PhD Theses (WII)
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Item Habitat ecology of Royl’s Pika (Ochotona royleiogilby) along altitudinal grandients with special reference to foraging behavior in Western Himalaya, Uttarakhand.(Wildlife Institute of India, Dehradun, 2012) Bhattacharya, Sabuj; Adhikari, B.S.; Rawat, G.S.The relationship of a species with its environment has always been of primary interest among ecologists. The species living in highly seasonal environment and special habitats at high altitudes reflect peculiar evolutionary and adaptive behavior. The small mammals living at high altitudes such as pikas (Ochotona spp.) are of particular ecological interest as they exhibit high energy demands, limited dispersal capability and sensitivity towards climatic variation. Though seven species of pika are reported from the Himalayan region, none of the species have been studied in terms of their ecology and response to environmental variation. Keeping this in view, Royle's pika (Ochotona roylei), a small lagomorph and widely distributed in western Himalaya was selected to understand its habitat use pattern and behavioural ecology. The objective of the study were: (i) To characterize micro-habitat features associated with Royle's pika along a subalpine alpine ecotone and identify the factors which governs its occurrence (ii) To study the topographical and bioclimatic factors affecting its land scape level distribution (iii) To understand factor governs abundance of Royle's pika along altitudinal gradient, (iv) To document behavioural repertoire of Royle's pika in various season. (v) To study the influence of habitat micro climatic condition on activity of Royle's pika, (vi) To identify the tactors which governs the food selection decision of Royle's pika.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 The Spatial Ecology and Conservation of Seagrasses of the Gulf of Kachchh, Gujarat(Wildlife Institute of India, Dehradun, 2024) Pathan, Sameeha Vahedkhan; Sivakumar, K.Seagrass ecosystems provide ecosystem services that rank among the highest in economic valuation worldwide. They also provide a range of economic, social, and environmental goods and services, which greatly increase coastal communities' resilience to the impacts of climate change. As unique marine habitats, seagrass ecosystems provide shelter and food for marine species during different life stages and contribute to sediment accretion and primary production. The high diversity of marine plant and animal life supports tourism activities and provides the raw materials for medicinal, agricultural, and structural applications. Furthermore, the physical structure of seagrass ecosystems attenuates wave height and speed, protecting coastlines from erosion and storm surges. Threats to seagrass ecosystems in the coastal areas of the Gulf of Kachchh include pollution, rising sea levels, eutrophication, reduction of light intensity and die-back. These all negatively impact seagrass ecosystems, such as increasing growth of epiphytes, sediment anoxia, or increased prevalence of diseases. Further, the effects of climate change on seagrass ecosystems will be additional stressors. The underlying factors affecting seagrass ecosystems are direct human pressures such as pollution, disturbances, and eutrophication. The combined stressors – human pressures and climate change impacts – are likely to exceed the thresholds for seagrasses, leading to, among other things, i) redistribution (reduction and coastal migration) of existing habitats and ii) widespread seagrass ecosystem die-off. In this context, this study was conducted between January 2018- March 2022 and aimed to understand the phenology, biomass and spatial distribution patterns of seagrasses of the GoK, using which I attempted to understand the foraging behaviour, habitat use and movement ecology of dugongs in the Gulf of Kachchh. The major objectives of the study include a) Mapping the distributional characteristics and patterns of seagrass meadows in the southwestern GoK, b) understanding the seasonal variations in the abundance of seagrasses on topographically distinct meadows, c) investigating fine-scale and topographical determinants of dugong habitat preferences and d) to assess the role of semi-diurnal tides' influence on dugong foraging habitats.