Theses and Dissertations
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Item A study on predation ecology of large carnivores with special reference to human-carnivore conflicts in Pench Tiger Reserve, Madhya Pradesh, Central India(Wildlife Institute of India, Dehradun, 2022) Chatterjee, Anindita B.; Sankar, K.; Qureshi, Qamar; Jhala, Y.V.Seven years of data (2008 – 2015) resulted in phot-capture of 96 unique individual tigers in the study area. The estimated survival rate of individual tigers was high. Survival of female tigers were higher than that of the male tigers but the range was overlapping. Apparent survival and transitional probabilities were best explained by gender specific models. Survival constant was selected as the best model for estimating growth rate of tigers. Calculated annual growth rate was 13% with no observed sex bias.Item Tiger and leopard: Population ecology and resource portioning of sympatric carnivores in Kanha Tiger Reserve. M.P.(wildlife Institute of India, Dehradun, 2020) Kumar, Ujjwal; Jhala, Y.V.; Qureshi, QamarLarge investment in the form of protected areas, human resettlement, law enforcement-patrols and habitat management are made to conserve tigers and reap their benevolent umbrella role to secure India’s biodiversity. The objectives of present study are (i) the trend of tiger and leopard population (ii) demography of tigers and leopards and mechanism of their co existence. The study area was Kanha tiger reserve (area 2074 km2), a major stronghold for both species in central Indian landscape. Study investigate the estimated vital parameters of tiger demography through robust design based classical open population models in which population was open to demographic process. This study used both camera trap based mark-recapture and continuous monitoring known fate information to estimate reproductive parameters along with age specific survival and dispersal probability of tigers.Item Resource partitioning among sympatric ungulates in Kanha Tiger Reserve, Madhya Pradesh, India.(wildlife Institute of India, Dehradun, 2021) Awasthi, Neha; Jhala, Y.V.; Qureshi, QamarThis study explores the potential mechanisms of how the community of sympatric ungulates in Kanha might partition resources by evaluating i) habitat-specific seasonal densities and spatial co-occurrence of ungulates; ii) demographic parameters; iii) temporal activity and food habits of ungulates and; iv) factors affecting their group size. The study area was ~ 2074 km2 Kanha Tiger Reserve comprising inviolate Kanha National park (core zone; devoid of human settlements and use) and the multiple-use area (buffer zone; consisting of forest and xviii revenue land, used by rural communities for farming and livestock rearing). The study stresses the importance of human free core areas and the need for conservation investments for achieving high ungulate densities and biomass that are essential to sustain source populations of tigers and other endangered carnivores in this landscape.Item Aspects of Sloth bear (Melursus ursinus) Ecology in Sanjay Tiger Reserve, Madhya Pradesh(Wildlife Institute of India, Dehradun, 2022) Chaudhuri, Sankarshan; Sathyakumar, S.; Sankar, K.; Qureshi, QamarThis study was conducted to identify the aspects of the ecology of sloth bear. I conducted the fieldwork for this study for three years (2017-2019). The broad objectives of this study were: 1. To estimate the occupancy and abundance of sloth bears and identify environmental and anthropogenic factors which influence the same 2. To assess the space use patterns by sloth bears in terms of habitat use and den selection 3. To investigate the seasonal diet patterns of sloth bears 4. To assess the human-sloth bear conflict based on spatio-temporal interaction.Item Behavioural patterns and food habits of re-introduced gaur (Bos gaurus gaurus) in Bandhavgarh Tiger Reserve, Madhya Pradesh.(Wildlife Institute of India, Dehradun, 2015) Manjrekar, Manas P.; Sankar, K.; Qureshi, QamarThe present study was designed to study the behavioural patterns and food habits of the reintroduced gaur population in Bandhavgarh Tiger Reserve. The study was carried out from March 2012 to February 2014. For the collection of data on the behavioural patterns of gaur the scan sampling technique was used and 13 distinct activities of gaur were identified viz. feeding, moving, resting, standing, autogrooming, allogrooming, sexual behaviour, aggressive behaviour, drinking, salt licking, vocalising, defecating/urinating and alert behaviour. In the present study the social interactions among the members of a gaur herd were classified as allogrooming, dominance-subordination interactions and sexual behaviour. Four types of dominance-subordination interactions were recorded among gaur during the study period in Bandhavgarh.Item Development of spatial database in Geographical Information System Domain for Bandhavgarh Tiger Reserve and assessment of land use/land cover changes.(Wildlife Institute of India, Dehradun, 2008) Lal, Panna; Mathur, V.B.; Qureshi, QamarThe study on “Development of spatial database in Geographical Information System Domain for Bandhavgarh Tiger Reserve and Assessment of Landuse/Landcover Changes” was carried out between 2001 and 2006. The major objectives of the study were (a) Mapping of major vegetation communities using remotely sensed data, (b) Assessment of changes in landuse/landcover using time series analyses with a focus on areas from which villages have been relocated as part of the ecodevelopment initiative (c) Development of a resource database on ecological and management attributes for management of Bandhavgarh Tiger Reserve. The study has covered the physical, floral and faunal aspects of Tiger Reserve.Item Ranging patterns and habitat use of re-introduced gaur (Bos gaurus gaurus) in Bandhavgarh Tiger Reserve, Madhya Pradesh.(Wildlife Institute of India, Dehradun, 2014) Navneethan, B.; Qureshi, Qamar; Sankar, K.Bandhavgarh Tiger Reserve (BTR), situated in Central India, supported a small population of gaur (38. individuals) till 1995. This gaur population became locally extinct in 1998, and the reason for the same is attributed to disruption of the migratory corridor between the forests of Bandhavgarh and Ghunghuti and Amarkantak. Even after the local extinction of gaur, BTR continued to be an excellent habitat for gaur and hence it was decided to reintroduce gaur in BTR as it would be a major conservation initiative for this endangered species. The present study on reintroduced gaur was carried out from March 2011 to February 2013 covering all seasons in a year, summer (March - June), monsoon (July - October) and winter (November - February) in Bandhavgarh Tiger Reserve, Madhya Pradesh, Central India, to study the ranging pattern and habitat use.Item Spatial patterns of species richness and distribution in breeding land birds of the Central Indian Highlands.(Wildlife Institute of India, Dehradun, 2006) Jaypal, R.; Qureshi, Qamar; Chellam, RaviVariations in number and distribution of species in space constitute one of the fundamental themes in ecological research. It is being increasingly recognized that studies on species diversity at regional scale are essential to understand the mechanisms of maintenance of biological diversity. Emergence of macroecology, where large-scale ecological phenomena are examined to test biogeographical hypotheses, has considerably widened the scope of these approaches to include application of empirical patterns in finding solutions to conservation issues. This study, adopting this acroecological framework, investigates the spatial patterns in species richness and distribution of breeding land birds in central India. 2. The study was conducted across the Satpura and Vindhya Ranges, collectively known as Central Indian Highlands, in Madhya Pradesh, India between March, 2002 and September, 2005. Bird species composition is found to be primarily determined by vegetation structure at regional level and by floristic composition at local scale. This finding is consistent with earlier observations that birds respond, in their species composition, to vegetation structure across habitats and to vegetation composition within habitats. The species-area relationship in central Indian birds is best described by power function curve with a slope of 0.12. The acutely low slope points to the extremely sparse nature of spatial gradient in bird species diversity of Central Indian Highlands. The findings of the study clearly illustrate the bias in PA network that a single-species approach can potentially bring about. The recent rediscovery of the critically endangered Forest Owlet (Heteroglaux blewitti), after a gap of 113 years, from these low-rainfall dry deciduous forests highlights the importance of extending adequate protection to all major biomes and the need for multi-species approach in design and maintenance of an efficient PA network.Item Resource partitioning of non-pantherine carnivore community in Kanha Tiger Reserve, M.P., India.(Wildlife Institute of India, Dehradun, 2022) Pradhan, Anup Kumar; Jhala, Y.V.; Qureshi, QamarCarnivores of all groups have unequivocal role in structuring and functioning of their ecosystems. Hence their existence need to be secured to maintain functional ecosystems. In the current scenario of rapid industrial growth and economic development, pressure on natural resources is escalating, which in turn has jeopardized the survival of important species. Hence, to maintain harmony between economic growth and ecological balance, an effective wildlife conservation and management plan should be a priority. The Kanha Tiger Reserve (KTR), spreading over an area of around 2100 km2 located in the central Indian highlands, has immense ecological significance as it supports a wide variety of flora and fauna. The tiger reserve is home to carnivores, including tiger, leopard, dhole, sloth bear, and many small cats. However, there are several conservation challenges exists for the persistence of this ecosystem. A thorough understanding of the ecosystem and its inclusive components is a prerequisite for developing and implementing an effective wildlife conservation plan. And in the case of KTR, despite several pioneer studies, the existing research gap on the ecology of small and meso-carnivores undermines the understanding of the complete ecological functioning. To fill this research gap, I undertook this study focusing on distribution, habitat use and preference of small and meso-carnivores in KTR. I aimed to study the distribution pattern and abundance of non-pantherine carnivores (Sloth Bear, Wild Dog, Jackal and jungle cat) and their niche separation by developing a species distribution and habitat suitability map. I performed camera trapping exercises during three successive seasons in 2014, 2015, and 2016 successively in all the available habitat types to obtain information on the abundance and distribution pattern of the targeted species. The camera traps were placed in a two sq km grid-based manner. I used data from transect surveys, remote sensing techniques and published literature to obtain other ecological variables. I used presence software to run the occupancy model for each focal species separately, considering relevant environmental variables. Similarly, I used the Maxent software to prepare the habitat suitability map for each species individually. I used the kernel density approach in R software to analyze the activity overlaps between these studied species. As a result of occupancy analysis, tiger, leopard, sloth bear, and jungle cats were observed to be inhabited in the cores area of the tiger reserve and associated with dense forest cover, grasslands, and prey abundance. However, dholes preferred the fringe area of the forest, associated negatively with densities of tigers, leopard, and their preferred area, i.e., the core of the forest and positively with the grasslands. In addition, variables such as distance from human settlements, terrain ruggedness, and NDVI also affected the occupancy of these study species in the KTR. Jackal did not follow any particular pattern rather it observed throughout the forest area. Aligning with the occupancy result, the habitat suitability maps prepared by the Maxent model strengthened the observation of the spatial ecology of these carnivore groups in the KTR. The Maxent model showed that the large carnivores at the ecosystem's apex position preferred to live in the core area of the forest with abundant prey and least human interference. However, second and third order carnivores such as dholes, preferred to live outside the core to avoid possible strife with the dominant tiger and leopard. The habitat selection by these meso carnivores also indicates the dominancy iii of the large carnivores in occupying the central position and their influence in the placement of the subordinate group of carnivores in a common ecosystem. We did not observe any effect of tiger and leopard on the habitat preference of sloth bear and jungle cat which indicated the difference in the dietary pattern also play significant role in occurrence of these sympatric carnivores in a multi-predator ecosystem. Tigers and leopards were primarily crepuscular and nocturnal. Despite high activity overlap, their activity peaks were different from each other. Dholes and jackals were active during the day, whereas Sloth bears and jungle cats were nocturnal. The results of temporal interaction among these carnivores were not completely diverged from the pattern of spatial interactions observed earlier. Instead, these results strengthen the findings of the spatial interaction among these carnivores in the KTR. As observed earlier, dholes and jackals shift their activity to avoid possible conflict and become diurnal. In contrast, the activity pattern of tigers and leopards did not influence the activity pattern of sloth bears and jungle cats. The study provides information on the spatiotemporal interactions of a carnivore community in a multi-predator ecosystem in central India. The findings strengthen the earlier understanding of the ecology of large-bodied carnivores such as tigers and leopards. At the same time, it enhances the knowledge of their counterpart i.e. the lesser studies small and meso- carnivores of KTR. Large-bodied carnivores occupied the central and apex position of the ecosystem and regulated the distribution pattern of the meso-carnivores present in their ecosystem. However, species with a different ecological niche were less influenced by these apex predators.Item Assessing the synergistic effect of two invasive plants on native plant communities in Kanha National Park, Central India(Wildlife Institute of India, Dehradun, 2017) Rastogi, Rajat; Shrivastava, Aseem; Qureshi, QamarOver time, community assembly and functioning of native ecosystems is known to shift from native species to non-native species thus, restructuring the native community. When this shift of diverse native ecosystem interaction to less diverse invasive-centric interaction, occurs due to synergistic effect of two invasive species, it is known as ‘invasional meltdown’. Since last two decades, the effects posed by invasive species on ecosystems are widely debated. Studies across the globe have reported simplification in community structure with biological invasions, leading towards monotonous ecosystems and homogenization of biodiversity. 2. I assessed the interaction of two invasive plant species, Lantana camara complex (lantana) and Pogostemon benghalensis (pogostemon) with native understorey vegetation in Shorea robusta (Sal) forest of Kanha National Park, Central India. Here, I tested biotic homogenization, invasional meltdown and intermediate disturbance hypothesis. To achieve this, 56 km2 out of 230 km2 of Sal forest covering 5613 cells (100X100m) was extensively surveyed, to model species distribution of lantana and pogostemon using different correlative, mechanistic and ensemble models. From the surveyed area, 120 plots (10X10m) were selected based on the percent cover of invasive species, where vegetation and soil sampling was conducted. The correlations in community composition with edaphic and climatic parameters were established using nonparametric ordination, and the potential effects of single invasive species and their interaction were estimated using linear models by considering the uninvaded plots as control. 3. From the sampled area, 40 km2 (71%) and 37 km2 (66%) were found to be invaded by lantana and pogostemon respectively. Lantana presence was best explained as a function of nearby lantana density and was constrained by evapo-transpiration rate of summer, light availability and dry stress. Whereas, pogostemon presence was best explained by moistness of forest patch, lower summer temperature and habitat openings due to anthropogenic factors and was constrained due to climatic heat, edaphic dry stress, and remote deciduous forest. Study results indicate an insignificant effect of intermediate disturbances, and significant impacts of invasive species on species composition and edaphic factors, thereby affirming the biotic homogenization and invasional meltdown hypothesis and rejecting intermediate disturbance hypothesis. Present study can be used as an evidence to prioritize immediate management interventions in areas where multiple invasions are present, as the chances of extirpation of rare species is high.