Thematische Bibliographien / Eastern Sub-Himalayan Region

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  2. Dissertationen
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Auswahl der wissenschaftlichen Literatur zum Thema „Eastern Sub-Himalayan Region“

Autor: Grafiati
Veröffentlicht am 18. Mai 2024

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Zeitschriftenartikel zum Thema "Eastern Sub-Himalayan Region"

1

PIJUSH, BASAK. „Eastern and North Eastern sub-divisions of India : An analysis of trend and chaotic behaviour of rainfall in different seasons“. MAUSAM 71, Nr. 4 (04.08.2021): 625–36. http://dx.doi.org/10.54302/mausam.v71i4.47.

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The aim of the study is to understand trend or non-linearity along with a chaotic behaviour, if any, of Eastern and North Eastern sub-divisional rainfall, namely Orissa, Gangetic West Bengal, Sub Himalayan West Bengal, Assam and Meghalaya and also Nagaland, Manipur, Mizoram and Tripura based on rainfall data of 143 years (1871-2013). The analysis is performed for examining behaviour of rainfall in each of the seasons, namely, Pre monsoon, South West monsoon, North East monsoon and also Annual rainfall extracted from the monthly data. For that purpose, a trend analysis with Hurst Exponent and non-linearity analysis with Lyapunov Exponent are employed. The analysis revealed that rainfall of Orissa is persistent for all the seasons whilst the rainfall is persistent in Gangetic West Bengal in Pre monsoon and North East monsoon and Assam and Meghalaya along with Nagaland, Manipur, Mizoram and Tripura exhibit persistent behaviour in South West Monsoon and annually. Sub Himalayan West Bengal exhibit persistence in annual rainfall only. Chaotic tendency in low magnitude is located in many cases whilst non-chaotic situation has occurred when the persistence is found, mainly in pre-monsoon season. Moreover, the analysis of Hurst and Lyapunov Exponent revealed to identify two groups of sub-divisions with exactly similar region of every respect. Those two groups contain (i) sub-divisions Orissa and Assam and Meghalaya and also (ii) sub-divisions Sub Himalayan West Bengal and Nagaland, Mizoram, Manipur and Tripura although those are at distances of hundreds of kilometers away. The behaviour of those subdivisions in a group has similar behaviour in all respects.
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2

Rai, Ishwari Datt, Gajendra Singh und Gopal Singh Rawat. „Anemone trullifolia and Berberis angulosa as new records to the flora of the western Himalaya, India“. Journal of Threatened Taxa 10, Nr. 5 (26.04.2018): 11679. http://dx.doi.org/10.11609/jott.3961.10.5.11679-11682.

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The western Himalaya represent an important and distinct botanical sub-region and biogeographic zone in the Himalayan Biodiversity Hotspot. There is a long history of floral exploration in this region as compared to the eastern Himalaya; however, recent additions of several species to western Himalayan flora reveal remote areas yet to be explored intensively. The present reports on Anemone trullifolia and Berberis angulosa from the subalpine-alpine areas of western Himalaya also emphasize the need for further exploration. In this article, a brief description of these species is presented along with distribution, ecology, phytogeographical notes and photographs are provided for easy identification.
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3

Das, Santanu, Biplab Mitra, Asok Saha, Somnath Mandal, Prodyut Kumar Paul, Mohamed El-Sharnouby, Mohamed M. Hassan, Sagar Maitra und Akbar Hossain. „Evaluation of Quality Parameters of Seven Processing Type Potato (Solanum tuberosum L.) Cultivars in the Eastern Sub-Himalayan Plains“. Foods 10, Nr. 5 (20.05.2021): 1138. http://dx.doi.org/10.3390/foods10051138.

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The eastern sub-Himalayan plain of India is a popular potato growing belt in which vast scope exists to introduce processing grade cultivars. The selection and introduction of a better quality processing grade cultivar in this region may pave the way for the processing industries. Keeping these in the backdrop, this study was conducted at Instructional Farm of Uttar Banga Krishi Viswavidyalaya (UBKV), Pundibari, Cooch Behar, West Bengal, India under eastern sub-Himalayan plains during winter seasons of 2016–17 and 2017–18 in which seven processing type potato cultivars (Kufri Chipsona-1, Kufri Chipsona-3, Kufri Chipsona-4, Kufri Frysona, Kufri Himsona, Kufri Surya and Kufri Chandramukhi) were evaluated in terms of different quality parameters pre-requisite for chips processing viz., dry matter content, specific gravity, starch content, chips colour score, crispiness and hardness of chips through randomised complete block design (RCBD). The study revealed wide variation in all quality parameters amongst the cultivars. Cultivar ‘Kufri Frysona’ showed the highest specific gravity (1.121) as well as dry matter content (23.35%) followed by ‘Kufri Chipsona-3’. The cultivar ‘Kufri Frysona’ showed the highest starch content (28.52%) too. Chips prepared from ‘Kufri Chipsona-1’ were recorded to be crispier with a relatively lower value of deformation before the first break and less hardness value. All processing type potato cultivar reflected the chips colour score <3 (evaluated, based on 1–10 scale, 10 being the darkest and least desirable) though ‘Kufri Frysona’ had the lowest chips colour score (1.50) signifying its superiority for the region. ‘Kufri Frysona’ cultivation could be recommended in this agro-climatic region particularly for chips manufacturing potato industries.
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4

GORE, P. G., und A. B. CHAVAN. „Probabilities of wet spells over North Eastern India leading to flood condition“. MAUSAM 64, Nr. 3 (01.07.2013): 475–80. http://dx.doi.org/10.54302/mausam.v64i3.729.

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Hkkjh o"kkZ ds dkj.k Åijh tyxzg.k {ks=ksa ls uhps dh vksj cgus okys ty ds vR;kf/kd rst izokgksa dks lekfgr djus ds fy, ufn;ksa ds rVksa ds vanj dh rjQ vi;kZIr LFkku gksus ds dkj.k ck<+ vkrh gSA vle vkSj es?kky; ds mi[kaMksa vkSj Hkkjr ds mRrjh iwohZ Hkkxksa ds mifgeky; if’pe caxky ds {ks= nf{k.k if’peh ekWulwu _rq ds le; ck<+ ls xzLr jgrs gSaA bl v/;;u esa vle vkSj es?kky; ds mi[kaMksa rFkk mifgeky; ds if’peh caxky ds dqN pqfuank ftyksa esa yxkrkj o"kkZ okys 2 vkSj 3 lIrkgksa ds lqfuf’pr Fkzs’kksYM eku ds vk/kkj ij igys Øe ds ekdksZo psu ekWMy }kjk vkdfyr fd, x, laHkkoukvksa dks crkus dk iz;kl fd;k x;k gSA dqNsd fo’ks"k {ks=ksa ds fy, Hkkjh o"kkZ dh laHkkouk okyh vof/k;ksa dk irk yxk;k x;k gS tc o"kkZ dk ckSNkjksa dh laHkkouk,¡ 80 izfr’kr ls vf/kd gksus ij mu {ks=ks esa Hkkjh o"kkZ dh psrkouh vkSj muls fuiVus dh ;kstuk cukbZ tk ldrh gSA Floods are caused by the inadequate capacity within the banks of rivers to contain the high flows brought down from the upper catchments due to heavy rainfall. The sub-divisions Assam and Meghalaya and Sub-Himalayan West Bengal from northeastern parts of India are prone to flood conditions in the southwest monsoon season. In the present study an attempt has been made to give the probabilities computed by first order Markov chain model with certain threshold value for 2 and 3 consecutive wet weeks for selected districts of the sub-divisions Assam and Meghalaya and Sub-Himalayan West Bengal. The critical periods identified for certain region when probabilities of wet spells exceed 80% may lead to give awareness and planning for heavy rainfall in those areas.
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Kutty, Vijayaragavan, Balasankar Soundaian, Balasubramanian Jeyaraman und Sathishkumar Manisekaran. „Lymphocutaneous Sporotrichosis“. Indian Journal of Paediatric Dermatology 24, Nr. 2 (2023): 161–63. http://dx.doi.org/10.4103/ijpd.ijpd_89_22.

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Sporotrichosis is a chronic subcutaneous mycosis caused by a fungus, Sporothrix schenckii complex. The first case in India was reported by Ghosh in 1932. The disease is prevalent primarily in the sub-Himalayan region, North-eastern states, and parts of Karnataka. Mostly seen in adults, it uncommonly presents in children over the face and limbs either as fixed cutaneous or lymphocutaneous form. Here, we present a case of 3-years-old boy hailing from Southern Tamil Nadu with multiple nodular lesions in linear fashion over the right upper limb. It was diagnosed as a case of lymphocutaneous sporotrichosis that developed following cut injury over the right index finger. We publish this case as it is rare to occur in this geographic location.
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6

Datta, Prabhat Kumar, und Panchali Sen. „Governance in the Sixth Schedule Areas in India’s North-East: Context, Content and Challenges“. Indian Journal of Public Administration 66, Nr. 2 (25.04.2020): 191–205. http://dx.doi.org/10.1177/0019556120916885.

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Nestled in the foothills of the Himalayas in the eastern range North-East (N-E) has the ‘seven sisters’—Arunachal Pradesh, Assam, Manipur, Meghalaya, Mizoram, Nagaland and Tripura, along with a small and beautiful cousin in the Himalayan fringes, namely, Sikkim. Nearly ninety-eight per cent of N-E is surrounded by international boundaries and two per cent with the rest of India. Often known as ‘the ethnic cauldron’, this region is the home of extraordinarily diverse mosaic of ethnic groups having distinctive social, cultural and economic identity, more akin to their South Asia neighbours than mainland India. It is a habitat of a good number of ethnic rebel groups whose agendas vary from complete session from India to fighting for ethnic identities and home lands. The primary objective of the colonial rule in N-E was to ensure its administrative insulation which might have largely contributed to the continuation of the backwardness of the N-E region. It is probably the only political region in the country where every large state is a region unto itself within a sub-continental nation. This uniqueness is found reflected in the legislations and institutions like the North Eastern Council Act, 1971, setting a nodal agency for the economic development of the region with a secretariat of its own and a separate Union Ministry of Development of North Eastern Region created in 2001. In this article, an attempt has been made to analyse the background, context, content and significance of the Sixth Schedule in the Constitution of India which was incorporated to provide self-rule to the tribal population in the N-E India.
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Sarkar, Satyajit, Soumik Bardhan, Arindam Gangopadhyay, Shankha Banerjee, Sanjib Senapati, Saurabh Chakraborti, Sumit Saha, Mahipal Singh und Monoranjan Chowdhury. „Chemical Profiling of Crush, Tear, Curl (CTC) Tea Waste of Eastern Sub-Himalayan Regions: An Elemental and Spectroscopic Analysis“. Asian Journal of Chemistry 34, Nr. 12 (2022): 3391–98. http://dx.doi.org/10.14233/ajchem.2022.24053.

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Tea is not only the most popular beverage in the world but also producing a large quantity untreated wastes product every year. In particular, the tea gardens of eastern Sub-Himalayan region cumulatively produce 15 million kg of crush, tear, curl (CTC)-factory tea waste (FTW) every year, which primarily includes discarded tea leaves, leaf fibers, buds and tender stems of tea plants. Beside that ~ 80% population of Indian subcontinent consume CTC tea regularly at their homes, tea stalls, market, cafe etc. and the waste produced from it, is called CTC domestic tea waste (DTW). Thus, not only factory tea waste but also a large quantity of domestic CTC tea waste (DTW) is exposed into the environment regularly. In present study, an attempt has been made for primary screening of the compounds in both the CTC-tea wastes. It has been shown that FTW sample contains greater amount of non-metal elements such as sulfur, calcium, phosphorus and metal elements like potassium and iron compared to DTW sample. Abundance of aromatic compounds has been seen to be higher in FTWs whereas, DTW primarily contains aliphatic compounds. Using Orbitrap-HRLCMS analysis allowed to make accurate predictions about the molecular structures of the likely organic chemicals found in tea trash. Thus, various bioactive organic compounds, micronutrients and trace elements from tea waste were found.
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Pan, S., S. K. Misra und M. S. Kundu. „Ghoongroo pig: A new found animal genetic resource of sub-Himalayan West Bengal, India“. Animal Genetic Resources Information 37 (April 2005): 91–96. http://dx.doi.org/10.1017/s1014233900002005.

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SummaryA breed of pig with distinctive productive and reproductive characteristics has been identified in the eastern Sub-Himalayan region of West Bengal state, India and adjoining Nepal. The breed is known as Ghoongroo (meaning anklet in the local language). The breed is most prevalent within 88° E to 90° E longitudes and 26.3° N to 27.3° N latitudes. Two distinct climates viz., cold moist and hot humid are observed during the year. Farmers manage the animals both under stall-feeding and stall-feeding-cum-grazing systems. Simple housing principally made up of bamboo and jute stick is used with an emphasis on giving protection from the rain.The population in the breeding tract varies depending on market demand. Generally, the population varies from 8 000 to 10 0000. Pigs are black in colour with a compact body, long thick coarse hair, a long tail and an upwardly curved snout. The face is broad and flattened with large, heart shaped ear resembling that of an elephant. Average litter size at birth is11.92±0.06 and a litter size of up to eighteen is not uncommon on a low to medium plane of nutrition. Body weights at birth, five months and one year of age are 1.08±0.22, 38.91± 1.49 and 106.3±0.31 kg respectively, irrespective of sex.This unique germ plasma has the potential to replace exotic breeds from temperate zones currently used in improved pig production programs. However the breed is under constant threat due to indiscriminate crossbreeding with other varieties. Thus the immediate implementation of conservation and improvement programs is essential to salvage the breed.
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Borgohain, Arup, S. S. Kundu, Nilamoni Barman, P. L. N. Raju, Rakesh Roy, Biswajit Saha, P. Ajay, Binita Pathak und P. K. Bhuyan. „Investigation of physical and optical properties of aerosol over high altitude stations along the sub-Himalayan region of North-Eastern India“. Atmospheric Pollution Research 11, Nr. 2 (Februar 2020): 383–92. http://dx.doi.org/10.1016/j.apr.2019.11.010.

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Yari, Joram, Kasinam Doruk, Bogo Rupok, P. Ramamoorthy, Nakeertha Venu und G. Poovizhi Sindhu. „Maize Yield Response to Organic Fertilizers and Biofertilizers in a Sub-Tropical Zone of Eastern Himalayan Region of Arunachal Pradesh, India“. International Journal of Plant & Soil Science 35, Nr. 23 (21.12.2023): 401–6. http://dx.doi.org/10.9734/ijpss/2023/v35i234255.

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A Field experiment was conducted at the Department of Agriculture at Himalayan University, Jullang, Arunachal Pradesh, to assess the impact of composts and biofertilizers on plant growth. The available soil nutrient status were medium in N, High in P and medium in K in study soil.The treatments considered of T1- Control 100 % RDF, T2 - Vermicompost 0.5 Kg/ha + Phosphorus solubilizing bacteria 0.5Kg/ha, T3 – Poultry manure 0.5 Kg/ha + Azotobacter 0.5Kg/ha, T4 – Compost 0.5Kg/ha + Phosphorus solubilizing bacteria 0.5Kg/ha + Azotobacter 0.5Kg/ha, T5 – compost 0.5Kg/ha + Phosphorus solubilizing bacteria 0.5 Kg/ha , T6 – Poultry manure 0.5Kg/ha+ Azotobacter 0.5Kg/ha, T7 – Vermicompost 0.5Kg/ha + Phosphorus solubilizing bacteria 0.5Kg/ha + Azotobacter 0.5Kg/ha.The highest cob plant-1 recorded highest in treatment receiving Vermicompost 0.5 Kg/ha + Phosphorus solubilizing bacteria 0.5 Kg/ha + Azotobacter 0.5 Kg/ha(T7) i.e 1.93. highest cob length recorded 13.80 cm receiving treatment Vermicompost 0.5Kg/ha+ Phosphorus Solubilizing Bacteria 0.5Kg/ha + Azotobacter 0.5Kg/ha (T7).The highest number of cob grain-1 is 394.47 receiving Vermicompost 0.5Kg/ha + Phosphorus solubilizing bacteria 0.5Kg/ha + Azotobacter 0.5Kg/ha (T7) and 12.03 g of test weight were obtained with treatment (T7) receiving Vermicompost 0.5Kg/ha + Phosphorus solubilizing bacteria 0.5Kg/ha + Azotobacte 0.5Kg/ha .
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Dissertationen zum Thema "Eastern Sub-Himalayan Region"

1

Bera, Prasanta Kumar. „Phenotypic and molecular characterization of Siri (Bos indious) cattle breed from Eastern Sub-Himalayan region“. Thesis, University of North Bengal, 2017. http://ir.nbu.ac.in/hdl.handle.net/123456789/2611.

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Buchteile zum Thema "Eastern Sub-Himalayan Region"

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Panda, Subhrajyoti, Yanglem Lakshimai Devi und Prabhat Kumar Pal. „Use and Preference of Medicinal Plants Among Forest Fringe Indigenous Communities in Eastern Sub-Himalayan Region: A Case Study“. In Bioprospecting of Ethnomedicinal Plant Resources, 185–95. New York: Apple Academic Press, 2024. http://dx.doi.org/10.1201/9781003451488-9.

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Doma Lepcha, Lakpa, Biplov Ch. Sarkar, Gopal Shukla und Sumit Chakravarty. „Non-Timber Forest Products: Diversity, Utilization, and Dependency in Fringe Areas of Jaldapara National Park in Indian Sub-Himalayan Region“. In Sustainable Development. IntechOpen, 2023. http://dx.doi.org/10.5772/intechopen.113271.

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Non-timber forest products (NTFPs) greatly contribute to livelihood, development, and poverty alleviation across the tropics. We also assumed that the fringe communities inhabiting Jaldapara National Park (JNP) of Indian eastern sub-Himalayan region largely rely on the NTFPs for their livelihood due to its remote and isolated location with no physical infrastructure and facilities. Multistage sampling technique was used for the study. The sample size was 205 households selected randomly from a sample frame of 10 villages. Descriptive statistics was employed to analyze and summarize the data. A total of 146 NTFP species was documented. The communities relied on their NTFP collection/harvest for food, medicine, firewood, fodder, and other socio-cultural items for household use and cash income. The documented species were further categorized into plant, fish, fungus, and insect. The relative frequency of citation (RFC), value ranged from 0.2 to 0.96 for all categories of NTFPs with average 0.78. Income from NTFPs contributed on an average 45% of the total annual household income of the households. NTFPs provided a natural insurance to households especially during the periods of scarcity. Focused interventions with technical and financial support are recommended to uplift the livelihood of the communities in JNP.
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Searle, Mike. „Roof of the World: Tibet, Pamirs“. In Colliding Continents. Oxford University Press, 2013. http://dx.doi.org/10.1093/oso/9780199653003.003.0016.

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The Tibetan Plateau is by far the largest region of high elevation, averaging just above 5,000 metres above sea level, and the thickest crust, between 70 and 90 kilometres thick, anywhere in the world. This huge plateau region is very flat—lying in the internally drained parts of the Chang Tang in north and central Tibet, but in parts of the externally drained eastern Tibet, three or four mountain ranges larger and higher than the Alps rise above the frozen plateau. Some of the world’s largest and longest mountain ranges border the plateau, the ‘flaming mountains’ of the Tien Shan along the north-west, the Kun Lun along the north, the Longmen Shan in the east, and of course the mighty Himalaya forming the southern border of the plateau. The great trans-Himalayan mountain ranges of the Pamir and Karakoram are geologically part of the Asian plate and western Tibet but, as we have noted before, unlike Tibet, these ranges have incredibly high relief with 7- and 8-kilometre-high mountains and deeply eroded rivers and glacial valleys. The western part of the Tibetan Plateau is the highest, driest, and wildest area of Tibet. Here there is almost no rainfall and rivers that carry run-off from the bordering mountain ranges simply evaporate into saltpans or disappear underground. Rivers draining the Kun Lun flow north into the Takla Makan Desert, forming seasonal marshlands in the wet season and a dusty desert when the rivers run dry. The discovery of fossil tropical leaves, palm tree trunks, and even bones from miniature Miocene horses suggest that the climate may have been wetter in the past, but this is also dependent on the rise of the plateau. Exactly when Tibet rose to its present elevation is a matter of great debate. Nowadays the Indian Ocean monsoon winds sweep moisture-laden air over the Indian sub-continent during the summer months (late June–September). All the moisture is dumped as the summer monsoon, the torrential rains that sweep across India from south-east to north-west.
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