Theses and Dissertations
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Item Habitat Characterization and Spatial Distribution of Quercus lanata Sm. in the Kumaon Himalaya(Wildlife Institute of India, Dehradun, 2025) Kaushik, Shikhar; Kumar, Amit; Rawat, G.S.Oaks are climax species which evolved around 56 million years ago. India is home to around 35 species of oaks out of which only 5 species are native to Uttarakhand. In Western Himalaya 3 species make extensive continuous forests which includes Banj oak forest, Moru oak forest and Kharsu oak forest. They show gregarious nature and provide countless ecological and economic benefits to the country. The other two species, Quercus glauca and Quercus lanata are patchy is distribution. For Quercus lanata the Kumaon Himalaya is the western most limit and therefore that species is patchy and shows disjunct population. This study aimed to understand the population, regeneration, habitat characterisation and distribution of Quercus lanata in Kumaon. Descriptive analysis was used to understand the population structure and associate species and maxent modelling was used to develop habitat suitability model. The overall population of Quercus lanata (Rianj) in Kumaon shows a stable and gradually growing trend. Quercus lanata shows a diverse preference to habitat which ranges from northerns moist slopes to drier southern slopes. The significant values from analysed data suggest that its preference at southern slope is comparatively higher. It occurs with Quercus leucotrichophora as well as with Pinus roxburghii. The major co-occurring species with Quercus lanata are Rhododendron arboreum and Myrica esculenta. The developed habitat suitability and generalised linear models helped to understand that elevation and aspect play a significant role in distribution of Quercus lanata. The demand of Quercus lanata for fodder and fuelwood in village area is quite high and therefore requires sustainable practices. As of now Quercus lanata is classified under either Banj oak forest or Moru oak forest which reduces the level of conservation and management this species require.Item Tadpoles with a Trick : Overwintering Ecology of Tadpoles in a Himalayan Stream, Uttarakhand India(Wildlife Institute of India, Dehradun, 2021) Jithin, V.; Das, Abhijit; Johnson, J.A.Overwintering is a unique phenomenon of delaying metamorphosis in amphibian larvae at low temperature conditions prevailing at high elevation and latitude. This study is first of its kind in India to look at selected ecological aspects of overwintering tadpoles of Nanorana spp. in a Himalayan streamItem Patterns of distribution and multiscale-habitat correlates of riverine birds in the upper Ganges, Western Himalaya.(Wildlife Institute of India, Dehradun, 2021) Sinha, Ankita; Ramesh, K.; Jayapal, R.Fauna associated with riverine ecosystems vary considerably at the global scale ranging from obligate terrestrial to obligate aquatic. Birds constitute key components of wildlife along running water systems. 2. The global river bird community is diverse with 66 species, spanning across 19 families with 37 non-passerines and 29 passerines. Asia has the maximum number of species followed by South America and Africa. 3. The global distribution ranges of specialist river birds show that large areas of the world hold few or no specialist riverine birds. Richness peaks in the eastern Himalaya and the Myanmar-China border, around the Kakabo Raazi mountains where more than 15 species of specialist river birds overlap in range. 4. Species richness reflects considerable radiation in particular groups; Muscicapidae (small passerine insectivorous birds mostly belonging to the old world) in Asia, ovenbirds (Funariidae) and tyrant flycatchers (Tyrannidae)in South America, and the Pratincoles (Glareolidae) in Africa. 5. Ecological understanding and conservation efforts of specialist river birds remain rudimentary especially in the tropics where rivers are faced with a host of threats. 6. In this particular study, field surveys were undertaken to understand bird community composition and river habitat characteristics across summer (breeding) and autumn (wintering/non-breeding) seasons in the Bhagirathi basin, a major headstream of the Upper Ganges in the state of Uttarakhand in the western Indian Himalaya between years 2014 and 2018.Item Patterns of structural and functional attributes of alpine meadows of temporal scale in Tungnath, Western Himalaya(Wildlife Institute of India, Dehradun, 2023) Kumar, RahulThe present study was carried out to understand the temporal changes in structural (richness, diversity, of alpine communities, above and belowground biomass, net biomass accumulation/productivity, and carbon density) and functional attributes (Phenology of species recorded) of different alpine plant communities of alpine meadows. This research work has not only generated information on baseline ecological characteristics of species and communities but also provides valuable management implications. The study is summarized in the following paragraphs. The major objectives of the study are: 1. To study temporal changes in composition, structure, and functional attributes across various herbaceous communities, 2. To study the phenological patterns of dominant plant species across various communities in relation to abiotic parameters (rainfall/snowfall and temperature), 3. To assess the patterns of biomass production, carbon storage and sequestration in various communities and temporal dynamics of soil nutrients The study was carried out in Tungnath region of Western Himalaya which lies on outer fringe of Kedarnath Wildlife Sanctuary in the upper catchment of the river Mandakini, a major tributary of the Alaknanda, which finally join the river Ganga at Devprayag. Climate change particularly endangers organisms with fragmented habitat distribution, especially those with narrow ecological ranges, which may lead to extinction. Cold-adapted species are especially vulnerable in high alpine meadows due to rapid warming, potentially exceeding their adaptive capacity. The alpine zone covers 9 % of the total area in Greater Himalaya. In Uttarakhand, there are 5 protected areas encompassing alpine region namely Nandadevi National Park (NP), Valley of Flowers NP, Govind Pashu Vihar NP, and Wildlife Sanctuary (WS), Kedarnath WS and Askot WS of which except Nandadevi NP and Valley of Flowers NP, others are heavily exploited leading to habitat degradation. Exploitative practices such as unsustainable pastoralism, excessive extraction of medicinal plants, pilgrimage pressure, and poorly planned developmental projects are major challenges faced by alpine ecosystems in the Greater Himalaya. Therefore, it is crucial to understand species and community ecology to identify stress mechanisms and develop effective conservation strategies in Greater Himalaya. Numerous studies have shown correlations between temperature, precipitation, productivity, plant interactions, spatial patterns, and species richness in alpine ecosystems outside of the Himalayas. However, knowledge about the Himalayan alpine regions is limited due to their micro-topographic variations, altitudinal gradient, temperature range, and precipitation patterns, which make it challenging to isolate specific variables responsible for environmental-species relationships. These issues can lead to smaller population sizes, habitat degradation, and local extinctions, putting immense stress on alpine meadows. To address these challenges and conserve alpine meadows, it is essential to study sustainable land use practices adopted by local communities and develop conservation plans tailored to specific sites and species.Item Influence of pastoral practices on wild ungulates in Upper Gori Valley, Western Himalaya.(Wildlife Institute of India, Dehradun, 2020) Bhattacharya, Ankita; Rawat, G.S.; Habib, BilalThe alpine meadows of western Himalaya have been used for livestock grazing by a large number of agro-pastoral communities for several centuries (Tucker 1986). Five distinct pastoral practices are prevalent across the alpine landscape in the western Himalaya: nomadic, semi nomadic, nuclear transhumance, trans-migratory and sedentary (resident). Trans-migration (seasonal altitudinal movement by the entire family along with the livestock) is practiced mainly by the Bhotiya communities in various parts of Uttarakhand, such as Byans, Darma, Johar and the upper basins of Alaknanda and BhagirathiItem Detecting climate change impacts through soil bacterial communities in Alpine regions of Gangotri National Park, Western Himalaya(Wildlife Institute of India, Dehradun, 2022) Bhattacharya, Pamela; Rawat, G.S.The proposed study aims to use molecular data to understand the ecology of bacterial community including variation in their diversity, composition and functions in response to climate warming in alpine region of Gangotri National Park, western Himalaya. Earlier to this study, knowledge regarding the ecological traits of these communities and the impact of climate warming was entirely lacking. The primary focus of this work was to generate baseline data on alpine soil bacterial community in the Himalaya. The objectives of this doctoral research are:1. Understanding the shifts in soil bacterial diversity and ecological traits at different periods post deglaciation of Gangotri glacier, western Himalaya. 2. Assessing climate change impacts on soil bacterial diversity and functional traits using alpine elevation-vegetation gradient as proxy. 3. Evaluating the role of temperature and edaphic factors in shaping the community diversity and composition along the elevation-vegetation gradient. 4. Investigating bacterial community response to experimental warming in an alpine.The study was conducted along a recently deglaciated valley in the upper Bhagirathi basin towards the snout of the Gaumukh glacier in Gangotri National Park, western Himalaya (30.95–30.99° N, 78.99–79.06° E)Item Response of small carnivore community to landscape and climatic variability in the Great Himalayan National Park Conservation Area, the Western Himalaya(Wildlife Institute of India, Dehradun, 2022) Bandyopadhyay, Meghna; Ramesh, KThis study will add knowledge about the elusive and lesser-known small carnivores in a gradient of disturbed and less disturbed habitats. Objectives The study focusses on the following objectives: 1) Occurrence and abundance estimation of small carnivores across space and time along the elevation gradient. 2) Assessment of community composition of small carnivores and association with other small carnivore species. 3) Evaluation of landscape sensitivity by representative small carnivore species. 4) Distribution modelling of indicator species to anthropogenic and climatic effects in the current context Study focusses on the arrangements of small carnivores along the elevation gradient in terms of site intensity usage and abundance of small carnivores. Marked (leopard cat) and unmarked (red fox) species were considered and statistical models were used to find the overall abundance and also across the elevation gradient in space and time. demonstrates the coexistence patterns of small carnivores (red fox and leopard cat) in three dimensions; space, time and diet. The niche dynamics was assessed and compared between low human disturbance and high human disturbance areas. Study reveals how the coexistence patterns of small carnivores change with differential human disturbances.Item Foraging ecology of Great-Slaty Woodpecker in and around Pawalgarh Conservation reserve in Western Himalaya(Wildlife Institute of India, Dehradun, 2024) Kaur, Sarabjeet; Gopi, G.V.; Uniyal, V.P.The Great Slaty Woodpecker (Mulleripicus pulverulentus, Temminck 1826) is an old-world woodpecker that prefers mature and old-growth dipterocarp forests (including Shorea robusta, Sal) across its known distribution range. The study reveals population demography, the social system and foraging behavior from logged forest and infer the distribution and home range of the Great Slaty Woodpecker, a cooperative breeding bird species, in and around the Pawalgarh Conservation Reserve in the western Himalaya of Uttarakhand state. This study presents the first census conducted for the Great Slaty Woodpecker, providing an ecological baseline for the species population estimation from its known distribution range. I inferred the home range size of each group based on 161 independent sightings of 11 family groups. These sightings represent behaviors such as foraging, nesting, roosting, vocalizations, and territory defenseItem Ecology and Migratory patterns of the Golden Mahseer, Top Putitora (Hamilton,1822), in Western Himalayas using Radio Telemetry Techniques(Wildlife Institute of India, Dehradun, 2023) Dhawan, Bhawana; Johnson, J.A.; Sivakumar, K.This work is one of the most important and iconic freshwater fish species, golden mahseer Tor putitora (Hamilton, 1822), that provides crucial insights into the assemblage structure, food and space resource of the species, habitat ecology, life-history characteristics and movement ecology of the species. This study is the detailed study of any freshwater fish species in which movement patterns in the streams have been studied using radio telemetry techniques in the Himalayan streams.Item The effect of disturbance-induced changes in vegetation structure and arthropod abundance on mixed-species bird flocks in the oak forests of the Western Himalaya(Wildlife Institute of India, Dehradun, 2024) Satish, Aditya; Page, Navendu; Bangal, Priti; Shahabuddin, GhazalaMixed-species flocks are an interactive group of insectivorous birds that forage together and move in the same direction. Flocks provide foraging and anti-predatory benefits to participants. Habitat disturbance may affect flocks by – a) altering presence or abundance of participating birds in the community or b) altering flocking propensities of species. 2. I investigated the effects of habitat disturbance on flocks in the Western Himalaya of Uttarakhand, India. Disturbance was mediated through two mechanisms – changes in vegetation structure and arthropod abundance (food availability). I examined how these environmental variations impacted flocks at a community level through changes in flock richness, flock size, number of flocks encountered and flock composition. I also explored how flocking propensity (a species-specific tendency to join flocks) is impacted by these variables. 3. Flocks are a subset of the insectivorous bird community. I found that insectivore richness and abundance decreased with reduced structural complexity of vegetation caused by disturbance. Reduced structural complexity also led to a corresponding decline in flock richness, size and number of flocks encountered in disturbed sites. With regards to variation of flock composition with disturbance, I found no clear species-composition-based clustering in transects with similar disturbance levels. 4. There seems to be an interactive link between arthropods, insectivorous birds and disturbance. Disturbance was correlated with strong declines in foliage arthropod abundance, which in turn contributes to lower insectivore richness and abundance. Flying arthropod abundance largely remained constant with disturbance, so I would like to draw 2 attention to the effect of foliage arthropod abundance on flock variables in the following sections. 5. The number of flocks encountered increased with foliage arthropod abundance. Since insectivores in undisturbed sites are supported by a larger prey base, the higher frequency of flocking may be correlated to the larger pool of insectivores that are available to flock at a given time. I did not find significant effects of foliage arthropod abundance on flock richness and flock size. 6. I found that flocking propensity of the three most common species (Gray-hooded Warbler, Black-throated Tit and Green-backed Tit) in flocks showed a declining trend with higher disturbance. I also observed that the propensity of these species showed an increasing trend with higher foliage arthropod abundance. However, none of these relationships were statistically significant. More detailed research is recommended to investigate these preliminary patterns further, to better understand the complex interactions between propensity, disturbance and food availability. 7. To conclude, disturbance was found to have a negative impact on mixed-species flocks, primarily by altering the presence and abundance of insectivorous birds. From a habitat perspective, insectivores suffered declines due to the simplification of vegetation structure. Insectivores also face food scarcity as foliage arthropod abundance decreases. The combined effect of habitat loss and reduced food availability in disturbed sites leads to lower insectivore richness and abundance, which is in turn reflected in fewer, smaller and more species-poor flocks.