Theses and Dissertations
Permanent URI for this communityhttp://192.168.202.180:4000/handle/123456789/1
Browse
9 results
Search Results
Item Conserving Natural Heritage Through Genetic Assessment : The Case of Snow Leopards in Ladakh(Wildlife Institute of India, Dehradun, 2021) Vishnuvardhan; Jhala, Y.V.; Srinivas, YellapuNatural world heritage sites are landscapes that sustain rare ecological processes, provide crucial habitats for the survival of many iconic species of significance and provide a wealth of ecosystem services. A part of India’s natural heritage lies m its youngest landscape, the Himalayas. This natural heritage is an asset in itself due to its immense intrinsic values. Snow leopard, an elusive inhabitant of the cold desert represents an important cultural and ecological symbol of the Central and south Asian mountain systems and acts as a flagship as well as an umbrella species. This study has been designed to assess the genetic status of this vulnerable species distributed across the union territory of Ladakh using non-invasive genetic methods. The study site comprised of four distinct regions, Hemis-Leh, Kargil, Changthang and Nubra. Putative snow leopard scat samples (N=391) were collected from the study area. DNA was extracted from all the samples and a 148 bp Mt-DNA region was amplified with a carnivore specific primer. Successfully amplified samples were sequenced for species identification. From the 95 snow leopard positive samples 56 individuals were identified using a panel of 10 microsatellites. Sex identification was also done by using AMELY gene and results showed male biased sex ratio in Ladakh. PIDsib value was 3.8x1 O’4 was indicative of sufficient power of the microsatellite panel to discriminate between siblings in a population of 10,000 snow leopards. This study provides a baseline for future comparisons since increased anthropogenic development projects may fragment this contiguous population. Genetic integrity and large gene pools are essential for long term viability of species especially in the advent of climate change and anthropogenic modifications. This study using genetic markers on the snow leopard exemplifies the use of this important tool for natural heritage management and conservationItem Status, habitat use and factors affecting breeding waterbirds of Changthang Wildlife Sanctuary, Ladakh (India).(Wildlife Institute of India, Dehradun, 2020) Mahar, NeerajTourism has evolved as an alternative livelihood for the local people and has reduced their direct dependencies on natural resources and perhaps indirectly contributed towards nature conservation. However, unregulated tourism activities have led to degradation of natural systems and increased the ecological vulnerabilities of local communities. Often, tourism and other developmental activities related disturbances collide with the peak season for several biological processes and affect the ability of natural system to revive and restore itself. In case of waterbirds these disturbance affect the breeding success. Other than anthropogenic activities, domestic dogs, apparently the most abundant carnivores in the world, pose a major threat to local wildlife. Recent studies have determined waterbirds as an important part of their diet. The existing literature clearly suggested that there was a huge information gap regarding Trans-Himalayan wetlands and their avifaunal characteristics. Previous studies were either site specific or species-specific, and thus, landscape level base line data was either scanty or unavailable. The Trans-Himalayan wetlands of India are increasingly under anthropogenic stress which is affecting their ecological structure and functions, especially the breeding birds. Blacknecked crane (BNC) is one of the flagship species of these wetlands. With the above background, I decided to study and understand their ecology and major threats faced by waterbirds and wetlands of Changthang Wildlife Sanctuary (CWLS). The objectives for this work were to (1) assess the population status and habitat use by waterbirds, (2)evaluate the factors affecting the breeding waterbirds, and (3) assess change in the wetland area.Item Status, distribution and foraging ecology of wolf in the north-western Himalayan landscape, India.(wildlife Institute of India, Dehradun, 2020) Shrotriya, Shivam; Habib, Bilal; Jhala, Y.V.The Himalayan wolf lineage is known to have genetic uniqueness, as it might be the oldest diverging population of the wolf-dog clad worldwide. This research commenced with the objectives of 1) understanding nature and pattern of livestock predation by the Himalayan wolf and the attitude of local communities towards them, 2) studying food habits of the Himalayan wolf at the landscape level and its diet niche overlap with sympatric carnivore species, and 3) comprehending the status, distribution pattern and factors determining the distribution of the Himalayan wolf and its prey. The study was conducted in an area of 1,41,391 km2 encompassing Leh and Kargil districts of Ladakh region and Lahaul & Spiti and Kinnaur districts of Himachal Pradesh. There are six high altitude protected areas in the districts of Leh and Lahaul & Spiti. The fieldwork for this study was conducted from 2014 to 2018. The Himalayan wolf occurs along with snow leopard as a major carnivore in the Trans-Himalayan landscape. Red fox Vulpes vulpes is another widespread carnivore of the landscape. In this research, diet patterns, niche overlap and the competition were studied by conducting scat analysis and also generates crucial information on the ecology of rare Himalayan wolf lineageItem An assessment of human-wildlife interactions in the Indus valley, Ladakh, Trans-Himalayas(Wildlife Institute of India, Dehradun, 2012) Chandola, Shivani; Mathur, V.B.The Hemis National Park, in the “Ladakh mountains” Zone 1A, presents such a case of human-wildlife interaction, where the Snow leopard (Panthera uncia) and the Tibetan wolf (Canis lupus chanko) are known to be the major cause of livestock losses to the agro-pastoral communities of this region. On the other hand, the livestock grazing and tourist influx have been cited as challenge for habitat and wildlife conservation. The present study was designed to improve upon the existing knowledge on the human-wildlife interactions in Ladakh. The major objectives of the study were to (i) study the pattern of resource use and its contribution to livelihood of local communities in Trans-Himalayan landscape; (ii) evaluate xi the pattern of conflicts arising from resource use practices by the local communities and its impact on wildlife values; (iii) examine the existing education systems and religio-cultural teachings in their ability to address the conservation issues of the region, and (iv) to examine the existing policy instruments and suggest improvement to minimize such conflicts. The assessment of natural resource dependency and sources of livelihood for the local community residing inside the HNP was carried out during 2005-2006 using data generated through questionnaire surveys, personal observations and secondary sources.Item A study on ethno-flora with special reference to Traditional Health Care System (THCS) in western Ladakh, Jammu & Kashmir.(Wildlife Institute of India, Dehradun, 2013) Angmo, Kunzes; Adhikari, B.S.A study on ethno-flora with special reference to traditional health care systems (THCS) was conducted in Western Ladakh, Jammu & Kashmir (Indian Trans-Himalaya) during 2009-2013. The major objectives of the study were: i) to study and compare the traditional health-care system across major ethnic groups (Boto, Balti and Dards) in Suru, Wakha-chu and Lower Indus valleys, ii) to document the Traditional Knowledge System (TKS) across various ethnic groups, and iii) to assess the conservation status of ethno-medicinal plants in the study area. To meet the objectives of the study a detailed field investigation was undertaken in all the valleys. The field work involved questionnaire survey and group discussions in the three valleys to document traditional healthcare system (THCS), perception of people and allopathic doctors regarding THCS (objective 1); Interviews of local healers and different sections of the society to assess the status of traditional knowledge (objective 2); and Rapid survey of wild medicinal plants across various land forms, habitat and vegetation types so as to ascertain the distribution of ethno-flora across various landforms, and ethnoecology and conservation prioritization of Ethno-flora (objective 3). The study area is located above 2700m altitude and is characterized by unique geographical and socio-cultural attributes. Traditional medicine is one of the tangible heritage of the local people in Ladakh, which has been an indispensable source of both preventive and curative medicine.Item Agro-Pastoral Practices and their impacts on Wild Mammals in Ladakh, Indian Trans-Himalaya(Wildlife Institute of India, Dehradun, 2024) Raza, Mohd; Rawat, G.S.; Namgail, T.This study was conducted in Western Ladakh to address the status of current agro-pastoral practices and possible impacts on the wild mammals. Barley and wheat are primary crops whereas alfalfa and oats are cultivated as fodder crops. Sheep, goat and cow are major livestock types. Communities belong to balti and purig ethnicity. Elevation ranges from 2600 – 7000 m. Vegetation comprises wet meadow, steppe, riverine and scrub. Himalayan brown bear, Asiatic ibex, Ladakh urial, musk deer and long tailed marmot are major wild mammals. Major objectives of the study were to study (i) the current status of agro-pastoral practices in the region, ii) vegetation structure and composition in the rangelands intensively used by domestic livestock, iii) habitat use and time budget wild mammals especial long tailed marmots iv) livestock killing by large carnivores in western Ladakh. Field work was conducted during 2017 -2020 in different seasons and valleys. In order to analyse the recent trends in agro-pastoral practices we used questionnaires and informal interviews with the local people ((519 respondents) in all the valley covering Chiktan (56), Suru (227), Drass (117), Shayok (39) and Gya – Meru (39). Data were collected on demography of the pastoral communities, livestock holding pattern, dependency on rangelands and drivers of changes in the region. Likewise, for objective 2) vegetation sampling was carried out in Drass Valley in varying level of livestock grazing intensity from June – August (2018 and 2019). We laid 245 quadrates, comprising 90 in low, 88 in medium and 67 in high grazing areas. We recorded number of species in each quadrat in addition to overall vegetation cover. We also recorded aspect, slope, elevation and landscape type for each quadrat laid in the area. Plants were identified in field using field guides and were authenticated by the supervisors. Habitat use data on marmot were collected from 51 colonies in two valleys whereas data on marmot behaviour was collected from Drass valley. Overall 88 households were interviewed in the valley. Households were randomly selected and data on number of livestock, livestock killed, season, time and place of occurrences were collected. Attitude of respondents with respect to carnivore was also assessed. We observed declining trend in agriculture and livestock production practices in the region. Ten crop types are cultivated in the region. Barley is cultivated in all the valleys whereas oats is a new addition. Crops such as buckwheat, wheat, peas and lentils has been abandoned by many households. Likewise, livestock population and herd size has decreased. Field work was conducted during 2017 -2020 in different seasons and valleys. In order to analyse the recent trends in agro-pastoral practices we used questionnaires and informal interviews with the local people. The local communities perceive that there is a decline in traditional agro-pastoral practices in the study area during past 2-3 decades and an increase in sightings of wild mammals in the study area. Also, they perceive increase in population of Ibex and bear which are widely distributed in the region. We did not have enough sightings on mammal in the summer except for marmots in the region. Sighting on ibex were mostly in winter season. Therefore, impacts of low use of livestock on ibex populations could not be ascertained. We observed difference in vegetation cover and species richness across varying level of livestock intensity. Decrease in vegetation cover and species number, irrespective of all bio physical parameters was observed in high grazing areas. It signifies the impact of livestock grazing with implication on habitat use by mammals.Item Dogs Finally have their Day? Aspects Changthang Wildlife Sanctuary Ladakh(Wildlife Institute of India, Dehradun, 2019) Subhashini, K.; Kawlni, Lallianpuii; Jhala, Y.V.In a country with increasing numbers of free-ranging dogs that often times foray into wildlife habitats, even their presence has been established as a threat for biodiversity conservation in any landscape. Stated that they pose a problem, the means and extent of the problem needs an understanding of their ecology. This study aims to understand the effect of anthropogenic subsidies on the population, ranging, and subsidy resource usage patterns of free-ranging dogs. Placing subsidies in the centre of the ecology of these dogs, the study also attempts to understand inter-species interactions and potential for dogs to act as disease reservoirs in the unique trans-Himalayan landscape.Item Interaction of Kiang (Equus kiang) with Livestok in Hanley Valley of Chanthang Wildlife Sanctuary, Ladakh(Wildlife Institute of India, Dehradun, 2009) Hussain, Asif; Qureshi, Qamar; Rawat, G.S.Hanley Valley «320 41' 27" N 790 04' 3.5") in Eastern Ladakh forms the western most extension of Tibetan plateau and has been recognized as an important biogeographic province in India (Indian Trans-Himalaya). This region harbors a rich array of wild and domestic ungulates. The area is also home to nomadic Changpa and Tibetan refugee herders. The political, social and ecological transformations have altered previous, well-established links between the pastoral population and their rangeland environment. Over the years, with growing integration of the local economy of Ladakh and with better development of cash markets, the pastoral community is fast losing its tolerance towards the kiang and it is increasingly seen as a competitor to livestock. The purpose of this study was to document this intensifying conflict between pastoralism and Kiang conservation, using resource selection functions. Data on habitat variables were collected on 4 fixed trails of varying length (3- 7 km) for kiang (with and without livestock presence) and livestock for use availability analysis. For food habits, micro-histological method in case of kiang and bite count method in case of livestock was used. Data on activity pattern of kiang was collected to examine change in response to livestock presence. Density and encounter rates were estimated using vehicle transects (n=5) of varying lengths (5-56 km). Livestock were followed (focal animal sampling) from dawn to dusk to estimate amount of forage removed. Availability of different habitat variables was estimated using ArcGIS 9.2. Total of 104 kiang groups before arrival of livestock and 187 kiang groups after livestock arrival to the area were recorded. Habitat use by kiang and livestock was significantly different (8 = 0.00016, P < 0.05). Habitat use by kiang before and after livestock arrival was found to be significantly different (8 = 0.013, P <0.05). Groups of kiang were observed (n=14) for time budget evaluation, 7 prior (640 min) and 7 (820 min) after livestock had come to the area. Activity pattern of kiang before and after livestock arrival was found to be significantly different (8 = 0.04, P <0.05). Food preference for kiang before and after livestock arrival was not found to be significantly different. Food preference for kiang and livestock was significantly different (6= 0.0000007, P < 0.05). Use-availability analysis suggested differential selection for food plants. Schoener's niche overlap for food items found moderate overlap between kiang, sheep and goat «60%) and high overlap between kiang and horse (>80%). Forage removed (kg) by sheep, goat and horse were 2.33 kg, 2.25 and 8.19 kg respectively. Total density and encounter rate for Hanley valley was 0.07 kiang/km2 and 0.45 kiang per km respectively. The difference in habitat use translated into Kiang using higher elevations while livestock used middle elevations more than available. Kiang used steep slopes whereas livestock used steep as well as gentle slopes more than available. Kiang used North-West aspect more than available. Kiang used vegetation communities dominated by graminoides while sheep-goat used communities dominated by shrub and forbs. Density and encounter estimates did not show considerable increase in kiang population compared to previous studies. Hence, the perception of people of kiang overstocking in the study area appears to be misplaced. Detailed perception studies should be carried out in the whole of Changthang and herder-centered participatory programmes need to be carried out on a large scale to ensure long term conservation of kiang in eastern Ladakh.Item Interactions Between Livestock and Ladakh Urial (Ovis vignei vigei)(Wildlife Institute of India, Dehradun, 2003) Raghavan, Bindu; Bhatnagar, Yashveer; Qureshi, QamarThe Ladakh urial is a highly endangered and endemic subspecies of wild sheep. Past hunting pressures had decimated the population to extremely low levels. Recent estimates (1,000-1,500 individuals) suggest a marginal increase in numbers. The Ladakh urial occupies plateaus and gentle slopes along the lowermost elevations in the Indus and Shyok Valleys, areas that are easily accessible and heavily used by humans. This is also the most heavily populated area and due to geopolitical reasons, receives the highest developmental benefits. Due to such changes the Ladakh urial may be highly vulnerable to population decimation. Pastoralism is a way of life in bulk of the Ladakh Trans-Himalaya; a region Where wildlife including endangered species such as the urial and snow leopard are not restricted inside wildlife Protected Areas alone. Such species thus share their habitat with the over 3,00,000 livestock that occurs in the region. Recent studies from the Trans Himalaya have indicated competition with livestock as an important reason for the decimation of wild herbivore populations. This study thus aimed to investigate the interactions between the endangered Ladakh urial and livestock during the winter of 2002-03, a season of resource scarcity. We investigated the habitat selection of the Ladakh urial and its separation with livestock at the level of space, habitat variables and diet, to gather evidence for competition. Four trails were walked 10 times each to obtain information on the habitat usage by the urial and livestock. Further information on livestock use was gathered from the herders using semi-structured interviews and resource maps. Diet of both urial and livestock was investigated by examining recently foraged sites using 10, 1 mX1 m quadrats at each such site. All sightings from the trails were plotted on a 1 :50,000 501 Toposheet. A 500mX500m grid was overlaid on these locations to obtain the grids used exclusively by the urial and livestock and by both together to calculate spatial separation. Both, Ladakh urial and livestock primarily used the mid elevation zones (4,121- 4,400m) with gentle to moderate inclination (<30°). However, along the elevation gradient there was some separation in that the urial used the uppermost elevations to a substantial degree (44%) even during the cold winter season, which livestock avoided.The findings of this study thus show that the habitat and diet requirements of Ladakh urial and livestock sharing the range were similar during the winter season. The relatively high use of the sparsely vegetated uppermost elevations of the range by urial, where the cost of foraging is likely to be higher than the mid-elevations suggests that the urial were excluded from these areas by the livestock. We also reason that the relatively poor young:100 adult female ratio (31:100) may be a manifestation of the stress provided by such competition with livestock and survival in sub-optimal habitats.