M Sc Dissertation(WII)
Permanent URI for this collectionhttp://192.168.202.180:4000/handle/123456789/3
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Item Relocation and Resilience : A Case Study from Sariska Tiger Reserve(Wildlife Institute of India, Dehradun, 2021) Abhishek; Baroth, Anju; Kolipakam, Vishnupriya; Qureshi, QamarRelocation of villages have implications on socioeconomic status of forest dependent people, however studies have often ignored the well-being of people after relocation. Sariska Tiger Reserve has undertaken relocation as one of its key programmes for biodiversity conservation. In my study I took a field work of analysing the ground realities of relocation in Sariska Tiger Reserve. The objectives of the study suggest: (1) documenting the perception of forest department and communities towards relocation. (2) analysing the resilience of communities in “Relocated” and “To be Relocated” sites. My study includes the use of sociological survey techniques including questionnaire survey, semi-structured interviews, observatory analysis, focused group discussion etc. The study was conducted in two relocated sites (1) Rundh Maujpur (2) Bardod Rundh and future projects villages for relocation Kankwari, Haripura, Lilunda and Kraska. 86 households were surveyed in relocated sites and 96 households were surveyed inside the core zone of Sariska. Results of Resilience have been quantified through abstract and non-abstract measurable. The finding in the study shows that, the influence of local inhabitants on relocation process is very limited. Forest department and local authorities need to retrospect their notion of conservation and rethink their plan for relocation.Item Responses of Wild Ungulates to Anthropogenic Pressure and Perception of Local Communities Towards Conservation of Wild Ungulates in Dampa Tiger Reserve, Mizoram India(Wildlife Institute of India, Dehradun, 2021) Chakama, Joonu; Sathyakumar, S.; Kawlni, Lallaianpuii; Kolipakam, VishnupriyaWith the increasing anthropogenic pressures, conservation of ungulates is ever more crucial as they help in maintaining the forest structure. The impact of anthropogenic pressures such as hunting of wild ungulates by local communities in Mizoram, India, is limited and lacks reliable information. This study was conducted in Dampa Tiger Reserve (DTR), Mamit district, Mizoram from January-Mid May, 2021 to quantify the responses of wild ungulates to the anthropogenic pressures, as a measure of conservation efforts. This study focussed on the population and distribution of ungulates in Dampa Tiger Reserve (DTR), Mizoram and assessed how the ungulates responded to human use areas. Stratified systematic sampling was done in an intensive study area (40 km2) to assess the ungulate density, distribution and activity pattern. In addition to that, the perception and attitude of local communities towards wild ungulates were also assessed. Estimates of the distribution, population and activity pattern of ungulates were obtained using single season occupancy model and cameratrap based distance sampling method whereas the local people perception and attitude were analysed based on answers from the semi-structured interview. The study was carried out on the Teirei and Phuldungsei range of the DTR. A total of 40 grids (1 km2 each) were sampled following the above framework. The grids were sampled using Camera-based distance sampling for population estimation in which the cameras were placed at the centroid of the grid. The density of the ungulates in two areas (high and low human use) could not be compared as the anthropogenic disturbance was homogenous throughout the study area. However, the pooled density of wild pig (0.55±0.23) was the highest among the other species, followed by barking deer (0.28±0.06) and sambar (0.20±0.09). The activities of the ungulates were at the peak from the crepuscular period to early morning and late evening. Occupancy pattern showed that barking deer distribution was influenced by the food availability/ground cover including areas near human habitations whereas sambar occurrence was negatively influenced by non-forest and presence of anthropogenic disturbance. Perception survey revealed that villagers showed positive perception towards ungulate conservation, however, in contrast to these responses, conservation practices in DTR by the local communities still lacks as intensive hunting still prevails. This study highlights the impact of anthropogenic pressure towards ungulates and how strengthen management interventions is necessary to ensure the conservation of ungulates in DTR.Item Comparative Analysis of Abundance Estimation Methods for Ungulates Along with their Spatio-Temporal Interaction and Habitat use in Pakke Tiger Reserve, Anunachal Pradesh(Wildlife Institute of India, Dehradun, 2021) Singh, Tarun; Kolipakam, Vishnupriya; Qureshi, Qamar; Sathyakumar, S.Abundance estimation and habitat utilization of species are critical for the conservation of any species. The forests of North-Eastern India are challenging due to the low abundance of ungulates, dense undergrowth, and logistic feasibility. In this study, we attempt to use camera trap-based methods (distance sampling and random encounter model) to estimate the abundance and habitat use of five ungulate species in the Pakke Tiger Reserve of western Arunachal Pradesh. This study was conducted from February 2021 to May 2021.This study provides crucial information on abundances and habitat use, which can be used for focussed conservation efforts for ungulates occurring in low densities.Item Investigating the Social Structure of Female Asiatic Lions(Wildlife Institute of India, Dehradun, 2019) Borah, Doli; Kolipakam, Vishnupriya; Jhala, Y.V.In this study the social structure of lion prides in the Gir landscape through behavioural observation discussed. the study was carried out in and around Gir protected area of Gujarat. In India the Gir forest only has the last free ranging population of Asiatic lion.Item A Forked Relationship : Understanding the Acoustic Communication Strategies in Sympatric Drongos(Wildlife Institute of India, Dehradun, 2019) Lahiri, Sutirtha; Qureshi, Qamar; Kolipakam, VishnupriyaThe competitive exclusion principle states that ecologically similar species cannot co-exist and will either go extinct or develop diverging traits, the concept of environment filtering regards the environment. Patterns of trait divergence vary depending on whether the species occur in sympatry or in allopatry. Sympatry is defined as the co-occurrence of more than one species in the same geographical area with overlapping ranges. If closely related species occur in sympatry, competition is likely to shape divergence in their ecological as well as in the sensory domain, example acoustic signals. Diverse animal taxa employ acoustic signals for a variety of functions including mate choice, species identification, resource defence and other ecological and social functions. The primary aim of an acoustic signal is to efficiently communicate information over relatively long distances. This information, however, is subjected to changes and distortions imposed by the physical structure of the habitat, as well as masking interference from co-occurring signals of other acoustically communicating species. Masking interference by background noise or the simultaneously vocalization of other species- especially ones closely related- incur several disadvantages to the vocalizing individual. Signals with similar features have a high potential of interference for the species vocalizing, as well as for the receiver interpreting it. These disadvantages- or costs- could be the failure to respond to appropriate signals and the unnecessary response to territorial or mating signals not meant for them. However, a number of animals communicate successfully even in noisy and crowded environments, and can locate mates with relatively high success rates. This suggests the presence of powerful strategies to deal with the transmission, detection and recognition of relevant signals. To avoid acoustic competition due to the effect of masking interference, animals partition the acoustic resource in the temporal, spatial and spectral domains. Closely related species tend to be physically and behaviourally more similar than distantly related species, and are likely to possess similar songs and singing behaviour. The relationship between phylogenetic relatedness and trait similarity is investigated by quantifying what is called the ‘phylogenetic signal’- the tendency of related species to resemble each other more than is expected by chance. As a result, acoustic interference is likely to occur more often among closely related species, and they may evolve divergent signals to compensate. Drongos (Dicruridae) are a group of highly vocal passerines known for their vocal plasticity. There is a great extent to which their vocal repertoire can range in terms of diversity and function. Apart from having a wide range of species-specific repertoire, drongos are also mimetic species known to mimic the calls of conspecifics as well as other animals present in their environment. This study, conducted in Dehing Patkai Wildlife Sanctuary, Assam, focused on the four species of sympatric drongos- the Hair-crested Drongo, Lesser Racket-tailed Drongo, Greater Racket-tailed Drongo and Bronzed Drongo- and how they partition their acoustic niche. The study also looks into the ecological adaptations to counteract the impact of masking interference by habitat and closely related congeners. Active acoustic recording was done to record the four species of drongos in the study area. Line transects were walked along trails to calculate the density of each drongo species. Passive acoustic recorders were used to study the vocal activity patterns in the drongos. The study found evidence of overlapping acoustic niche between the drongos. However, they were significantly different from each other in the individual acoustic parameters. The drongos also occupied separate height classes, barring the lesser racket-tailed and the greater racket-tailed drongo. However, the drongos did not separate in their vocal activity pattern, suggesting overlap in the diel pattern. The study thus gives insight into the acoustic space of a group of highly versatile bird as well as the strategies they adapt to avoid interfering each other and thus co-exist