Theses and Dissertations
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Item Assessing the Impacts of Road Network on Wildlife Corridors and Mitigation Measures in Assam : Transportation Against Animal Corridor(Wildlife Institute of India, Dehradun, 2021) Borgohain, Roshme; Habib, Bilal; Ramesh, C.Protected Area Networks (PA) and Conservation Areas (CA) are very essential for ensuring the conservation of wildlife. However, the connectivity among these protected areas is much more important to ensure the viable population of species. Furthermore, the increase in infrastructural development and human encroachment leading to the fragmentation of forests and the natural habitat of wildlife species. The wildlife corridors are the essential structures to connect the fragmented areas, ensure the viability of the isolated population, restores the genetic variations, corridors also increases the habitat diversity in the two habitat patches that it connects, it provides a passage for migration and also acts as an escape route in cases of fire in one patch. Overall wildlife corridors are structures that are important for conservation. Although these protected areas were not well connected the corridor structures help to maintain the continuity of the area. The state falls under North-East India Biogeographic zones under the Province North-East-East-Brahmaputra Valley (9B), (Rodgers and Panwar 1998). In Assam, there are seven National Parks and twenty Wildlife Sanctuaries occupying the area of 3925+ sq. km, where two are designated as World Heritage site (WHS) which is the highest designation given to the protected area. Out of twenty-seven protected area in Assam, fifteen were bifurcated by road networks and there are total eleven corridors, connects the protected areas, eight corridors were cut at multiple places by roads. These connections of the corridors are essential to maintain the contiguous landscape, which is further essential for maintaining the integrity of the WHS. In this study, I have tried to look at the current status of the wildlife corridor portion bifurcated by the road networks in Assam. The objective of the study is 1) What is the extent of different types of road networks concerning PAs and corridors in the State of Assam? 2) What is the land use pattern near the corridor bifurcated by the road? 3) Characterize the current status of the corridor sites impacted by the road network.Item Status and spatio-temporal ranging behavior of leopard (Panthera pardus) in Dachigam National Park, Srinagar, J&K.(Wildlife Institute of India, Dehradun, 2021) Noor, Athar; Habib, Bilal; Gopi, G.V.This study was initiated by Wildlife Institute of India, Dehradun with support funding from the Department of Science and Technology (DST), Government of India, in December 2010 to December 2013 to estimate leopard population and prey abundance, to study the leopard feeding habits and to determine the ranging behavior of leopards in Dachigam National Park. This thesis is an outcome of the main study and has three main objectives. The first objective being to determine the population status of leopards; second is to study the ranging behaviour and habitat use by leopards and lastly to model habitat suitability for leopards in Dachigam National Park. This study also provides basic information about co-occurrence of mammalian species in the community of the moist temperate forest of the Kashmir Himalaya, IndiaItem 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 Ecological impacts of roads on mammals and integrity of the Central Indian Tiger Landscape(Wildlife Institute of India, Dehradun, 2023) Saxena, Akansha; Habib, Bilal; Rajvanshi, AshaRoad networks are increasing at an alarming pace worldwide, but most rapidly in developing countries like India. The drivers of road building in such countries include the need to make the benefits of development accessible to citizens in the remotest corners. However, road building in ecologically rich and sensitive regions can have severe repercussions for the wildlife in these regions. Road construction leads to destruction of habitats and physically disconnects previously contiguous landscapes. Traffic on roads directly cause wild animal mortality, cause changes in behaviour of wildlife by altering patterns of space use, and in the long-term can cause populations to diminish through either loss due to mortality, or by isolation of neighbouring populations by creating a barrier to their movement. Through this study, I aimed to understand the responses of a large mammal community to road-related disturbance through different methods, and form a basis for identifying and prioritising road stretches for mitigation of impacts on the large mammal community. The study was based in the central Indian tiger landscape which has one of the greatest potentials for long-term tiger conservation in the country, and at the same time is also facing incremental rates of road infrastructure development. The focal study species included the tiger, its co-predators and primary prey. The study is the first long-term research on the ecological impacts of roads conducted in an important tiger conservation landscape. It has direct management implications for understanding varied species responses to roads, mitigation requirements at different road types and forest protection types, and for landscape-scale prioritisation of sites for mitigating barrier and collision risk.Item Indian Grey wolves (Canis lupus pallipes) in Human dominated landscape; Movement, space use and foraging(Wildlife Institute of India, Dehradun, 2023) Khan, Shaheer; Habib, BilalThe study presented a comprehensive investigation into the ecology of Indian wolves (Canis lupus pallipes) within human-dominated landscapes in Maharashtra, India. The study focused on movement patterns, den and rendezvous site selection, and food habits of Indian wolves to gain insights into their adaptation strategies and ecological interactions within changing environments. Seven adult wolves (three males and four females) and four subadult wolves (two males and two females) were captured using soft leghold traps from 2017 - 2021. Trapped wolves were held using a double-threaded nylon hockey net and immobilized using Ketamine–Xylazine by injecting intramuscularly on their hind leg and fitted with GPS collars. A total of ten wolves from seven different packs were fitted with GPS collars, and one male was fitted with a proximity collar. The GPS collars were programmed for the different intervals between positions ranging from 0.5-5 hours per fix (median=1 hour), depending on the time of year and type of individual. I then scaled the data to 1 hour per fix for movement analysis. This research underscores the importance of understanding wolf movement, denning ecology, and food habits for effective conservation strategies. As human populations and habitat alterations increase, studying wolf adaptation is crucial for species-specific conservation planning.Item Movement and space use pattern of Tigers in the Eastern Vidarbha landscape, Maharashtra, India(Wildlife Institute of India, Dehradun, 2024) Hussain, Zehidul; Habib, BilalMovement is a crucial ecological process that influences the survival, population dynamics, and evolution of animals. Animal movement patterns are diverse and are influenced by life stages, sex, age, and habitat requirements. The relationship between animal movement and conservation is complex, particularly due to human-induced environmental changes This study emphasises that various factors influence animal movement, including individual characteristics and external factors such as resource availability, distribution, competition, and predation. Animals adjust their space use based on seasonal changes in resource availability. Additionally, movement patterns and space use can be influenced by habitat disruption, forcing individuals to displace and establish new home ranges. Landscape features play a significant role in animal home ranges, with resource distribution determining the extent of the required area. Fragmentation of habitats and human activities can affect landscape connectivity, leading to isolation, reduced gene flow, and potential genetic bottlenecks or local extinctions. Thus, maintaining habitat connectivity is crucial for long-term survival of highly mobile species. The study highlights the need for comprehensive datasets and technological advancements, such as GPS tracking, to study animal movement and behaviour. It also emphasises the importance of studying dispersal patterns, as dispersed individuals often encounter humandominated landscapes and face increased vulnerability to anthropogenic effects. This study focused on quantifying movement patterns and space use across three life stages: predispersal, dispersal, and post-dispersal phases. The results revealed differences in space use within and outside protected areas, with individuals outside protected areas requiring larger territories. The study also identified seasonal variations in space use and movement patterns, with dispersed tigers exhibiting the highest space use. Land-use composition, landscape configuration, and anthropogenic disturbances influence the use of tiger space. These findings provide insights into the factors influencing tiger movement and space use in a human-dominated landscape. They highlighted the importance of maintaining habitat connectivity, reducing anthropogenic disturbances, and restoring suitable habitats outside protected areas to facilitate dispersal and ensure the long-term survival of tigers.Item Evaluating the use of Camera-Traps for population estimation of unmarked individuals using spatially explicit models in Tadoba-Andhari Tiger Reserve, Maharashtra, India(Wildlife Institute of India, Dehradun, 2021) Chatterjee, Nilanjan; Habib, BilalWildlife monitoring is of fundamental importance to establish baseline information, measure population changes and extinction risk. Motion-triggered camera traps are an increasingly popular tool for monitoring terrestrial species over large landscapes. Over the years, the application of camera traps has increased exponentially but studies aiming at fundamental information about sampling design and protocols are still limited to simulation studies. In this dissertation, we have used occupancy as an indicator of effective species monitoring. Occupancy has become a robust and unbiased state variable to monitor species worldwide. However, the optimal sampling design required for robust estimations of occupancy is lacking for many species.The Tadoba-Andhari Tiger Reserve (TATR) is situated in the Chandrapur district in the the Vidharbha Landscape of Maharashtra state, between 204’53” to 2025’51’’ N and 7913’13” to 79 33’34” E (Figure 6). The TATR is distributed over an area of 1700 sq. km which consists of Tadoba national park and Andhari wildlife sanctuary.Item Understanding Wolf Howls and their application in individual identification and population estimation(Wildlife Institute of India, Dehradun, 2022) Sadhukhan, Sougata; Habib, BilalThe current study addresses the knowledge gap about Indian wolf vocalisation. Alongside, it focuses on the identification potentiality of wolf howl to an individual level for using them in population estimation through mark-capture-recapture. The study also includes the howling behaviour and responses of the Indian wolf to various ecological and anthropogenic factors. Understanding the howling behaviour is key for designing howl survey methods for wolf census. As howl survey is a technique to detect wolves over long distances, the technique might provide a cost-effective solution for population estimation and a noninvasive monitoring tool for Indian wolves in human-dominated landscapes.Item Understanding sioth bear (Melursus ursinus) Genetic Connectivity across Vidarbha Landscape, Maharashtra, India(Wildlife Institute of India, Dehradun, 2024) Gomes, Lynett; Habib, BilalThe goal of this thesis is to use non-invasive DNA sampling to study how sloth bears roam throughout the Vidarbha region of Maharashtra, India. Maharashtra's Vidarbha Landscape is a quickly changing area. The great biodiversity that lives there is under risk from the quick changes in the landscape. It's vital to note that there are about 200 instances of deadly human-sloth bear interactions in Maharashtra alone each year, and that number could increase in the years to come due to increased development activities in the area. Wide ranging or long dispersing species who have extensive movements across a landscape are the ones most affected by range contraptions and fragmentation of the habitat. The broad objectives of this thesis were 1. Understand Genetic Structure, Variation and relatedness amongst sloth bear populations in Vidharbha Landscape and 2. Evaluate genetic relatedness with respect to permeability of the landscape and connectivity. The functional corridor obtained for sloth bears is the main result of this thesis. This can be used in a number of ways by managers, planning bodies, and stakeholders. First, the occupancy and connection would assist indicate key movement regions and areas of concern when evaluated in conjunction with the documented incidents of sloth bear attacks. The pinch points could be focused upon and conserved as intact corridors. Secondly, the movement areas could be modelled with documented bear attacks to highlight the probable corridors or movement areas that need awareness to avoid bear attacksItem Subsidized Mammals: Understanding the mammalian interactions with garbage sites around Western- Rajaji Tiger Reserve, Uttarakhand(Wildlife Institute of India, Dehradun, 2024) Nagarale, Shashank; Habib, Bilal; Shrotriya, Shivam; Pandav, BivashAnthropogenic food subsidies in the form of garbage dumps are widespread across the globe. When such sites are found around protected areas/wildlife habitats, wildlife is observed to exploit these subsidies as food resources. Foraging on such human-derived foods may have a negative or positive impact on individual to community/ecosystem levels. It becomes important to know the species associated with garbage dumps when found around protected areas and understand the interactions happening at the garbage dumps. This study was conducted aiming to know the animals at risk and also increase our understanding of these novel setups. I deployed 13 IR camera traps at total 10 garbage sites resulting in a cumulative effort of 437 trap nights at the garbage site. The camera trap data was processed using Megadetector & SpSeg packages in python. This data was used to get the Relative Abundance Index with respect to 437 trap nights. Sambar (RAI= 8.35) was the species with the highest visitations at the garbage site, followed by Indian crested porcupine (RAI= 2.70) and spotted deer (RAI= 2.15). Synanthropes like rhesus macaque (RAI= 1.78 ) and wild pig (RAI= 1.67) were the most visitors following spotted deer. I hypothesised that synanthropic species will have higher visitations because of distribution outside protected areas, followed by omnivores from the forest area as compared to herbivores and carnivores from the forest areas because of their ability to exploit larger variety of food resources. The data from this study rejected this hypothesis as forest dwelling species like sambar and Indian crested porcupine visited these sites more as compared to other synanthropes. Lesser visitations by omnivores like golden jackal, small indian civet, small indian mongoose; carnivore like common leopard along with scavenger striped hyena was a result of the less percentage of poultry waste (0.33% at only one site) in the garbage sites. I collected data on variables such as distance of the garbage site from the protected area, human infrastructure and waterbody, also quantified the size of the garbage site in terms of perimeter, NDVI difference between the protected area and garbage site as a surrogate of vegetation cover, relative abundance of each species in the adjoining protected area and calculated the composite RAI values of human, dogs/cats and livestock as a disturbance measure . I quantified the garbage in broader categories using a 1 m2 quadrat which was divided into smaller sets of 25x25 cm2. A total of 39 plots were laid for all the garbage site. The categories quantified were food wrappers & food disposables, food materials, religious offerings, agriculture discards, dung plates, sanitary waste, construction waste, carcass & poultry waste, pharmaceutical waste, cloths and plastic and others. The relation between relative abundances within protected area and visitations at the garbage site was assessed using Spearman correlation test along with Wilcoxon test p-values. With the available dataset I used ANOSIM using ‘vegan’ package in R program v4.1.2 to investigate the effect by considering the dissimilarity of the communities between sites based on the RAI values of the species for each garbage site. Relative abundance from protected area was not related to visitation of the species at the garbage site. Out of the selected variables, the ANOSIM values suggested the effect of ‘distance between garbage site and protected area’ on forest species and synanthropes. The effect of the ‘size of garbage site’ on the species could not be tested as there was not much variation in the sizes of the garbage sites. Human, dogs/cats and livestock presence affected the forest species, suggesting their sensitivity towards disturbances, while synanthropes were found to have affinity with the NDVI difference between protected area and garbage sites (vegetation cover at the garbage site) and the ‘percentage of food materials available in the garbage site’. To understand the co-occurrences at the garbage site, I modified the probabilistic models for co-occurrences (Veech, 2013) to get pair-wise associations at the temporal scale of one hour. A total 13 mammals avoided co-occurring with humans (and vehicle) while nine with livestock and dogs. Co-occurrences were found to be there between sambar and Indian crested porcupine at two out of three religious sites and at a household site, suggesting high tolerance levels to each other’s presence at the garbage site to exploit the resources. One of the sites was visited by barking deer with spotted deer group/herd. This association by solitary living barking deer can be for foraging effectively by reducing vigilance efforts in a group.