Theses and Dissertations
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Item IMPACTS OP HABITAT FRAGMENTATION ON THE TERRESTRIAL SMALL MAMMAL COMMUNITIES IN THE TROPICAL RAIN FOREST OP THE ANAIMALAI HILLS IN THE WESTERN GHATS, SOUTH INDIA(SACON, 1998) Prabhakar, A; Kumar, AjithThe loss and fragmentation of the species-rich tropical rain forests is the most serious conservation crisis currently facing us. In the Western Ghats in south India as much as 40% of the forests was lost between 1920s and 1990s, with a 17-fold increase in forest patches. Such fragmentation of forests leads in the long run to loss of species due to the problems faced by small isolated populations, the cascading effects of the changes in the micro and macro climate, and the effects of invading species. The goal of this study was to make an assessment of the changes in the small mammal community due to the fragmentation of their rain forest habitat in the Western Ghats. The study animals included rodents of the Families Muridae and Muscardinidae, and shrews of the Order Insectivora. The specific objectives were: (a) to evaluate the differences among rain forest fragments in the community structure of small mammals, in relation to macrohabitat features of the forest fragments; (b) to examine the synchrony among forest fragments in the seasonal variation of several demographic parameters; and (c) to identify species differences in microhabitat preferences and examine their relevance to the changes in community structure due to habitat fragmentation.Item IMPACTS OF HABITAT FRAGMENTATION ON THE ARBOREAL MAMMALS IN THE WET EVERGREEN FORESTS OF THE ANAMALAI HILLS IN THE WESTERN GHATS, SOUTH INDIA(SACON, 1998) Umapathay, G; Kumar, AjithHabitat fragmentation is the most severe threat to biological diversity and is the primary cause of the present species extinction crisis. Small populations in fragments are highly prone to extinction due to demographic and evironmental stochasticity, disease and catastrophes. Long term degeneration of habitat might also add to this extinction. In south India, wet evergreen (or rain) forest is confined to the Western Ghats mountains. Human activities such as plantations of tea, coffee, teak, etc., and construction of roads, railways, and reservoirs during the last two centuries have led to extensive loss of these forests. More importantly, the remaining forest has been severely fragmented. The impact of forest fragmentation is expected to be particularly severe among the arboreal mammals due to loss of arboreal connectivity between forest fragments. In this background, the objectives of this study were; 1) To assess the extent to which arboreal mammals disappear from wet evergreen forest fragments with respect to various landscape and habitat parameters associated with forest fragmentation; 2) To identify changes in their activity pattern and feeding ecology; 3) To examine changes in demographic parameters of these species in relation to habitat fragmentation; and 4) To examine species differences in their response to forest fragmentation and to suggest appropriate measures to enhance the survival of arboreal mammals in forest fragments.Item Ecology and behaviour of travancore tortoise (Indotestudo travancorica) in the Anamalai Hills, Western Ghats.(Wildlife Institute of India, Dehradun, 2012) Deepak, V.; Vasudevan, Karthikeyanthe study was decided to be carried out in two protected areas namely the Anamalai Tiger Reserve and Parambikulam Tiger Reserve. Located in the southern Western Ghats. This study investigated the proportion of the site occupied by Travancore tortoises, their diet, home range, activity and habitat use. The findings of this study along with the existing information were used to formulate a conservation action plan for Travancore tortoise.Item Effect of land use change on the habitat and abundance of Grizzled giant squirrel in and around Srivilliputhur-Meghamalai Tiger reserve, Srivilliputhur Division, Tamil Nadu(Wildlife Institute of India, Dehradun, 2024) Bevoor, Shilpa; Gopi, G.V.; Kher, Varun; Goyal, S.P.Human activities, especially energy extraction and food production, have drastically altered the global environment, impacting many wild species. Since 1990, around 420 million hectares of forests have been lost mainly due to agricultural conversion, significantly affecting biodiversity. In biodiversity hotspots like India's Western Ghats, agricultural expansion, monoculture plantations (tea, coffee, rubber), and non-timber forest product harvesting have fragmented protected areas, altered plant communities, disrupted nutrient cycles, and reduced carbon sequestration. While monoculture plantations reduce biodiversity, they can still provide habitats for some threatened species. Wildlife such as nilgai, blackbuck, elephants, and giant squirrels in India have adapted to these altered landscapes for food, water, and shelter, demonstrating resilience amidst habitat changes. This study focuses on the impact of converting barren lands into mango and coconut plantations around the Srivilliputhur-Megamalai Tiger Reserve in southern India on the grizzled giant squirrel population and habitat. Over the past three decades, these changes have enhanced connectivity between natural forests and agricultural areas, offering energy-rich fruits that attract wildlife, including GGS. This shift has altered ecological dynamics, making wildlife more reliant on cultivated foods and affecting their movement patterns. Density estimates reveal higher concentrations of GGS and nesting sites (dreys) in plantations compared to protected areas, with mixed plantations showing the highest densities due to the availability of nesting sites and year-round fruiting trees. Seasonal variations in GGS distribution highlight preferences for specific tree species based on fruit availability and habitat characteristics. The study also examines drey site preferences, noting GGS preference for mango trees in plantations over coconut trees due to structural attributes that provide better support and protection. These findings underscore the species' adaptation to plantation environments while emphasizing the critical role of specific habitat features for nesting and overall habitat suitability. Local farmers report conflicts with GGS due to crop damage, particularly affecting coconut, mango, tamarind, and other fruit-bearing trees. Perceived economic losses from GGS feeding habits often exceed actual damage levels, emphasizing the need for accurate assessment and targeted mitigation strategies to reduce conflict. Conservation implications stress the importance of maintaining critical habitats within protected areas, establishing buffer zones between plantations and natural forests, and promoting biodiversity-friendly practices in monoculture plantations. Community-based conservation efforts and adaptive management strategies are essential for mitigating human-wildlife conflicts and ensuring the sustainable coexistence of GGS and agricultural livelihoods in this biodiversity hotspotItem Responses of Raninforest Lizard Communities to Tea Plantation Edges in the Anamalai Hills of Southern Western Ghats India(Wildlife Institute of India, Dehradun, 2013) Malgaonkar, Aditya, S.; Habib, Bilal; Vasudevan, KarthikeyanHuman-made edges are an omnipresent form of altered habitats across the entire Western Ghats landscape. Furthermore a diverse range of edge types exist differing in the structure and composition of their altered surrounding habitat. Only a few attempts have been made to study the influence of the structure of this adjoining habitat or the 'matrix' on edge effects. Understanding the influence of different matrix habitats on edges will lead to the better understanding of the abiotic and biotic influences of the matrix on forest edges. Vegetation structure and composition has been the subject of several studies pertaining to fragmentation as well as effects of edges and both primary as well as secondary responses to edge effects have been documented. It has also been noted that while the reduction in plant species richness may occur as a result of decreasing forest area, it is more likely that this could be the result of increasing perimeter to area ratio resulting from fragmentation and increased proportion of area exposed to edge effects. The abiotic as well as biotic changes which affect vegetation not only bring about structural changes such as those in canopy cover, vertical stratification, density etc, but also affect functional aspects of plant communities such as pollination, seed dispersal and germination. Faunal communities respond in various ways to changes in their habitat; these may include changes in abundance, species richness, structure and composition of communities as well as behaviour of individual species. With respect to edge effect these changes or may vary in their magnitude and the distance or depth to which they penetrate into the interior. Magnitude and depth of influence are two complementary but distinct aspects of edge effects. Magnitl1de of influence is the degree to which a response value (a biotic or abiotic variable used to measure edge effects) differs between the edge and the interior while depth of influence if the maximum distance to which edge effects percolate into a habitat. However. A large amount of research on this topic has been restricted to birds and mammals and the responses shown by them might not be representative of the responses of other lesser known taxa.Item Environmental Influences on Space Utilisation and the Activity Budget of Captive Leopards (Panthera pardus fusca) in Five Zoos in Southern India(Wildlife Institute of India, Dehradun, 1999) Mallapur, Avanti; Chellam, Ravi; Qureshi, QamarA behavioural study was conducted on leopards in five zoos situated in Thiruvananthapuram, Chennai, Mysore and Bangalore between November 1998 and March 1999. Twenty six leopards were studied in five zoos of which sixteen were singly housed and ten were housed in groups. There were 16 males and 10 females. Only three of the 26 animals were captive born, 10 were captive reared and 13 were wild caught. Fourteen singly housed leopards were studied in on-exhibit and off exhibit enclosures on days with visitor presence and also on zoo holidays, two singly housed leopards were studied in the off-exhibit enclosures only. The group of ten at Bannerghatta Zoological Gardens, Bangalore was studied only in the on exhibit enclosure. Scan sampling method was used to record the behavioural patterns in leopards. The ethogram, which consists of all behaviour observed in five zoos lists 12 behavioural states and 29 behavioural events. The leopard enclosures were divided into imaginary blocks and the utilisation of these grids by the leopard was recorded alongwith behaviour at five-minute intervals. . Each leopard was studied for two days on-exhibit. two days off-exhibit and one zoo holiday. The leopard at Childrens' Park. Guindy was also studied for two excess visitor days during the Pongal festival. Information on each leopard was obtained from zoo records. No significant difference in behaviour was observed between males and females. and wild caught and captive-reared individuals. The behavioural repertoire of female leopards was significantly associated with their period of anoestrus. Stereotypic pacing was found to increase with enclosure size. Leopards housed in larger enclosures exhibited higher levels of activity and stereotypy behaviour. Smaller enclosures housed leopards that rested for longer proportions of time. Activity and resting behaviour peaks in the daily activity budget of the leopards were due to their crepuscular nature. The peaks in stereotypic behaviour in the daily activity budget were influenced by zookeepers' presence. Food-anticipatory behaviour was observed in all leopards before and during feed time. Individuals that were studied on-exhibit and off-exhibit exhibited higher levels of stereotypic behaviour off-exhibit and higher levels of activity behaviour on-exhibit. The presence of visitors also influences the behaviour repertoire of captive leopards. All singly housed leopards studied on days with visitor presence and zoo holidays exhibited higher levels of activity on zoo holidays and higher levels of resting behaviour on days with the presence of visitors. Six individuals were studied singly and then as pairs. The proportion of activity and resting behaviour exhibited when they were housed in pairs was higher and stereotypic behaviour, though not statistically significant, was lower than when they were singly housed. The utilisation of space differed between singly and group-housed leopards. Singly housed individuals utilised the "edge" and "back" zones of their enclosures more and the sructurally "enrich" zone less than group-housed leopards. Most of the leopards utilised the "edges" of their enclosure for stereotyping. the "back" zone for resting and the "rest" of the enclosure for activity behaviour. The structural features found within the enclosures that housed leopards were of two categories; sleeping platforms. trees and sheds that stimulated resting behaviour and logs. snags and tree trunks that stimulated activity behaviour. In enclosures that were structurally enriched with sleeping platforms, sheds or trees, leopards utilised the "enrich" zone of the enclosure for resting instead of the "back" zone. Enclosures having logs and snags. the "enrich" zones is utilised to exhibit activity behaviour. The utilisation of the structurally enriched zones of the enclosures was positively correlated with enclosure complexity. Leopards in structurally enriched enclosures exhibited higher levels of activity and lower levels of resting than the barren enclosures The factors that were found to influence the behavioural repertoire of captive leopards have been taken into consideration while recommending environmental enrichment techniques for the renovations of old enclosures and the construction of new ones.