Theses and Dissertations

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Author: search.filters.author.Qureshi, QamarSubject: search.filters.subject.Population estimation

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Now showing 1 - 7 of 7
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    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, Qamar
    Large 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.
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    Spatial abundance of ungulates and role of predation on chital (Axis axis) demography and behaviour in Corbett Tiger Reserve, Uttarakhand, India.
    (Wildlife Institute of India, Dehradun, 2022) Banerjee, Sudip; Jhala, Y.V.; Qureshi, Qamar
    To address the first objective which was to estimate the abundance of ungulates in different habitats of CTR, I have used line transect-based distance sampling approach to estimate the density of four major ungulate species (chital, sambar deer, barking deer, and wild pig) of CTR in ~520 sq. km of the Corbett National Park (CNP) region. Density was estimated using 156 spatial transects replicated 1 to 4 times over four sampling years. Both year-wise and pooled (weighted average of four years) density estimates were highest for chital followed by sambar. Barking deer had the lowest density. Chital density has remained stable over the years. Post-stratifying the densities of the four ungulates by three major habitat types of CNP (grassland, saldominated, and mixed deciduous) exhibited the highest density of chital in the grassland and lowest in the sal-dominated forest. Sambar density on the other hand was highest in the mixed deciduous and lowest in the grassland. Barking deer also exhibited a similar trend of habitat-wise density. A significant part of my thesis was focused on the objective of evaluating the precision and cost-effectiveness of three different density estimation techniques. The diverse ungulate assemblage and complex terrain of CNP provided an excellent environment to conduct this experiment.
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    Distribution and demography of carnivores in some parts of semi-arid landscape of Western India.
    (wildlife Institute of India, Dehradun, 2020) Sadhu, Ayan; Jhala, Y.V.; Qureshi, Qamar
    The present study reveals long-term research on tigers, elaborating their vital rates, survival parameters, and dispersal. The camera trap data to estimate the spatially explicit density, space use, and time-activity pattern of leopards. A combination of techniques that included radio telemetry, camera traps, direct observations, and photo documentation was used to obtain 3492 observations on 97 individually known tigers in Ranthambhore between 2006-2014 to estimate demographic parameters that estimates collated over nine years from 97 individually known tigers and annual density estimates of Ranthambhore tiger population from camera traps. This study aimed to estimate the demographic parameters of Ranthambhore tigers, and subsequently compare them with other tiger populations. Two species occupancy was used to estimate the spatial co-occurrence of tiger and leopard in Ranthambhore. As a long-term conservation strategy, this semi-arid tiger population needs to be conserved in a metapopulation framework. The species distribution modelling showed the importance of the PAs and also highlighted areas to direct conservation investments outside the protected areas.
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    Ecology of leopard (Panthera pardus) in Sariska Tiger Reserve, Rajasthan
    (Wildlife Institute of India, Dehradun, 2011) Mondal, Krishnendu; Shankar, K.; Qureshi, Qamar
    The present study estimated the prey availability and prey consumption, population and survival rate and the home ranges and resource selection of leopard in Sariska Tiger Reserve. The Sariska Tiger Reserve (STR) (N27o05’ to N27o45’ and E76o15’ to E76o35’) is situated in the Aravalli Hill Range and lies in the semi-arid part of Rajasthan for four consecutive years from 2007 to with these objectives: 1. To estimate the prey availability of leopard 2. To study the food habits and prey selection of leopard 3. To estimate the population of leopard and 4. To study the home range and habitat use of leopard. In the present study, food habits and prey selection of leopard were examined during the study period following scat analysis method and kill records. Radio-telemetry technique was followed to estimate the home range and habitat use of leopard as this technique is found to be the most updated and useful practice to gather information on home range, daily and seasonal movement pattern of big cats. The result of this study presented the abundance of prey species of leopard and their consumption by leopard in Sariska TR. The study also estimated the population and survival rate of leopard in Sariska TR. Home range and habitat use of leopard was estimated in the present study and a habitat suitability model for leopard was generated in and around Sariska TR.
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    Ecology of medium and small sized carnivores in Sariska Tiger Reserve, Rajasthan
    (Wildlife Institute of India, Dehradun, 2011) Gupta, Shilpi; Sankar, K.; Qureshi, Qamar
    To assess wildlife population trends, scientifically based monitoring programs must be carried out. A new generation of camera traps and the use of well developed capture-recapture models have led to an increase in the use of remote surveying and monitoring methodologies for nocturnal species. Population estimates can be done for individually identifiable cryptic nocturnal species through camera trap. The study was carried out in Sariska Tiger Reserve (STR), western Rajasthan, India, (79° 17’ to 76°34’N, 27° 5’ to 27° 33’ E) from November 2007 to June 2009. The objectives of study are (1) To estimate the abundance of medium and small sized carnivores such as striped hyena, jackal, jungle cat, civets and mongoose. (2) To study the prey availability and food habits of medium and small sized carnivores and To assess the habitat suitability for these carnivores. In this study, both capture - recapture method and Royle -Nichols (2003) approach was applied to photographic capture trap data to estimate density and abundance of nocturnal cryptic species. The results of this study presented both numerically and also in the form of habitat suitability maps for all the study species in the study area. These finding have potential to develop basis for managing areas for these medium and small sized carnivores in Sariska and other similar habitat in semi arid zone.
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    Assessment of landscape patterns for modeling habitat suitability for lions and prey species in Gir Protected Area, Gujarat.
    (Wildlife Institute of India, Dehradun, 2013) Basu, Parabita; Qureshi, Qamar; Jhala, Y.V.
    Conservation of ‘source’ alone may not be a sufficient strategy to ensure long term persistence of lions; rather it is enhanced by maintaining connectivity among different populations so as to permit lion movement across human-dominated areas. However, the traditional land-use patterns within Gir landscape is changing at an alarming rate mainly as a result of agricultural expansion, urbanization and industrialization. In this scenario, I attempt to (1) Examine the distribution of suitable lion habitat in Saurashtra, especially in areas outside of protected area to assess the potential of the landscape for supporting an increasing lion population, (2) Identify functional corridors joining Gir and Girnar protected area with suggested management interventions, necessary for safeguarding the corridor, (3) Evaluate the current landscape architecture of Gir PA and its surroundings (4) Assess the rate of change in land use and vegetation patterns within Gir PA, (5) Develop habitat suitability models at different spatial scales for lions and its principal prey species.
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    Evaluating the importance of scale in estimating tiger populations
    (Wildlife Institute of India, Dehradun, 2007) Contractor, Deep; Jhala, Y.V.; Qureshi, Qamar
    Population estimation is one of the most important aspects of ecological studies as it plays a pivotal role in establishing priorities for species specific conservation and for delineating management practices. The tiger serves as a flagship and umbrella species for conservation efforts in the Indian subcontinent but, unfortunately wild tiger populations are on a drastic decline owing to factors like poaching, habitat fragmentation and degradation. In such a scenario reliable population estimates prove to be of vital importance. Camera trapping technique has been widely used for population estimation of cryptic carnivores including tigers. An attempt was made, through this study, to arrive at population and density estimates for Corbett NP through camera trapping technique following the mark recapture framework and answering some key questions regarding the importance of sampling effort required for arriving at such reliable estimates. A total of 7865 trap nights yielded 358 captures of 103 individual tigers within an intensively sampled area of (MCP) 420.86 km2. The estimated density of tiger was 16.01 (±1.6) per 100 km2 for RPSV, a new approach to calculate effectively sampled area. These estimates coincided with the estimates using full MMDM method. Also, the conventional method of using half MMDM seems to overestimate the density. The estimated sampling effort required for arriving at accurate and precise estimates of the true population in terms of sampling occasions amounted to 35 - 40 days. Evaluation of the influence of trap density revealed that high trap density (25 traps/km2 ca.) is required to get reliable estimates of population irrespective of the underlying population/density gradient.