Theses and Dissertations

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Author: search.filters.author.Uniyal, V.P.Subject: search.filters.subject.Community structure

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    Community Structure of Dung Beetles in Kailash Sacred Landscape, Pithoragarh, Uttarakhand, India
    (wildlife Institute of India, Dehradun, 2020) Chauhan, Mona; Uniyal, V.P.; Chandra, Kailash
    Due to the recent wave of urbanization, mountain areas are being transferred into urban and agriculture land at alarming rates. The Kailash Sacred Landscape, Pithoragarh, Uttarakhand, India is highly vulnerable due to fragmentation and urbanization, including increased anthropogenic disturbance, reduced area, loss of habitats, invasion of new species and ecological transformations. Therefore, it is important to document the status of biodiversity prevailing in these areas to identify the level of biodiversity still left in forest fragments. No records exist about the community structure of dung beetles in the landscape and hence we lack crucial historical documentation of the natural communities in landscape which would remain as an important source of information for measuring species extinctions in the area. This study provides basic inventory and diversity pattern of dung beetles from the undiscovered area of the Kailash Sacred Landscape, Pithoragarh, India. This study also suggested bioindicator based ecological monitoring and excellent insight for future conservation and management planning which will help the managers to set priority areas for habitat improvement or restrict areas to deteriorate any further. The study area is Kailash Sacred Landscape (KSL), Pithoragarh, India part exhibits great variability and heterogeneity in altitude and topography, due to this ecosystems of this region vary widely from subtropical to temperate, alpine, and cold high altitude desert types. Similarly, the landscape harbors a high diversity of flora and fauna of both regional and global significance.
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    Soil Nematode community structure along elevational Gradient in Bhagirathi Basin, Uttarakhand - A Morphological and Molecular approach.
    (Wildlife Institute of India, Dehradun, 2021) Kashyap, Priyanka; Uniyal, V.P.
    Gangotri National Park (GNP) is a protected area and has fewer human disturbances, allowing soil nematodes to diversify. However, it has harsh climatic conditions at high altitudes, which may hinder the nematode community structure. Systematic study of the soil inhabiting nematodes associated with forest vegetation of Gangotri National Park is discussed in this thesis. A compiled inventory of the soil nematode genera recorded from GNP during this study has also been provided in this thesis. A total of 62 nematode genera and fifteen species were identified from high altitude region of GNP. vegetation type is a significant factor for soil nematode diversity as every vegetation type has a different local environment and physicochemical properties that affect the soil biota, specifically soil nematodes being present at various trophic levels in the soil food web. Among the various vegetation types in Gangotri National Park's high-altitude areas, there are substantial differences in the taxonomic composition, the energy flow channels, and nematode community structures, which provide actual examples for understanding the role of soil nematodes in key soil ecological processes in the region. This study is a pioneer study in the region evaluating the effect of vegetation type on soil nematode diversity therefore, more similar studies are required to comprehend the relationship between nematode diversity and soil ecosystems of high altitude vegetations.
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    Systematics and diversity of spiders (Araneae) in Nanda Devi Biosphere Reserve
    (Wildlife Institute of India, Dehradun, 2011) Quasin, Shazia; Uniyal, V.P.
    The present study was carried out in Nanda Devi Biosphere Reserve (NDBR), Uttarakhand, India, which is located in the northern part of the Western Himalaya in India, one of the important sites of wilderness and biodiversity in the Himalayan region. This study was selected for its conservation value, representation of biome and little existing information. The present study was conducted from January 2008 to July 2011. The study aimed to investigate the spider community structure along the altitudinal gradient and the influence of habitat covariates like vegetation types, ph, litter depth, humidity and temperature, on spider assemblages in the intricate landscape of the NDBR. The pattern of species diversity was explored using a set of standard methods and ecological indices. This study obtained the first comprehensive representation of the spider fauna in NDBR, which would help in assessing the status of spider diversity in the region keeping in mind its conservational value. This study revealed the relative importance of diverse habitat types on diversity and composition of spider assemblages in NDBR.
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    Patterns of Bird Community Structure in Relation to Land-Use Driven Habitat Changes in the Arid Grasslands of Thar Desert
    (Wildlife Institute of India, Dehradun, 2019) Kher, Varun; Dutta, Sutirtha; Uniyal, V.P.; Page, Navendu V.
    The Indian Thar desert has seen a massive loss of grassland habitat in the last few decades. The main driver of this habitat loss has been the large-scale change in landuse from pastoralism to agriculture, leading to expansion of cultivated land over grasslands. This expansion, further compounded by a simultaneous rise in livestock population has drastically increased grazing pressure on the remaining rangelands. To complicate things further, irrigation schemes (notably the Indira Gandhi Canal) have led to intensification of agriculture in many areas. Protected area network in this landscape is minimal and ineffective, making the multiple-use agro-pastoral landscapes very important for conservation of wildlife. The largest protected area in the landscape – the “DNP WLS” – is also a multiple-use landscape and home to more than 50k people whose livelihood is tied to the federal mandate of conservation in the sanctuary. 1. Understanding the impact of land use change on native biodiversity is thus very important for conservation of biodiversity in this critical habitat. In this context, my study tries to find effects of land-use change on community structure of birds in the arid grassland of Jaisalmer district in the Thar Desert. 2. Understanding ecology or distribution and abundance of species is incomplete without holistically understanding the patterns and processes occurring at the community level. To this end, I explored the patterns of bird community structure in the Thar Desert and tried to understand how these properties change with land-use driven habitat change, by comparing fundamental properties of biological communities like species richness, abundance and composition. Additionally, I tried to find out potential habitat correlates of these properties, so as to shed some light on the processes that might be driving community assembly in response to land-use change. 3. Bird community structure: My results indicate that local-scale species richness,abundance and composition did not differ significantly between protected grasslands, rangelands and extensive rain-fed croplands, during either of the seasons. However, intensive irrigated croplands had a notably different community structure with higher species richness and abundance, during both winter and summer. The change is community structure of intensive croplands was influenced by the change in native species along with ingression of newly colonised species. Most of the newly colonised species were restricted to areas with intensive agriculture where their survival was potentially facilitated by the new microhabitats created by irrigation and associated changes (Rahmani & Soni, 1997). 4. Regional species pool: Intensive agriculture increased the overall species of birds in the region by sustaining newly colonised bird species; while the number of native species in this pool was only marginally lower than protected grasslands and comparable to all the other land-uses in both the seasons. Considering both the seasons together, protected grasslands had the highest naïve and estimated number of native species while the naïve and estimated number of native species in other three land-uses – Rangelands, extensive croplands and intensive croplands – was only marginally lower. This signifies that most species found in the region can use the entire gradient of land-use types at their current levels of intensification. Although this result by itself does not indicate that, all land-use types can sustain all the native species. 5. Seasonality of patterns: In winter, protected grasslands, rangelands and extensive croplands had similar bird communities, which together were significantly different from the communities in intensive croplands. The same pattern repeated in summer, but the magnitude of difference between bird communities in intensive agriculture and other land-uses was much lower. This pattern was correlated to the pattern shown by vegetation structure of intensive agriculture, which also became more similar to other land-uses after harvesting of crops in the summer. This potentially suggests that bird communities are influenced by vegetation structure and areas with similar vegetation structure would have similar bird communities. 6. Habitat correlates of species richness and bird community composition: In both the seasons, species richness was positively associated with the foliar volume of woody vegetation and negatively associated with forb volume (which in turn was negatively correlated with grass volume). During winter, species richness was positively related to crop volume and during summer, with compositional diversity of vegetation. Community composition like richness was influenced significantly by woody plant foliar biomass in both the seasons. Crop volume also had a significant influence on bird communities during both winter and summer, whereas grass volume was significantly influential only in winters. Conservation implications: This study corroborates many others in indicating that low-impact land-uses are important secondary habitats for conservation of grassland species (Dutta & Jhala, 2014; Wright, Lake, & Dolman, 2012). The inferences further support the commonly advocated approach of conserving grasslands at a landscape scale by strategically placing them as mosaics of low-impact agro pastoral land-use with small protected areas embedded within them (Dutta & Jhala, 2014; Dutta, Rahmani, & Jhala, 2011; Singh et al., 2006).