Theses and Dissertations
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Item Understanding the impact of habitat fragmentation on sympatric Large Carnivore connectivity across Tiger Reserves in Maharashtra, India(Wildlife Institute of India, Dehradun, 2022) Modi, Shrushti; Habib, BilalThis study is an effort to understand the impact of habitat fragmentation on the connectivity of sympatric large carnivores across the tiger reserves of Maharashtra. The top predator assemblage in Maharashtra's major tiger reserves and surrounding areas consist of three species: tiger, leopard, and dhole. Most connectivity studies focus on the single species, which does not incorporate other species' requirements and conservation interests. As a result, given the current context of haphazard development, there is a need to develop a multispecies conservation plan that focuses on multidimensional aspects for several species of interest. Given this, the current study was conducted in major tiger reserves and surrounding protected areas, i.e., Melghat Tiger Reserve (MTR), Tadoba-Andhari Tiger Reserve (TATR), Nawegaon-Nagzira Tiger Reserve (NNTR), Pench Tiger Reserve (PTR), Sahyadri Tiger Reserve (STR), Umred Karandhla Wildlife Sanctuary (UKWLS) in the state of Maharashtra. The objectives of the study were to (i) Develop and standardise molecular markers for species and individual identification, (ii) Meta-population dynamics of tiger, leopard and Asiatic wild dog across the tiger reserves of Maharashtra, (iii) Impact of habitat fragmentation on the gene flow and genetic connectivity across the habitat connectivity gradient of the tiger reserves. The three species from the major carnivore guild suggests that landscape genetic patterns respond to the ecological differences in habitat characteristics, and disturbance can differentially affect landscape genetic structure. The study develops a framework for the landscape genetic study of any species starting from the sampling to understanding the impact of habitat fragmentation on the functional as well as structural connectivity of these species. The empirical findings of this study provide an outlook to delineate the corridor planning as per species need and do not follow the one for all approach. This study also developed the first PCR based protocol for dhole species identification and a better individual identification panel. The study will help in introducing species-specific modifications in connectivity corridors planning. It has paved the way to consider the requirements of each species while establishing priority-based conservation. As obtained in this study, landscape genetics outputs, coupled with multispecies connectivity models, could help prioritise the conservation of areas where maintaining connectivity is most critical.Item Patterns of structural and functional attributes of alpine meadows of temporal scale in Tungnath, Western Himalaya(Wildlife Institute of India, Dehradun, 2023) Kumar, RahulThe present study was carried out to understand the temporal changes in structural (richness, diversity, of alpine communities, above and belowground biomass, net biomass accumulation/productivity, and carbon density) and functional attributes (Phenology of species recorded) of different alpine plant communities of alpine meadows. This research work has not only generated information on baseline ecological characteristics of species and communities but also provides valuable management implications. The study is summarized in the following paragraphs. The major objectives of the study are: 1. To study temporal changes in composition, structure, and functional attributes across various herbaceous communities, 2. To study the phenological patterns of dominant plant species across various communities in relation to abiotic parameters (rainfall/snowfall and temperature), 3. To assess the patterns of biomass production, carbon storage and sequestration in various communities and temporal dynamics of soil nutrients The study was carried out in Tungnath region of Western Himalaya which lies on outer fringe of Kedarnath Wildlife Sanctuary in the upper catchment of the river Mandakini, a major tributary of the Alaknanda, which finally join the river Ganga at Devprayag. Climate change particularly endangers organisms with fragmented habitat distribution, especially those with narrow ecological ranges, which may lead to extinction. Cold-adapted species are especially vulnerable in high alpine meadows due to rapid warming, potentially exceeding their adaptive capacity. The alpine zone covers 9 % of the total area in Greater Himalaya. In Uttarakhand, there are 5 protected areas encompassing alpine region namely Nandadevi National Park (NP), Valley of Flowers NP, Govind Pashu Vihar NP, and Wildlife Sanctuary (WS), Kedarnath WS and Askot WS of which except Nandadevi NP and Valley of Flowers NP, others are heavily exploited leading to habitat degradation. Exploitative practices such as unsustainable pastoralism, excessive extraction of medicinal plants, pilgrimage pressure, and poorly planned developmental projects are major challenges faced by alpine ecosystems in the Greater Himalaya. Therefore, it is crucial to understand species and community ecology to identify stress mechanisms and develop effective conservation strategies in Greater Himalaya. Numerous studies have shown correlations between temperature, precipitation, productivity, plant interactions, spatial patterns, and species richness in alpine ecosystems outside of the Himalayas. However, knowledge about the Himalayan alpine regions is limited due to their micro-topographic variations, altitudinal gradient, temperature range, and precipitation patterns, which make it challenging to isolate specific variables responsible for environmental-species relationships. These issues can lead to smaller population sizes, habitat degradation, and local extinctions, putting immense stress on alpine meadows. To address these challenges and conserve alpine meadows, it is essential to study sustainable land use practices adopted by local communities and develop conservation plans tailored to specific sites and species.Item Assessment of the existing National Highway – 7 and its proposed widening on habitat use and movement of wild animals in Pench Tiger Reserve, Madhya Pradesh.(wildlife Institute of India, Dehradun, 2019) Pragatheesh, A.; Rajvanshi, Asha; Mathur, V. B.The construction of roads and railways change the natural landscape along the entire length of the road, or railway line, apart from fragmenting the landscape. Compared to national highways, narrow country roads have more intense network ad its penetration into the wild habitat is deeper and the adverse effect is therefore manifold as compared to a single national highway. mobility of people and transportation of goods is an integral component of globalization and economic opportunity, road infrastructure that enhances connectivity among people also results in increased habitat fragmentation which is recognized as the largest single threat to biological diversityItem Ranging Patterns of Asiatic Black Bear (Ursus thibetanus) with reference to food availability in Dachigam National Park, Kashmir(wildlife Institute of India, 2012) Sharma, Lalit Kumar; Sathyakumar, S.Asiatic black bear are threatened due to poaching for gall bladder (medicine), skin (ornamental), retaliatory killings to reduce bear-human conflicts, and due to large scale habitat degradation or loss. The present study was carried out during 2007-2011 to address the issues related to movement patterns of black bear in relation to food availability in Dachigam landscape and to understand the food and feeding habits of black bear in different seasons. Habitat characterization and mapping were carried out to assess habitat quality and to understand the level of fragmentation and composition of Dachigam landscape. The forest fragmentation analysis in the present study suggested intermediate level of fragmentation and it is likely to increase because of human encroachment on the forest land. The forested fragmentation can adversely impact the movement of bear in the landscape which may lead to demographic as well as genetic isolation of species, hence leading to population fragmentation and extirpation.Item Evaluation of impact of landscape changes on large mammal habitats in Pench Tiger Reserve, Madhya Pradesh, India(Wildlife Institute of India, Dehradun, 2012) Basu, Santanu; Sankar, K.A study on the vegetation and wildlife habitats was conducted in the Rajaji-Corbett National Parks and adjoining areas using remote sensing, geographical information system (GIS) and conventional field sampling techniques. Steady increase in anthropogenic pressures in this area has led to degradation and fragmentation of wildlife habitats and related environmental problems. While the two national parks have received attention due to their legal status, the surrounding areas such as the vital corridor connecting the two parks have been largely overlooked. This connecting forest faces dual threat from the surrounding villagers as well as the migratory pastoral communities viz., Gujjars and Bhotias. The literature review reveals that vegetation ecologists have conducted a few studies within Rajaji and Corbett National Parks. Most of the studies pertain to documentation and description of plant species, analysis of community structures, analysis of the problems of sal regeneration and habitat ecology of selected species in isolated areas. However, no effort had so far been made to analyse the overall terrain and landscape features in relation to vegetation structure in the area, which is essential for characterizing the wildlife habitat. Detailed maps depicting the vegetation types, terrain categories and habitat suitability for major ungulates were not available for the area. Similarly, no literature was available on the patterns of plant species diversity in relation to the habitat conditions. Therefore the present study was undertaken in this area. The specific objectives of the study area were to: 1) Spatially analyse the vegetation types, terrain categories and prepare maps for the same using remote sensing, 2) Study the structure and composition of various vegetation types in the corridor area.3) Study the patterns of plant species diversity and other related parameters. 4) Analyse habitat characteristics for major ungulates using Remote Sensing and GIS. The extensive study area was analysed through maps prepared using remote sensing techniques. This area covers about 10,766.7 km 2 and lies between 2900' to 30031' Nand 77015' to 80016' E. It includes the following national parks: a) Rajaji National park (820 km2 29052' to 30015' N and 77055' to 78019' E), and b) Corbett Tiger reserve (1320 km2, including 520 km2 of core area, 29025' to 29040' Nand 7805' to 7905' E).Item Reptilian species distribution in response to habitat fragmentation and microhabitats in the rainforests of southern Western Ghats, India.(Wildlife Institute of India, Dehradun, 2001) Ishwar, N.M.; Chellam, RaviHabitat fragmentation has long been recognized as a threat to biological diversity and a major cause in the sudden increase in the extinction rates of species. Demographic and environmental stochasticity, habitat degeneration, the decrease in genetic variability and the influx of secondary forest species all lead to the extinction of forest species in the forest fragments. The forests in the various hill ranges in the Western Ghats are under anthropogenic pressure, mainly due to commercial plantations like tea, coffee, cardamom and spices and timber. The construction of dams for irrigation and hydroelectric power projects and roads and rapid urbanization are other ways by which the once contiguous middle elevation rainforests of the Western Ghats have been dismembered into scattered fragments. The rainforests of the Western Ghats is one of the richest biogeograpic zones in the country with more than 50% of the reptiles reported from the area being endemic to these forests. The most serious problem that is faced by the wildlife managers in the Western Ghats is that the remaining forests, especially the rainforests, occur in a highly fragmented state. The effect of rainforest fragmentation has taken its toll on the overall biological diversity with declines in reptile species contributing to this loss. Addressing this conservation problem becomes difficult in any forum, as studies on reptiles are few and poorly represented in literature. In this background, the objectives of the present study broadly defined here were to understand 1) the factors that govern the distribution of reptiles in the rainforests. The factors include both macro and microhabitat variables that the reptiles are know to respond to; and 2) to see if the process of rainforest fragmentation has affected the reptilian distribution and community structure, and to understand the direction of this impact. The study was divided in to two phases, the first phase was devoted to understanding the factors that were likely to influence the distribution of rainforest reptiles, while the second phase looked into the effects of rainforest fragmentation on reptiles. A combination of sampling techniques that included the adaptive cluster sampling (for leaf litter reptiles), the forest transects (for arboreal reptiles), stream surveys (for nocturnal stream dwelling reptiles) and opportunistic sampling was used to sample rainforest reptiles. Three sites in the contiguous rainforests of Kalakad-Mundanthurai . Tiger Reserve (KMTR), that broadly represented the altitude range and the different drainages, formed the site for the first phase of the fieldwork. The fourteen rainforest fragments in the Anamalai Hills were the study sites for the second phase of fieldwork where the effects of rainforest fragmentation were enumerated explore in detail the two major points expressed above, and detailed assessment of what is needed to promote reptile conservation is provided at the end.Item Aspects of ecology of Hangul (Cervus elephas hanglu) in Dachigam National Park, Kashmir, India.(Wildlife Institute of India, Dehradun, 2006) Ahmad, Khursheed; Sathyakumar, S.; Qureshi, QamarThe Hangul or Kashmir Stag (Cervus elaphus hanglu) is a highly threatened species that has a restricted distribution confined to the Kashmir region. The Hangul is a one of the four eastern most subspecies of Red Deer of Europe (Cervus elaphus) and belongs to order Artiodactyla (even-toed animals) and family Cervidae or deer family. Compared to a very wide global distribution of Red deer, the Hangul has had a limited global distribution. Hangul were once distributed widely in the mountains of Kashmir in an arc of 40 Km extending from Karen in Kishenganga catchments in Bandipora over to Dorus in Lolab valley and Erin catchments in Bandipora to Chinab valley in Kishtwar. Some population of Hangul also occurred in Chamba district of Himachal Pradesh. However, during the recent past Hangul appears to have drastically declined from its past distribution range, possibly due to large scale biotic pressures owing to poaching, habitat fragmentation and degradation. At present the last surviving population of Hangul occurs only in 171 Km2 Dachigam National Park, although some relic populations also occur in the adjoining areas. The population of Hangul in Kashmir in 1900 was 3,000 and in 1947, there were 2,000 Hangul still surviving. But ten years later, the population got drastically reduced to about 400 individuals, and in 1970 Hangul population estimated was 140 - 170. The recent censuses carried out by the State Wildlife Protection Department in 2004 puts the Hangul population between 209-243 individuals. The most alarming threat to Hangul in Dachigam has been reported to be the excessive over grazing in the alpine meadows of Upper Dachigam by livestock including sheep and goat of the Government Sheep Breeding Farm located in Dachigam National Park. The past studies carried out in Dachigam National Park have shown that the range of Hangul In Dachigam National Park is restricted to Lower Dachigam with eastern boundaries at Gratnar, Waskhar and west of Dagwan. Keeping in view the given background and based on my preliminary surveys in in the first year of this study, the intensive study was carried out upto the above given boundaries of Lower Dachigam. There have been very little studies on Hangul compared to extensive studies carried out on its conspecifics Red Deer and Elk, and Himalayan Ungulates. There is still a lack of baseline information on the aspects of Hangul ecology prerequisite of its effective management and conservation planning. This stl1dy was as such initiated after a wildlife research gap of about 15 years in Kashmir valley in general and Dachigam in particular. This study was aimed at enhancing our scientific knowledge on the aspects of Hangul ecology such as population, habitat use and feeding ecology which are prerequisite of its effective long term management and conservation planning. During the study period (February 2001 to December 2004) a total of 693 surveys were carried out in these transects and survey blocks putting a total of 5668 km and 1839 hours effort, and a total of 326 Hangul sightings were recorded. All these Hangul sightings were recorded in lower Dachigam in an area of 41.20 km2 out of the total area of 171 Km2 of Dachigam National Park.Item Habitat use, ranging pattern and management of sloth bear (Melursus ursinus) in North Bilaspur Forest Division, Madhya Pradesh.(Wildlife Institute of India, 2002) Akhtar, Naim; Chauhan, N.P.S.In the North Bilaspur forest division (NBFD) Chhattisgarh, sloth bears have created very formidable image among the local people. The habitat available to sloth bears is highly disturbed, fragmented, unprotected, and interspersed with villages, small townships, and cultivation areas. Sloth bears invade human habitation and agricultural crop fields and increasingly attack on people and cause extensive crop damage. This is the first study on sloth bears in India, which has been conducted outside the protected areas. The study is very important not only for the benefit of local people, suffering from the bear menace but also for the bear itself whose status is vulnerable in these areas. The study was carried out in Pendra and Marwahi ranges using transect sampling of vegetation and bear evidences, remote sensing, bear count at den sites, tracking of collared bears, and village survey.Item Golden Langur Distribution, Habitat Selection and Corridor – Connectivity: Assessing Patterns and Addressing Threats(Wildlife Institute of India, Dehradun, 2024) Basumatary, Rishi; Nath, Anukul; Gopi, G.V.; Chetry, DilipThe Golden Langur (Trachypithecus geei), is an endangered colobine primate, confined to fragmented forest patches in western Assam, India, and south-central Bhutan. The golden langur has experienced severe habitat loss and fragmentation due to ethnolinguistic and religious conflicts between the late 1980s and late 1990s, followed by developmental activities in western Assam. The primary threat faced by the golden langur in India are the rapid reduction of its natural environment and the fragmentation of its habitat. Factors such as a limited population size, the breakdown of meta-population dynamics, and unique traits of a species often make a population in a fragment more likely to experience local extinction. Due to the significant decline in the range of Golden langur in both Bhutan and India, as well as the ongoing destruction of their habitat in India, it is imperative to safeguard even the smallest local populations. The populations residing in these fragmented Reserved Forests and Proposed Reserved Forests are effectively confined, separated from the primary breeding population, and susceptible to demographic and genetic influences. The objective of this study is to understand the current distribution, suitable habitat, and connectivity of corridors for the severely fragmented southern population of golden langur in India. Additionally, the study aims to examine the specific habitat preferences and demographic patterns of langur groups, as well as evaluate the threats that this fragmented population faces. The study was carried out in nine fragmented forest patches that includes Wildlife Sanctuary (WLS), Community managed RF (CMRF) Reserved Forest (RFs), and Private Rubber Plantations and Adjoining Forests (PRP_AF). In the present study, a total of 123 trails, ranging from 0.4 km to 1.6 km, were walked, covering a total distance of 118.72 kilometers. During these surveys, a total 51 troops (including 8 multi-male multi-female troops and 5 all-male groups), consisting of 499 individuals were encountered. The mean group size and age-sex ratio between different protected regimes that include wildlife sanctuary (WLS), community managed RF (CMRF), reserved forest (RF) and private rubber plantation and adjoining forests (PRP_AF) were compared. The overall mean group size of the langur was 9.78 (± 0.69 SE). Of the total 499 individuals, 13.22 % comprised of adult males, 41.88 % adult females, 16.83 % sub-adults, 10.02 % was juveniles and 18.03 % was infant. The average age-sex ratio of adult males to adult females was 0.287 (± 0.04 SE), juveniles to adult females was 0.224 (± 0.02 SE) and infants to adult females was 0.407 (± 0.04 SE). The infant to female ratio was found higher in wildlife sanctuary as compared to other reserved forests in the study area. The current study revealed that approximately 883 km² of the area is highly suitable for the endangered golden langur. Percent forest cover was found to be the most important variable in determining the probability of occurrence of golden langur in India. The corridor connectivity analysis showed high conductance for corridors namely Bamungaon and Khoragaon RF. Similarly, the connectivity is permeable between Kakoijana and Bamungaon. Other corridors identified in the study are Bhumeshwar Hill, Nakati RF and Kakoijana RF. On the other hand, there is high conductance among corridors of Chakrashila WLS and Nadangiri RF. Additionally, fine scale habitat selection study showed that tree species diversity, canopy cover and food plant density are the key in determining the occurrence of golden langur. In the last six years, a total of 56 mortality and injury incidents were reported from the study area which include 45 deaths and 11 injuries. Electrocution accounted for 29 cases, especially near forest edges, while 21 road accidents occurred mainly on national and state highways, as these roads are broader and have higher traffic volumes compared to village and town roads. Most accidents happened in the corridors between Chakrashila WLS-Nadangiri RF and Kakoijona RF-Bamungaon RF. Specific measures need to be taken to minimize electrocutions and road accidents of golden langur in the region. Mitigation measures like insulating electric lines and road safety protocols such artificial canopy bridges (ACB) and metal animal overpasses (MAOP) are essential for safe and easy movement along these corridors for the golden langur's survival in fragmented habitatsItem Influence of Forest Cover on Fruit and Frugivore Richness and Abundance in Southern Western Ghats(Wildlife Institute of India, Dehradun, 2021) Takorbhai, Patel Zankhnaben; Page, Navendu V.; Kumar, AmitHabitat fragmentation is a pervasive threat to ecosystem processes like seed dispersal, which is vital for biodiversity maintenance in tropical forests. Habitat fragmentation negatively impacts the richness, abundance and composition of plants and animals, thereby disrupting the interactions between them, with cascading impacts on biodiversity. However, the remnant fragments continue to harbour biodiversity. However, it is critical to determine the functional value of the fragments in terms of fruit resource diversity and availability and prevalence of frugivores across different size classes. To this end, I conducted the study in the Valparai plateau and adjacent contiguous patches of rainforests in the Western Ghats. I first determined the organization of plant-seed disperser community and identified key frugivores and plants in the landscape using network analysis. Using mixed models and the recently developed Joint Species Distribution Modelling approach called HMSC (hierarchical modelling of species communities), I investigated 1) the relationship between the amount of forest cover and richness of fruiting plants across different seed size classes, 2) the relationship between the amount of forest cover and availability of fruit s across different seed size classes 3) the relationship between richness and presence of all the avian frugivores and, amount of forest cover, and richness and availability of fruits. I recorded the frugivores and fruiting plants from 33 trails distributed in 12 fragments and 2 sites in contiguous area during four months of sampling. I also recorded plant-frugivore interactions. I documented 49 species of fruiting plants and 17 species of avian frugivores