticed otherwise. The use of exploratory borehole lithologs and field evidences indicated that the identified lineaments are long rectilinear buried and partly exposed channels and the intersection zones are characterised by thick lenses of coarse sand and gravel. These buried channels and zones of coarse sediments thus represent potential sites for the accumulation of freshwater during rain. The present work has highlighted the suitability of Directional Filtering procedures for lineament mapping and buried channel studies in a desertic terrain. 相似文献
11.
Hema Raghavan V. G. Phansalkar V. V. Peshwa A. G. Dessai 《Journal of the Indian Society of Remote Sensing》1983,11(1):63-70
Photogeological studies of the area shows the presence of four major lithological groups as : 1. Precambrian basement made up of granitic gneisses and Charnockites, 2. The Utatur Group of rocks, 3. The Trichinopoly Group of rocks and 4. The Ariyalur Group of rocks. Some prominant lineaments roughly trending in NE-SW direction are seen. These lineaments represent the traces of the reactivated faults in the basemeht. The photogeological studies were supplemented by morphometric analyses. It is seen that the drainage in lower order basins is controlled by structure, i.e. by the strike of the rocks and faults in the basement. The higher order streams apparently follow the direction of regional gradient. 相似文献
12.
Various image processing techniques were experimented with in this study to evaluate their efficiency for geological mapping in the Eljufra area of northwest Libya. Remote sensing data including multi-spectral optical Landsat Enhanced Thematic Mapper (ETM+), Synthetic Aperture Radar (ERS-2 SAR) and Digital Elevation Models (DEMs) extracted from the Shuttle Radar Topography Mission (SRTM) data were used to trace different lithological units as well as extracting geological lineaments in the study area. The study area is located in an arid environment mostly devoid of any vegetation. Most lithological and structural units are distinguishable based on their topographic form and spectral properties. Fusion of ETM+ and ERS-2 images was experimented with to further identify lithological units. Shaded relief techniques were implemented to enhance terrain perspective views and to extract geological lineaments. The results discriminated different rock units and modified formation boundaries and revealed new geological lineaments. Nine rock units were identified and plotted in the new geological map defined by the new boundaries. The dominant lineaments tend to run in the NNW-SSE and NNE-SSW directions. Analysis and interpretation of the lineaments provided information about the tectonic evolution of the study area. 相似文献
13.
C. M. Bhatt P. K. Litoria P. K. Sharma 《Journal of the Indian Society of Remote Sensing》2008,36(4):361-373
Bist Doab interfluvial tract in the north-western part of Punjab, India, has been investigated for geomorphic signatures of
active tectonics using remotely sensed data and geographical information system (GIS). The anomalous river flow, abrupt changes
in flow direction, angular drainage, compressed meanders, asymmetry of river bends, high channel sinuosity, abandoned channels,
water-logged and marshy areas observed along the courses of Beas and Sutlej rivers and their tributaries indicate tectonically
active nature of the terrain. The strong control exercised by the NE-SW and NW-SE trending lineaments on the drainage network
is well evident in the form of long straightened slope deviatory courses, definite changes in channel pattern and sharp knee
bend turns taken by the seasonal rivulets. The asymmetric and elongated nature of watersheds and straight to curvilinear mountain
fronts quantified through morphotectonic analysis are characteristic of tectonically active settings and further corroborate
the evidence of active tectonics. 相似文献
14.
B. G. Wagle 《Journal of the Indian Society of Remote Sensing》1982,10(1):45-49
The paper decribes the lineaments in the coastal area of Goa identified on aerial photographs and their correlation with the lineaments reported from the adjoining areas. The majority of lineaments along the coastal part of Goa follows a NW-SE, NE-SW and a few ENE-WSW trends. The NW-SE direction is predominant and corresponds with the regional Dharwarian trend followed by NE-SW trending linears due to cross folding of Dharwar Orogeny. 相似文献
15.
V K Jha 《Journal of the Indian Society of Remote Sensing》1992,20(4):199-205
Aerial remote sensing coupled with selective field check was carried out to assess the feasibility of the Srinagar dam site, related construction works, location of Srinagar Thrust and to evaluate terrain factors that may have adverse influence on the life of the structure. The lithology of the area comprises mainly of quartzites, phyllites, basic rocks and limestones which trend WNW-ESE. The Srinagar Thrust following the regional trend passes through the centre of the area. The investigation has established the location and extension of Srinagar Thrust and other faults, and presently dormant state of Srinagar Thrust. It also links the major Kaliasaur landslide with a fault. There is a possibility that the slide would contribute a substantial amount of silt into the reservoir. 相似文献
16.
Grand Erg Oriental of the Algerian Sahara is one of the most difficult terrain having high altitude dunes ranging in height from 100 m to 300 m above ground level and 250 m to 530m above M.S.L. Interpretation of space Imagery for morphotectonic features like structures and lineaments over such a rough terrain had been an enigma. For the first time in 1978 an attempt was made in connection with exploration for hydrocarbons. A new approach on the hypothesis that the configuration of dunes is directly related to the subsurface topography which in turn being the product of geology and tectonics has been developed and the results obtained had been encouraging. The study resulted in delineating of more than 200 structures and 700 lineaments. Many of these have since been confirmed by geophysical survey and subsequent drilling. It is observed that the deep seated structures are more prone to interpretation on Landsat frames, in areas covered by high dunes as compared to lineaments. Contact of dune types, identified, may reflect variation in subsurface geology. 相似文献
17.
Terrain characterization using SRTM data 总被引:1,自引:0,他引:1
Earth’s surface possesses relief because the geomorphic processes operate at different rates, and geologic structure plays a dominant role in the evolution of landforms (Thornbury, 1954). The spatial pattern of relief yields the topographic mosaic of a terrain and is normally extracted from the topographical maps which are available at various scales. As cartographic abstractions are scale dependent, topographical maps are rarely good inputs for terrain analysis. Currently, the shuttle radar topography mission (SRTM) provides one of the most complete, highest resolution digital elevation model (DEM) of the Earth. It is an ideal data-set for precise terrain analysis and topographic characterization in terms of the nature of altimetric distribution, relief aspects, patterns of lineaments and surface slope, topographic profiles and their visualisation, correlation between geology and topography, hypsometric attributes and finally, the hierarchy of terrain sub-units. The present paper extracts the above geomorphic features and terrain character of part of the Chotonagpur plateau and the Dulung River basin therein using SRTM data. 相似文献
18.
Identification of groundwater prospective zones using irs-id liss iii and pump test methods 总被引:1,自引:0,他引:1
The role of hydrogeomorphological units and lineaments in the storage of groundwater from the Muvattupuzha river basin has
been investigated using IRS ID LISS III data. Other than the usual water bodies such as river course, reservoirs and ponds,
the major hydrogeomorphological units identified in this basin in the descending order of their groundwater potential are:
valley fills, moderately dissected plateau, pediments, residual mounts, residual mount complex, linear ridges, residual hills
and structural hills. Majority of the lineaments trends in NW-SE and WNW-ESE directions. Even though the eastern part of the
basin is characterised by moderate to high lineament density, the above area is found to be poor to moderate groundwater prospect
zone because of high gradient and structural hills. The pump test analyses of dug wells from different hydrogeomorphic units
also confirm that valley fills are the most promising unit for groundwater prospecting than the rest. 相似文献
19.
S M Ramasamy S Balaji C J Kumanan 《Journal of the Indian Society of Remote Sensing》1999,27(2):91-104
The interpretation of satellite imagery of part of South India falling South of 15 degree North latitude shows that the regional anticlines, synclines, domes and basins of the Precambrian group of metamorphites are aligned in three major hill ranges/domains such as Chitra-durga domain in the north, the Mangalore-Ootacamund-Bangalore domain in the centre and the Cochin-Cape Comorin-Madurai-Chittoor domain in the south. These hills are crescent shaped with their axes of elongation oriented in NNW-SSE direction. The lineaments with ENE-WSW, NE-SW/WNW-ESE and NNW-SSE azimuthal frequencies respectively exhibit extensional, shear and release geometries. Such deformational fabric shows that the tectonic evolution of South India was controlled by two major compressive forces, the first one aligned in N-S direction and the second in ENE-WSW direction. 相似文献
20.
多光谱假彩色合成遥感影像已经广泛应用于线性构造解译,受构造应力场制约,区域构造均具有显著的定向性,当卫星影像拍摄时光照方向与区域线性构造方向不能匹配时,构造特征常常不能很好显示,从而影响解译效果。文章提出一种利用数字高程模型模拟特定方向光照模型增强多光谱影像的新方法,用垂直于解译目标的最佳光照模型替代原光照模型以增强区域构造线性特征,同一地区对不同方向的构造解译采用了不同方向的光照模型,有效提高了线性构造信息的可解译程度。以四川盆地西侧的龙门山以南地区为例,进行了断裂构造的遥感解译,对该区地震研究和油气勘探工作具有参考意义。 相似文献