Thematische Bibliographien / Sikkim Himalaya

Inhaltsverzeichnis

  1. Zeitschriftenartikel
  2. Dissertationen
  3. Bücher
  4. Buchteile
  5. Konferenzberichte
  6. Berichte der Organisationen

Auswahl der wissenschaftlichen Literatur zum Thema „Sikkim Himalaya“

Autor: Grafiati
Veröffentlicht am 18. Mai 2024

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Zeitschriftenartikel zum Thema "Sikkim Himalaya"

1

Li, Shuiping, Tingye Tao, Fei Gao, Xiaochuan Qu, Yongchao Zhu, Jianwei Huang und Qi Wang. „Interseismic Coupling beneath the Sikkim–Bhutan Himalaya Constrained by GPS Measurements and Its Implication for Strain Segmentation and Seismic Activity“. Remote Sensing 12, Nr. 14 (09.07.2020): 2202. http://dx.doi.org/10.3390/rs12142202.

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The Sikkim–Bhutan seismic gap has witnessed a long earthquake quiescence since the 1714 M7.5~8.5 earthquake. The state of stress accumulation beneath the Sikkim–Bhutan Himalaya and its spatial correlation with seismicity remains unclear due to the lack of geodetic measurements and the low levels of seismic activity. We compile Global Positioning System (GPS) measurements in southern Tibet with the available velocities in the Sikkim–Bhutan Himalaya to reveal the characteristics of strain buildup on the Main Himalayan Thrust (MHT). We correct non-tectonic hydrological loading effects in a GPS time series to accurately determine the Three-Dimensional (3D) velocities of each continuous station. Extensive GPS measurements yield convergence rates of 16.2~18.5 mm/y across the Sikkim–Bhutan Himalaya, which is quite consistent with that observed elsewhere in the Himalaya. Based on a double-ramp structure of the MHT, a refined 3D coupling image is inverted using a dense network of GPS velocities. The result indicates significant along-strike variations of fault coupling beneath the Sikkim–Bhutan Himalaya. The locking width (coupling > 0.5) of western Bhutan reaches ~100 km, which is 30~40% wider than Sikkim and eastern Bhutan. An obvious embayment of decoupling zone near the border between Sikkim and western Bhutan is recognized, and coincides spatially with the rupture terminates of the 1934 Mw8.2 and the 1714 M7.5~8.5 earthquakes, indicating that the large megathrust earthquakes along the Sikkim–Bhutan Himalaya are largely segmented by the spatial variation of frictional properties on the MHT. Using a new compilation of seismic records in the Sikkim–Bhutan Himalaya, we analyze the spatial correlation between fault coupling and seismic activity. The result suggests that the seismicity in the Bhutan Himalaya is broadly distributed, instead of restricted in the lower edge of the interseismic locking zone. This implies that the seismic activity in the Bhutan Himalaya is not uniquely controlled by the stress accumulation at the downdip end of the locked portion of the MHT.
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2

NOLTIE, H. J. „NOTES RELATING TO THE FLORA OF BHUTAN: XL. GRAMINEAE III, THE GENUS POA“. Edinburgh Journal of Botany 57, Nr. 2 (Juli 2000): 279–89. http://dx.doi.org/10.1017/s0960428600000214.

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The following new species are described from the E Himalaya: Poa pseudotibetica Noltie (Tibet, Sikkim); P. rohmooiana Noltie (Sikkim); P. chumbiensis Noltie (Tibet); P. dzongicola Noltie (Bhutan, Sikkim); P. cooperi Noltie (Sikkim); P. longii Noltie (Sikkim); P. lachenensis Noltie (Sikkim); P. rajbhandarii Noltie (India, Nepal, Bhutan). Poa himalayana Nees ex Steud. has been misunderstood and a new lectotype is chosen, replacing that of Bor; P. stewartii Bor is reduced to its synonymy.
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Sahgal, Vinay Sahu, Ashish Kumar Asthana, und Deepa Srivastava. „On the Occurrence of Plagiobryum zieri (Dicks. ex Hedw.) Lindb. in Western Himalaya“. INTERNATIONAL JOURNAL OF PLANT AND ENVIRONMENT 6, Nr. 03 (25.07.2020): 222–24. http://dx.doi.org/10.18811/ijpen.v6i03.12.

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Plagiobryum zieri (Dicks. ex Hedw.) Lindb. inhabitant of higher altitude has been recorded for the first time from Uttarkashi, Uttarakhand of the Western Himalaya earlier known from Sikkim (Eastern Himalaya). About 25 species of Plagiobryum are known worldwide. A morpho-taxonomic account of Western Himalayan plants of Plagiobryum zieri is provided.
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RAI, PRAMOD, und GUIDO MATHIEU. „Peperomia mangalbaria (Piperaceae), a new species from Sikkim Himalaya, India“. Phytotaxa 609, Nr. 2 (22.08.2023): 138–44. http://dx.doi.org/10.11646/phytotaxa.609.2.6.

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Piperaceae is one of the most diverse plant families. Peperomia, the second largest genus of this family, has about 10 species in India which are distributed from the Northern Himalayas to the Southern Peninsula. Here we describe a new species of Peperomia from Sikkim Himalaya in northeastern India. A color plate, line drawing, distribution map, description, and taxonomic key to current species of Peperomia in Sikkim are provided.
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Chettri, Prem K., Bijoy Chhetri und Hemant K. Badola. „Rhododendron diversity along the Kusong-Panch Pokhari transect in Khangchendzonga Biosphere Reserve, the eastern Himalaya: a conservation perspective“. Journal of Threatened Taxa 10, Nr. 1 (26.01.2018): 11192. http://dx.doi.org/10.11609/jott.3728.10.1.11192-11200.

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Sikkim Himalaya, India is part of one of the richest global biodiversity hotspots, exhibiting a significant amount of native flora including Rhododendron (Ericaceae) species, which are particularly well represented with 37 species, 11 subspecies, seven varieties and two natural hybrids occurring along the rolling mountains between 1,500m to 6,000m. Most of the habitats of rhododendrons in Sikkim Himalaya have not only been threatened by climate change but also by emerging eco-tourism and economic activities vis-à-vis trekking corridors. In recent decades, it has been observed that the climate-governed phenology of rhododendrons of eastern Himalaya is shifting; further the urbanization, tourism influx, and clearances for the footpaths have adversely impacted the diversity of many forest areas. To better understand the effects of trekking corridors on Rhododendron species for the tourist destinations, we performed a pilot survey along the Kusong-Panch Pokhari transect in relatively virgin forest of the northern part of Sikkim to assess the status of both Rhododendron diversity and potential environmental management strategies that can be employed within the transect as a new tourist destination in the Sikkim Himalaya. Along with this transect, we recorded 23 Rhododendron species, with five eastern Himalayan endemics. Our results indicate that the diversity of rhododendrons seem good along the Kusong-Panch Pokhari transect and we further recommend it could be a new potential eco-tourism destination as an alternative income generating source for the local people, provided that appropriate conservation management strategies are in place.
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Kumar, Pramod, und Khushboo Sharma. „Snowfall Shift and Precipitation Variability over Sikkim Himalaya Attributed to Elevation-Dependent Warming“. Journal of Atmospheric Science Research 6, Nr. 4 (28.09.2023): 1–25. http://dx.doi.org/10.30564/jasr.v6i4.5854.

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Sikkim Himalaya hosts critical water resources such as glacial, rain, and snow-fed springs and lakes. Climate change is adversely affecting these resources in various ways, and elevation-dependent warming is prominent among them. This study is a discussion of the elevation-dependent warming (EDW), snowfall shift, and precipitation variability over Sikkim Himalaya using a high-resolution ERA5-land dataset. Furthermore, the findings show that the Sikkim Himalaya region is experiencing a warming trend from south to north. The majority of the Sikkim Himalayan region shows a declining trend in snowfall. A positive advancement in snowfall trend (at a rate of 1 mm per decade) has been noticed above 4500 meters. The S/P ratio indicates a shift in snowfall patterns, moving from lower elevations to much higher regions. This suggests that snowfall has also transitioned from Lachung and Lachen (3600 m) to higher elevated areas. Moreover, the seasonal shifting of snowfall in the recent decade is seen from January-March (JFM) to February-April (FMA). Subsequently, the preceding 21 years are being marked by a significant spatiotemporal change in temperature, precipitation, and snowfall. The potent negative correlation coefficient between temperature and snowfall (–0.9), temperature and S/P ratio (–0.5) suggested the changing nature of snowfall from solid to liquid, which further resulted in increased lower elevation precipitation. The entire Sikkim region is transitioning from a cold-dry to a warm-wet weather pattern. In the climate change scenario, a drop in the S/P ratio with altitude will continue to explain the rise in temperature over mountainous regions.
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Sharma, Shiva Kumar, und Maharaj Krishan Pandit. „A New Species of Panax L. (Araliaceae) from Sikkim Himalaya, India“. Systematic Botany 34, Nr. 2 (01.06.2009): 434–38. http://dx.doi.org/10.1600/036364409788606235.

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Panax sokpayensis, a new species from Sikkim Himalaya, India is described. The species was found growing in the submontane zone of West Sikkim in the habitats located between 1,700 m and 2,300 m altitudes. The localities, where the species grows, are forested habitats dominated by a Quercus-Acer vegetation in association with Viburnum erubescens, Daphne cannabina, Urtica parviflora, Gerardiana heterophylla, and several species of ferns. Morphological characters of this species are compared with other known species of Panax in Himalaya. The new species is distinct from its allies in having a robust habit, a large horizontal creeping rhizome with a single small globose tuber, oblanceolate to narrowly elliptic leaflets, long leafy bracts, and small black and red fruits. Panax sokpayensis is separated from the P. pseudoginseng and other species complexes in the genus. The difference between P. sokpayensis and its related Himalayan taxa are discussed. We also show that P. pseudoginseng was wrongly reported from the Indian Himalaya.
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Chhetri, Prem K., Kusal Gurung, Thinlay Namgyal Lepcha und Bijoy Chhetri. „High altitude wetland migratory birds in the Sikkim Himalaya: a future conservation perspective“. Journal of Threatened Taxa 13, Nr. 2 (27.02.2021): 17832–36. http://dx.doi.org/10.11609/jott.5610.13.2.17832-17836.

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Ferruginous Duck Aythya nyroca (Güldenstädt, 1770) and Brown-headed Gull Chroicocephalus brunnicephalus (Jerdon, 1840), two high altitude wetland migratory birds, were recorded for the first time from Sikkim, eastern Himalaya. The importance of conservation of high altitude wetlands of the Sikkim Himalaya is highlighted.
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Panda, AshokKumar, und Sangram Misra. „Health traditions of Sikkim Himalaya“. Journal of Ayurveda and Integrative Medicine 1, Nr. 3 (2010): 183. http://dx.doi.org/10.4103/0975-9476.72617.

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Das, Debjyoti, und Jai Prakash Keshri. „Desmids of Khechiperi Lake, Sikkim Eastern Himalaya“. Algological Studies 143, Nr. 1 (23.12.2013): 27–41. http://dx.doi.org/10.1127/1864-1318/2013/0136.

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Dissertationen zum Thema "Sikkim Himalaya"

1

Vandenhelsken, Mélanie. „Le monastère bouddhique de Pemayangtse au Sikkim (Himalaya Occidental, Inde) : un monastère dans le monde“. Montpellier 3, 2002. http://www.theses.fr/2002MON30048.

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Le monastère bouddhique de Pemayangtse, situé dans l'État himalayen du Sikkim, a la particularité de n'admettre au sein de sa communauté religieuse que les seuls membres de clans apparentés au clan royal. Ces clans constituent la noblesse lhopo, descendante de lointains émigrant du Tibet et du Bhoutan, qui fonda le royaume bouddhiste du Sikkim au XVIIe siècle, et domina les populations locales. Cette étude aborde la question des relations entre ordre temporel et ordre spirituel dans cette région. L'implication du monastère dans la société étant au cœur du sujet, ce dernier est abordé par une ethnographie de la communauté lhopo locale. Cette question est également analysée au regard de l'appartenance du Sikkim à l'Union Indienne, datant de 1975
The Buddhist monastery of Pemayangtse, located in the Himalayan State of Sikkim, allows within his religious community the only members of the clans which are related to the king. These clans compose the Lhopo nobility. They descend from ancient Tibetan and Bhutanese immigrants, the founders of the Buddhist kingdom of Sikkim in the XVIIth century, and the conquerors of the local populations. This study analyses the question of the relationship between the temporal and the spiritual orders in the area of Pemayangtse. The implication of the monastery in the society being a central subject, it is approached through an ethnography of the local Lhopo community. This question is analysed in consideration with the status of the Sikkimese state, as having been a part of the Indian Union's State since 1975
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Goswami, Sudipta. „Inverted metamorphism in the Sikkim-Darjeeling Himalaya : structural, metamorphic and numerical studies“. Thesis, University of Cambridge, 2005. https://www.repository.cam.ac.uk/handle/1810/284048.

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The structural and metamorphic evolution of the Darjeeling-Sikkim Himalaya, a “classical” region of inverted metamorphism in the Himalaya, has been investigated by field studies combined with 2-D numerical modelling of the thermal evolution. In the Himalaya, an orogen-wide zone of inverted isograds is spatially associated with the Main Central Thrust (MCT). In the Sikkim-Darjeeling region, an inverted metamorphic field gradient is indicated by garnet-grade rocks in the upper Lesser Himalaya (LH), which increase in grade to sillimanite + K-feldspar assemblages in the middle to upper structural levels of the Higher Himalayan Crystallines (HHC). Metamorphic breaks in the “Barrovian sequence” have been established between the garnet- and sillimanite-bearing rocks in the Darjeeling region and between the kyanite-staurolite schists and biotite-sillimanite schists in Sikkim. Since the accurate location of the MCT is critical to constraining the metamorphic evolution of the Higher and Lesser Himalaya, a number of criteria are used in defining the MCT zone in this region. These include lithologic contrasts, increase in non-coaxial deformation features towards the MCT zone and geomorphology. The MCT forms a zone of distributed ductile deformation that has propagated southwards with time, resulting in a 3-10 km wide zone, containing rocks from both the Higher and Lesser Himalaya. Four episodes of deformation and two metamorphic events have been identified in the HHC. Textural evidence and garnet zoning profiles indicate a single episode of prograde metamorphism, but four deformation events in the MCT zone and the LH. Garnet zoning profiles from the HHC indicate retrograde equilibrium. M1 resulted in a peak assemblage of prismatic sillimanite + K-feldspar as well as muscovite dehydration melting resulting in millimetre to centimetre scale leucosomes, while M2 is associated with rapid exhumation of the HHC during simultaneous movement along the MCT and the South Tibetan Detachment System (STDS) forming decompression textures in metabasic boudins and pelites.
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Mottram, Catherine Mary. „An integrated metamorphic and isotopic study of crustal extrusion along the Main Central Thrust, Sikkim Himalaya“. Thesis, Open University, 2014. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.664515.

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Mountains form where the Earth's plates collide; during this upheaval rocks are deformed by massive forces. The Himalayan orogen represents the ideal natural laboratory to decode the record of the deformational processes encrypted in the rocks. In the eastern region of Sikkim, a unique series of 'time windows' are exposed by doming of a major ductile fault, revealing the inner workings of one of the major mountain-building structures that accommodated the India-Asia collision. The temporal and thermal evolution of the complex zone of deformation associated with this structure, the Main Central Thrust (MCT), was investigated using a combination of whole rock geochemistry (ENd), geochronology (U-Pb and 4°Arl9Ar), accessory and major phase geochemistry, and pressure-temperature modelling. The results demonstrate that: (1) isotope geochemistry can distinguish rock packages that have been juxtaposed over many hundreds of kilometres in complex ductile shear zones; (2) during prolonged ductile deformation of the MCT zone from ~21-9 Ma there was progressively downwards-penetrating deformation and accretion of colder original footwall material to the hotter hanging wall; (3) the associated zone of inverted Barrovian metamorphism documents a sequence of 'paleo-thrusts' that evolved as the thrust-zone deformed rocks at successively lower pressure and temperature conditions «500 to >650°C and 8 to 10 kbar); (4) during the Miocene thrusting progressed at a rate of ~10 mm yr-1 followed by moderately rapid cooling at a rate of ~50-70°C Ma-1 These findings are consistent with a tectonic model where rocks were accreted to a partially-molten mid-crustal channel of ductilely deforming material along the MCT. This study provides new insight into how deformation is accommodated along major thrust faults during mountain building and has implications for how geological tools such as linked geochronology-geochemistry and P-T modelling are used to aid the interpretation of rock deformation in the cores of evolving mountain belts.
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Dharmaraju, R. „Numerical assessment of landslide hazards using geological and remote sensing data in parts of Sikkim Himalaya“. Thesis, 1999. http://hdl.handle.net/2009/2696.

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Bücher zum Thema "Sikkim Himalaya"

1

Randhir, Singh. Sikkim and Himalaya. Sikkim: [C.R. Singh], 2000.

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Rai, Topdhan. Trees of Sikkim Himalaya. New Delhi: Indus Pub. Co., 1994.

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Lucksom, S. Z. The Orchids of Sikkim and North East Himalaya. Siliguri: S.Z. Lucksom, 2007.

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4

An inventory of major landslides in Sikkim-Darjeeling Himalaya. Kolkata: Geological Survey of India, 2009.

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E, Sharma, und G.B. Pant Institute of Himalayan Environment & Development., Hrsg. Integrated watershed management: A case study in Sikkim Himalaya. Nainital: Published for the G.B. Pant Institute of Himalayan Environment & Development by Gyanodaya Prakashan, 1992.

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Rai, Lalitkumar. Medicinal plants of the Sikkim Himalaya: Status, usage, and potential. Dehra Dun, India: Bishen Singh Mahendra Pal Singh, 1994.

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Subba, Tanka Bahadur. Flight and adaptation: Tibetan refugees in the Darjeeling-Sikkim Himalaya. Dharamsala: Library of Tibetan Works and Archives, 1990.

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Footprints in the Himalaya: People, places and practices : Bhutan, Darjeeling, Nepal, Sikkim & Tibet. [Gangtok]: Sonam B. Wangyal, 2006.

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Workshop, on Cultivation of Medicinal Plants and Orchids in Sikkim Himalaya (1994 Gangtok India). Proceedings of a project design Workshop on Cultivation of Medicinal Plants and Orchids in Sikkim Himalaya. Dehra Dun: Bishen Singh Mahendra Pal Singh, 1995.

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Haribal, Meena. The butterflies of Sikkim Himalaya and their natural history: Includes many species found also in other parts of India and Himalaya : with 60 colour plates and nine sketches. Gangtok: Sikkim Nature Conservation Foundation, 1992.

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Buchteile zum Thema "Sikkim Himalaya"

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Basnett, Smriti, und Anil V. Kulkarni. „Snow Cover Changes Observed Over Sikkim Himalaya“. In Environmental Change in the Himalayan Region, 219–32. Cham: Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-03362-0_12.

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2

Sengupta, Arnab, und Sankar Kumar Nath. „Landslide Susceptibility Mapping in Gangtok, Sikkim Himalaya“. In Advances in Geographic Information Science, 539–59. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-75197-5_24.

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3

Latwal, Avantika, Priyanka Sah, Subrat Sharma und Shaik Rehana. „Relationship Between Timberline Elevation and Climate in Sikkim Himalaya“. In Ecology of Himalayan Treeline Ecotone, 75–93. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-19-4476-5_4.

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4

Singh, A., R. K. Ranjan und V. C. Tewari. „Spatio-temporal Variability of Landslides in Sikkim Himalaya, India“. In An Interdisciplinary Approach for Disaster Resilience and Sustainability, 219–34. Singapore: Springer Singapore, 2019. http://dx.doi.org/10.1007/978-981-32-9527-8_13.

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Lepcha, Charisma K. „Lepcha water view and climate change in Sikkim Himalaya“. In Environmental Humanities in the New Himalayas, 43–65. Abingdon, Oxon ; New York, NY : Routledge, 2021.: Routledge, 2021. http://dx.doi.org/10.4324/9781003144113-4.

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Sah, Priyanka, Avantika Latwal und Subrat Sharma. „Challenges of Timberline Mapping in the Himalaya: A Case Study of the Sikkim Himalaya“. In Ecology of Himalayan Treeline Ecotone, 147–67. Singapore: Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-19-4476-5_6.

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Banerjee, Saikat, Narayan Bose und Soumyajit Mukherjee. „Field Structural Geological Studies Around Kurseong, Darjeeling-Sikkim Himalaya, India“. In Tectonics and Structural Geology: Indian Context, 425–40. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-99341-6_16.

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Starkel, Leszek, und Subir Sarkar. „The Sikkim-Darjeeling Himalaya: Landforms, Evolutionary History and Present-Day Processes“. In World Geomorphological Landscapes, 157–64. Dordrecht: Springer Netherlands, 2014. http://dx.doi.org/10.1007/978-94-017-8029-2_15.

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Theengh, Lak Tsheden, Priyadarshinee Shrestha, Passang D. Lepcha, Rajarshi Chakraborty und Udai Gurung. „Socioeconomic, Livelihood, and Ecological Transformation in the Sikkim Himalayan Region“. In Climate Change Adaptation, Risk Management and Sustainable Practices in the Himalaya, 157–97. Cham: Springer International Publishing, 2023. http://dx.doi.org/10.1007/978-3-031-24659-3_8.

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Behera, Mukunda Dev, Narpati Sharma, Neeti, V. M. Chowdhary und D. G. Shrestha. „Hybrid Approach for Land Use and Forest Cover Classification in Sikkim Himalaya“. In Geospatial Technologies for Land and Water Resources Management, 17–35. Cham: Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-90479-1_2.

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Konferenzberichte zum Thema "Sikkim Himalaya"

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Hazra, Pranata, und Akhouri Pramod Krishna. „AHP Based Assessment of Glof Susceptibility of South Lhonak Glacial Lake, Sikkim Himalaya, India“. In IGARSS 2021 - 2021 IEEE International Geoscience and Remote Sensing Symposium. IEEE, 2021. http://dx.doi.org/10.1109/igarss47720.2021.9553439.

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2

Srivastava, Tanya, Kumar Batuk Joshi, Catherine Mottram, Nigel Harris und Nishchal Wanjari. „Geochemistry and U-Pb zircon geochronology of Higher Himalayan leucogranites and gneiss from Sikkim-Darjeeling Himalayas, India“. In Goldschmidt2022. France: European Association of Geochemistry, 2022. http://dx.doi.org/10.46427/gold2022.9749.

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Parui, Chirantan, Kathakali Bhattacharyya, Pritam Ghosh und Ammu J.K. „STRAIN PARTITIONING ACROSS SCALES IN THE SIKKIM HIMALAYAN OROGENIC WEDGE“. In GSA Annual Meeting in Indianapolis, Indiana, USA - 2018. Geological Society of America, 2018. http://dx.doi.org/10.1130/abs/2018am-321979.

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Srivastava, Tanya, Catherine Mottram, Nigel Harris, Kumar Batuk Joshi und Nishchal Wanjari. „MONAZITE GEOCHRONOLOGY AND RARE EARTH ELEMENT VARIATIONS IN LEUCOGRANITES FROM SIKKIM, EASTERN HIMALAYAS“. In GSA Connects 2022 meeting in Denver, Colorado. Geological Society of America, 2022. http://dx.doi.org/10.1130/abs/2022am-380022.

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Bhattacharyya, Kathakali, und Chirantan Parui. „LATERAL VARIATION IN STRUCTURAL ARCHITECTURE OF THE SIKKIM HIMALAYAN FOLD THRUST BELT: INSIGHTS FROM A BLIND LESSER HIMALAYAN DUPLEX“. In GSA Annual Meeting in Denver, Colorado, USA - 2016. Geological Society of America, 2016. http://dx.doi.org/10.1130/abs/2016am-284605.

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6

Srivastava, Tanya, Nigel Harris und Catherine Mottram. „U-Pb geochronology and rare earth element characteristics of uraninite from peraluminous leucogranites, Sikkim Himalayas, India“. In Goldschmidt2023. France: European Association of Geochemistry, 2023. http://dx.doi.org/10.7185/gold2023.14386.

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7

Bhattacharya, Atanu, Susmita Ghosh und Kriti Mukherjee. „Multi-decadal mass budget and area change of some eastern Himalayan glaciers (Nepal-Sikkim) using remote sensing techniques“. In 2018 4th International Conference on Recent Advances in Information Technology (RAIT). IEEE, 2018. http://dx.doi.org/10.1109/rait.2018.8388976.

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Bhattacharyya, Kathakali, und Pritam Ghosh. „SPATIAL AND TEMPORAL VARIATIONS IN DEFORMATION MECHANISMS AND KINEMATICS OF DOMINANT THRUSTS FROM HINTERLAND OF MOUNTAIN BELTS: A CASE STUDY FROM THE MAIN CENTRAL THRUST (MCT) AND THE PELLING THRUST, SIKKIM HIMALAYAN FOLD THRUST BELT“. In GSA Annual Meeting in Denver, Colorado, USA - 2016. Geological Society of America, 2016. http://dx.doi.org/10.1130/abs/2016am-284676.

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Berichte der Organisationen zum Thema "Sikkim Himalaya"

1

Sharma, G., U. Partap, E. Sharma, G. Rasul und RK Awasthe. Agrobiodiversity in the Sikkim Himalaya; Sociocultural Significance, Status, Practices, and Challenges : ICIMOD Working Paper 2016/5. Kathmandu, Nepal: International Centre for Integrated Mountain Development (ICIMOD), 2016. http://dx.doi.org/10.53055/icimod.621.

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2

Sharma, G., U. Partap, E. Sharma, G. Rasul und RK Awasthe. Agrobiodiversity in the Sikkim Himalaya; Sociocultural Significance, Status, Practices, and Challenges : ICIMOD Working Paper 2016/5. Kathmandu, Nepal: International Centre for Integrated Mountain Development (ICIMOD), 2016. http://dx.doi.org/10.53055/icimod.621.

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3

Partap, U., G. Sharma, M. B. Gurung, N. Chettri und E. Sharma. Large Cardamom Farming in Changing Climatic and Socioeconomic Conditions in the Sikkim Himalayas; ICIMOD Working Paper 2014/2. Kathmandu, Nepal: International Centre for Integrated Mountain Development (ICIMOD), 2014. http://dx.doi.org/10.53055/icimod.592.

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4

Partap, U., G. Sharma, M. B. Gurung, N. Chettri und E. Sharma. Large Cardamom Farming in Changing Climatic and Socioeconomic Conditions in the Sikkim Himalayas; ICIMOD Working Paper 2014/2. Kathmandu, Nepal: International Centre for Integrated Mountain Development (ICIMOD), 2014. http://dx.doi.org/10.53055/icimod.592.

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