The b-spacing values of white micas and their metamorphic implications in the Lesser Himalaya, central Nepal

A detailed geological investigation was carried out to assess the distribution of minerals and their geological control in Bandipur-Gondrang area of Tanahu district, a part of Lesser Himalaya in central Nepal. The area is found rich in both metallic and non-metallic mineral deposits. The main metallic minerals found are iron in Phalamdada and Labdi Khola, copper in Bhut Khola and poly-metallic deposits including suspected gold in Bhangeri Khola and Jaubari Khola-Bar Khola sections. A large deposit of inorganic carbon is found around the Gondrang-Watak area. Similarly, a good quality of green marble (metabasite) is found as decorative stone in Bagar Khola area and good quality of roofing stone in Bandipur area. In addition to these economic deposits other several sub economic to non-economic mineral are also located in the geological map of the area. Categorization of these mineral deposits is based on the probable reserve and laboratory analysis of related samples. Geological control of mineral deposits is considered to be the stratigraphic, structural, metamorphic and hydrothermal. Iron mineralization of the area is found stratigraphical control, copper deposits by magmatism of basic rocks (amphibolites), and poly-metallic deposits are related to the hydrothermal processes.

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Distribution of boron in the rocks of central Nepal Himalaya

Journal of Nepal Geological Society ◽

10.3126/jngs.v28i0.31723 ◽

2003 ◽

Vol 28 ◽

Author(s):

Santa Man Rai

Keyword(s):

Partial Melting ◽

Boron Content ◽

Lesser Himalaya ◽

Main Central Thrust ◽

Nepal Himalaya ◽

Metasedimentary Rocks ◽

Central Nepal ◽

Very High

Boron content in the rocks of central Nepal Himalaya depends upon the lithology and the grade of metamorphism. The concentration of boron is abundant (up to 322 ppm) in the metasedimentary rocks of the Lesser Himalaya. There seems to be a rather good correlation between the boron content in the rocks and the grade of metamorphism. The boron content progressively increases from chlorite to garnet isograds, then it systematically decreases in the staurolite±kyanite, kyanite and sillimanite isograds, respectively. This trend may be related to the inverse metamorphism associated with movement along the Main Central Thrust. The Manaslu leucogranite contains very high amount of boron (950 ppm). The enrichment of boron in this rock may be due to the release of boron from the Lesser Himalayan rocks during the partial melting of the Higher Himalayan Crystallines (Tibetan Slab) as a result of the movement along the MCT. Tourmaline from the Manaslu Granite is also highly rich in boron (8460 ppm).

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Geology and Mineral Resources of Phalamdada-Dhuwakot Section of West-Central Nepal, Lesser Himalaya

Bulletin of the Department of Geology ◽

10.3126/bdg.v20i0.20724 ◽

2018 ◽

pp. 59-64

Author(s):

Arjun Bhattarai ◽

Kabiraj Paudyal

Keyword(s):

Mineral Resources ◽

Geological Mapping ◽

Metamorphic Rocks ◽

Low Grade ◽

Lesser Himalaya ◽

Central Nepal ◽

West Central ◽

Metallic Mineral ◽

Geological Control ◽

Core Part

Geological mapping was carried out along the Phalamdanda-Dhuwakot section of west-central Nepal in the Lesser Himalaya. The aim of geological mapping was to prospect the metallic mineral resources in the area especially to assess the geological control of mineralization as prognostic mapping and study the genesis of mineralization. The area has developed low-grade metamorphic rocks of the Nawakot Group. Geological rock units like the Kuncha Formation, Fagfog Quartzite, Dandagaon Phyllite, Nourpul Formation and Dhading Dolomite are mapped in the area. Jal Bhanjyang Thrust carries the more older rocks of the Nourpul Formation over the Dhading Dolomite. The area is highly deformed as indicated by presence of folds. Outliers of Fagfog Quartzite and Dhading Dolomite are developed at the core part of the syncline. Phalamdada iron and Anbu Khaireni as well as Dharapani copper are the major metallic deposits reported in the area. Both deposits are considered as the syngenetic in nature. Bulletin of Department of Geology, vol. 20-21, 2018, pp:59-64

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Landslide susceptibility modelling in the central Nepal Lesser Himalaya

Zeitschrift der Deutschen Gesellschaft für Geowissenschaften ◽

10.1127/1860-1804/2011/0162-0405 ◽

2011 ◽

Vol 162 (4) ◽

pp. 405-420 ◽

Cited By ~ 1

Author(s):

Prem B. Thapa

Keyword(s):

Landslide Susceptibility ◽

Lesser Himalaya ◽

Central Nepal

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Petrography and illite crystallinity of the Lesser Himalayan metasediments, Gorkha Narayangarh section, central Nepal

Bulletin of the Department of Geology ◽

10.3126/bdg.v14i0.5441 ◽

1970 ◽

Vol 14 ◽

pp. 67-76

Author(s):

Kabi Raj Paudyal ◽

Tara Prasad Pokharel ◽

Lalu Prasad Paudel

Keyword(s):

Systematic Study ◽

The Other ◽

Lesser Himalaya ◽

Illite Crystallinity ◽

The North ◽

Central Nepal

Geological study was carried out in the Lesser Himalaya from Gorkha-Narayangarh section of central Nepal aiming to assessthe metamorphism of the area. The area consists of the Kunchha Formation, Fagfog Quartzite, Dandagaon Phyllites, NourpulFormation, Dhading Dolomite, Benighat Slate and the Robang Formation of the Nawakot Complex. Systematic study onpetrography and illite crystallinity was performed in the samples representing all types of lithology and formations. Bothpetrography and illite crystallinity show that the rocks south of Anbu Khaireni belong to chlorite zone. Biotite and garnet zonesare observed only in the north of Anbu Khaireni. The metamorphic zones are inverted as in the other parts of the Lesser Himalaya.DOI: http://dx.doi.org/10.3126/bdg.v14i0.5441Bulletin of the Department of Geology Vol.14 2011, pp.67-76

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Land cover change in Himalaya with special reference to forest disturbance: A case of Bharse area, Lesser Himalaya, West Central Nepal

Himalayan Journal of Sciences ◽

10.3126/hjs.v2i4.839 ◽

2008 ◽

Vol 2 (4) ◽

pp. 138-139

Author(s):

Chinta Mani Gautam ◽

Teiji Watanabe

Keyword(s):

Land Cover ◽

Special Reference ◽

Land Cover Change ◽

Forest Disturbance ◽

Lesser Himalaya ◽

Special Issue ◽

Central Nepal ◽

West Central

Himalayan Journal of Sciences Vol.2(4) Special Issue 2004 pp.138-9

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Preliminary palaeomagnetic results from medium grade metacarbonates of the Lesser Himalaya

Journal of Nepal Geological Society ◽

10.3126/jngs.v18i0.32253 ◽

1998 ◽

Vol 18 ◽

Author(s):

E. Schill ◽

E. Appel ◽

P. Gautam ◽

V. K. Singh

Keyword(s):

Garhwal Himalaya ◽

Single Domain ◽

Lesser Himalaya ◽

Main Central Thrust ◽

Massif Central ◽

Grain Sizes ◽

Central Nepal

First investigations of metacarbonates of the Lesser Himalaya close to the Main Central Thrust (MCT) demonstrate the suitability of medium grade metacarbonates for palaeomagnetic studies. Stable directions were obtained for a secondary thermoremanent magnetisation with unblocking spectra between 200- 350oC, indicating pyrrhotite as the remanence carrier. The occurrence of pyrrhotite is evidenced in several sites by rockmagnetic investigations. Significant mean directions were found in sampling sites located south of the Manaslu massif (central Nepal) and also in the Alaknanda valley (Garhwal Himalaya, India). More stable remanences in the Alkananda valley can be related to single domain (SD) pyrrhotite whereas higher instabilities in central Nepal might be due to smaller grain sizes around the SD superparamagnetic transition.

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Morphology and classification of the main stem Bagmati River, Central Nepal

Bulletin of the Department of Geology ◽

10.3126/bdg.v15i0.7415 ◽

2013 ◽

Vol 15 ◽

pp. 23-34

Author(s):

Pramila Shrestha ◽

Naresh Kazi Tamrakar

Keyword(s):

Main Stem ◽

Aerial Photographs ◽

Radius Of Curvature ◽

Moderate Degree ◽

Lesser Himalaya ◽

Valley Fill ◽

Central Nepal ◽

Belt Width ◽

Bagmati River ◽

Type Stream

Rivers are significant geomorphic agents which can carry huge amounts of sediments and water from their catchments to depositional basins. Due course of flow they can bring various hazards such as flooding, inundation of flood plains, erosion of banks and trigger various slope movements. To understand nature and behavior of the Bagmati River, which is a perennial, storm and spring-fed, eight order river of central Nepal, the planiform morphological parameters of this river were analysed and river segments along the main stem stretches were classified into various stream-types, using topographic maps, aerial photographs, and satellite imageries. The Bagmati River is an 8th order perennial river. The Bagmati River basin comprises 39 sub-basins of 4th order and higher. The averages of meander wavelengths (Lm), meander belt width (Wblt), radius of curvature (Rc) and sinuosity (K) of the 7th order main stem Bagmati River are 598.27 m, 164.07 m, 252.35 m and 1.38, respectively. Similarly, the averages of Lm, Wblt, Rc, and K of the 8th order main stem rivers are respectively, 496.77, 126.58 m, 286.13 m, and 1.55. All these parameters reflect fluctuating trends of variation along the downstream stretch. However, the portion of the 7th order river shows abrupt increase of Lm after the Bagmati River crosses the Main Boundary Thrust. The Rc also indicates slight increase in this region. The sinuosity reflects overall increase from the 7th to the 8th order rivers. This increase in sinuosity is attributed to the decrease in slope and competency of the river. There exists a moderate degree of correlation between K and Wblt showing that the Wblt of the Bagmati River tends to increase as the sinuosity increases. The stream segments of the Bagmati River fall on A-, B-, C-, G- and D-type rivers. All the segments of the Bagmati River, lying within the Kathmandu Valley and having substrate of the fluvio-lacustrine valley-fill sediments, fall on C-type stream because of low entrenchment and high width/depth ratio. Similarly, A-type streams are developed at segments which flow through the Tistung Formation of the granite terrain of the Lesser Himalaya most probably due to entrenched and gorged valley and high slope. Likewise, B- and G-type streams are developed in terrains of the Lesser Himalaya and the Sub-Himalaya. The B-type streams are moderately entrenched with sinuous to meandering and wide channels. The D-type stream segment which is a multi-thread channel is characteristically developed within the terrain of the Sub-Himalaya presumably due to the change in slope caused by thrusting, and greater input of sediments from the Siwaliks in relation to weak and loosely consolidated lithology. DOI: http://dx.doi.org/10.3126/bdg.v15i0.7415 Bulletin of the Department of Geology, Vol. 15, 2012, pp. 23-34

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Groundwater condition of Banepa area, Central Nepal

Bulletin of the Department of Geology ◽

10.3126/bdg.v11i0.1540 ◽

1970 ◽

Vol 11 ◽

pp. 31-40

Author(s):

Suresh Shrestha ◽

Suresh Das Shrestha

Keyword(s):

Water Supply ◽

Hydraulic Properties ◽

Specific Capacity ◽

Groundwater Potential ◽

Lesser Himalaya ◽

Alternative Source ◽

Central Nepal ◽

Basement Rocks ◽

Hydrogeological Study ◽

Groundwater Condition

Only surface water has been distributed in the Banepa Municipality area, Central Nepal by Nepal Water Supply Corporation (NWSC) and is not sufficient as per the demand of public. A hydrogeological study was made to know the groundwater potential of the area. Banepa lies entirely in the Lesser Himalaya and constitutes consolidated phyllite and metasandstone basement rocks, and Quaternary sediment of gravel, sand and carbonaceous clay deposited in the valley. The thickness of sediment ranges from 20 to 40 m, of which gravel, sand and clay individually approach upto 20, 5 and 15 m, respectively. Transmissivity of the aquifer varies from 0.8 to 3.15 m2/day. Hydraulic conductivity varies from 0.022 to 0.14 m/day and specific capacity varies from 1.2 to 72 m3/day/m in the study area. The thickness of the aquifer is low and the hydraulic properties are also not favorable to extract sufficient quantity of groundwater in Banepa area. Therefore, an alternative source of water supply should be explored to fulfill present and future water demand. doi: 10.3126/bdg.v11i0.1540 Bulletin of the Department of Geology, Tribhuvan University, Kathmandu, Nepal, Vol. 11, 2008, pp. 31-40

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