M Sc Dissertation(WII)
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Item 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.Item Assessing the distribution and density of the Fishing Cat in Bhitarkanika mangroves of eastern India by(Wildlife Institute of India, Dehradun, 2024) Ashik, C.S.; Mukherjee, Shomita; Gopi, G.V.; Pandav, BivashIdentifying the areas of occurrence, population, and the factors affecting the species distribution is critical in conservation and management. The Fishing Cat (Prionailurus viverrinus), a smaller feline native to South and Southeast Asia, is globally vulnerable and adapted to wetland habitats, with a diet primarily consisting of fish. This makes Bhitarkanika, a mangrove ecosystem, an ideal habitat for the Fishing Cat. This study was conducted to estimate the species density, determine the factors affecting its distribution, and assess the effect of lunar illumination and tidal fluctuation on Fishing Cat activity. Despite known occurrences of Fishing Cats in this area, there has been no proper assessment of their population or other ecological studies. Camera traps were deployed in 109 grids, each covering 1km², across a total of 145 km², for 2878 trap nights. Camera trap locations are unbaited, with two cameras used to capture both flanks. Spatially explicit capture-recapture (SECR) was used to estimate the density, resulting in 0.6 ± 0.1 individuals per km². The abundance was also calculated, with an estimate of 99 ± 16 individuals. These density estimates from this study are close to recent high-density estimates for the species. The canopy cover, the width of the creek, canopy cover and the distance to the aquaculture farms significantly influenced the Fishing Cat habitat use, indicating the need for the conservation of natural mangrove habitats and regulation of aquafarms present near the forest. In contrast, the presence of Saltwater Crocodile showed a negative effect on the distribution of Fishing Cats. The Fishing Cats were more active during the brighter nights of the moon phase (μ= 266.783, r= 0.051, p< 0.01) due to better visual detection. The activity was influenced both by the tidal fluctuations in terms of food resources from waterbodies and it is further enhanced by the lunar illumination during the night. Pairwise non-parametric tests showed that the probability distributions of Fishing Cat activity under lunar illumination and tide fluctuation (D= 0.125, p-value = 0.9885 and D= 0.125, p-value= 0.9899) were similar, indicating minimal differences between each probability distribution. This study underscores the importance of protecting the mangrove habitat and controlling aquaculture expansion to ensure Fishing Cat survival in the Bhitarkanika National Park.Item Abundance and social organization of male Asian elephants (Elephas maximus) in Rajaji Tiger Reserve(Wildlife Institute of India, Dehradun, 2024) Madhusudanan, Abhimanyu; Pandav, Bivash; Lakshminarayan, N.; Mondol, Samrat1. Asian Elephants are complex, social, and polygynous mammals living in fission-fusion societies. Male elephants are known to alternate between leading solitary lives, in all-male groups or associating with mixed-sex herds. All-male groups allow younger males to learn from older males, test strengths and spar with their peers. While much work has been done on female Asian elephant societies, studies focused on male association patterns are limited, but gaining importance in the light of human-elephant conflicts. In this study, I estimated the abundance of adult male elephants in a stretch of forest spanning over 40 km along the east bank of the river Ganga in Uttarakhand using a polygon search-based spatially explicit capture recapture (SECR) framework 2. I invested a survey effort of ~3014 km to estimate the abundance of the adult male segment of the population using a capture-recapture framework. Using a combination of morphological features, I identified 34 adult males from 124 elephant sightings. Association patterns of the male elephants, following behavioural sampling approaches were also recorded during the surveys. 3. Adult male elephant density was 0.05 (SE=0.01)/km2, and a derived abundance of 40 (SE=1.4) for the 475 km2 study area. This demonstrates that polygon search-based SECR is an effective approach in estimating elephant abundance.Item Assessment of Swamp Deer Habitat in Pilibhit Habitat Block Uttar Pradesh(Wildlife Institute of India, Dehradun, 2021) Singh, Lovepreet; Mondol, Samrat; Pandav, BivashThe study was carried out in terai region of Uttar Pradesh covering the Pilibhit Tiger Reserve (PTR) and those areas of North Kheri Forest Division (NKFD) which fall between Pilibhit TR and Kishanpur Wildlife SanctuaryItem Patterns and Determinants of Elephant Habitat Use in a Mosaic Landscape in Northern Chhattisgarh(Wildlife Institute of India, Dehradun, 2019) Meshram, Kushagra; Pandav, Bivash; Nigam, ParagHabitat use is affected by a wide range of factors,like the amount of resources available, its distribution in space, quality of resource,presence and absence of limiting factors like roads and settlements. Increasing anthropogenic pressure has lead to the degradation of the habitat available to animals in the form fragmentation of forests, introduction of invasive species and reduction in the quality of the available forage. This in turns alters the composition and modify the natural systems. This modification of habitat may compel animals to alter the way they use it by adopting new strategies. On these lines, I did my study on assessing the factors that influence habitat use of elephants in a mosaic landscape in Northern Chhattisgarh. The study was carried out in Surguja district of Chhattisgarh. This district is famous has been infamous for elephant conflict since 1900s. The problem has exacerbated due to rapid urbanisation, increasing population and alteration in land use. Today, it is one of the most human-elephant conflict affected area in country. This is a repercussion of wanton modification of natural habitat. How elephants are interacting with this modified habitat which is a matrix of remnant forest patches, agricultural areas and settlements is the crux of my study. In order to to study this, I selected a study area of 1200 square kilometres. As a part of the study I also followed two satellite Collared individuals(one living with a herd and the other, a solitary male) to understand spatiotemporal habitat use and ranging behaviour of elephants. I also collaborated with Indian Space and Research Organisation for my study. High resolution land-use maps were provided by ISRO for this study. The field work was carried out from 21st December 2018 to 15th April 2019. GIS based work was done in the GIS lab of the Wildlife Institute of India, Dehradun.Item Assessment of grassland communities its use by mammals and mapping the potential habitat of Rhinoceros unicornis in Valmiki Tiger Reserve, Bihar(Wildlife Institute of India, Dehradun, 2017) Murari, Krishna; Talukdar, Gautam; Pandav, Bivash; Jhala, Y.V.This study was conducted to identify grassland vegetation communities associated mammals and to find out the potential habitat of Rhinoceros unicornis in VTR.Item Response of Leopard (Panthera pardus fusca) in Varying Density of Tiger (Panthera tigris) in Rajaji National Park, Uttarakhand(Wildlife Institute of India, Dehradun, 2015) Rathore, Harshvardhan Singh; Pandav, Bivash; Habib, BilalApex predators hold a special position in ecosystems due to their well known top down effects. Intra-guild competition is an integral process that affects population dynamics of large carnivores and may cause trophic cascades. In India tiger and leopard are two large sympatric felids undergoing intra-guild competition. The two co-exist by segregating in their spatial, temporal and dietary niche. Rajaji National Park (RNP) provides an ideal condition to study interaction amongst large predators. Following human settlements relocation in the past decade, the tiger . population has recovered in eastern RNP whereas due to lack of connectivity it has declined in western RNP. Thus, RNP provides a perfect ecological setup to study responses of leopard and prey in varying tiger density gradient. I assessed prey abundance in RNP using line transect based distance sampling using software Distance 6.2. Leopard and tiger density- were also estimated by using camera trap pictures on a capture- mark recapture framework using spatially explicit capture- recapture models. Spatial separation was seen between the two carnivores by using density surface models. Principal prey, prey selection and their dietary overlap was also assessed. High abundance of major prey was seen with the density of chital ranging from 23.61±9.21 Isq.km in eastern RNP to 21.77±4.32/sq.km in western RNP and sambar ranging from 10.61±3.21/sq.km in eastern RNP to 15.65±2.52/sq.km in western RNP. The density estimates of leopard were 29.01± 4.00/100 ~q.km and 25.37 ± 2.63/100 sq.km for the eastern and western sector respectively. The density estimates of tiger were 3.03±0.95/100 sq.km and 0.28±0.23/100 sq.km (only two tiger) for the eastern and western sector respectively. Leopard diet was primarily composed of chital in eastern RNP, in the western sector it was dominated by sambar. Chital was the principal prey species of tiger in RNP. Spatial separation was seen between tiger and leopard in both the sectors of the park with leopards clearly avoiding the high intensity usage areas of tigers. This study has created baseline data for predator and prey in RNP and would be helpful in managing the park better and for future monitoring.Item Assessing Prevalence of Parasitic Diseases at Swamp Deer (Rucervus duvaucelii duvaucelii) Livestock Interface at Jhilmil Jheel Conservation Reserve and Kishanpur Wildlife Sanctuary(Wildlife Institute of India, Dehradun, 2015) Talukdar, Animesh; Nigam, Parag; Pandav, BivashThe interaction between wildlife, livestock and other domesticated animals is existent since the domestication of species. This has seen an increase in recent past owing to increased anthropogenic dependence on natural habitats. The domesticated animals, maintained at high population densities, have the potential to act as reservoirs of disease for wild animals. Parasitic infection both micro and macro; in wildlife at the wildlife - livestock interface, can affect conservation efforts by "spillover" and "spillback". Combined with other stressors, disease in wildlife can impact reproduction, survival and fitness, thereby affecting abundance and diversity of wildlife populations. Especially vulnerable are species with limited abundance and range. Macro-parasites especially the helminths, flukes and various ectoparasites have life cycles characterized by distinct life stages and are opportunistic In nature and can infect a large number of host species. The present study focuses on interactions between Swamp deer and livestock at two sites namely the jhilmil Jheel (JJ) in the Jhilmil Jheel Conservation Area, Haridwar Forest Division and and Jadi Tal (JT) in the Kishanpur Wildlife Sanctuary. Swamp deer is a vulnerable, flagship deer species from the Indian subcontinent, with distribution restricted to isolated localities in north and central India and parts of southwestern Nepal (Qureshi et al. 2004). Therefore any factor exacerbating threats for population decline of the species need careful evaluation. This work is a first structured parasitic prevalence study at Swamp deer - livestock interface, from two of the eight prime locations (Jhilmil Jheel Conservation reserve and Kishanpur Forest Division) reported for the northern population of swamp deer in India. The study included an estimation of population size of swamp deer and livestock and their space use patterns. Coprological examination of both swamp deer pellets and livestock dung was used to assess the prevalence and load of gastro-intestinal parasites. The result revealed that population of Swamp Deer was 153 and 435 ; while livestock counts were 84 and 35 respectively for Jhilmil Jheel and Jadi Tal during the stud) period. At Jhilmil Jheel a significant spatial overlap was observed between the two groups was observed at Jadi Tal. The overall prevalence of parasitic ova in the dung sample of swamp deer and livestock population was higher at JJ as compared to JT (Swamp deer 15.38% and 12.69% and Livestock 95.4% aand 60% respectively). The parasitic ova reported from both the sites included Strongyles, Trichostrongyle (direct life cycle), Amphistomes; Fasciola; and Moniezia (mediated through intermediate host).Difference was observed for the parasite species richness and prevalence between swamp deer and livestock at Jhilmil Jheel and Jadi Tal. Parasitic ova with simple life cycle dominated over the parasites, with intermediate hosts at Jhilmil Jheel. Analysis of parasitic load based on Mc Master's technique (Soulsby , 1982) revealed significantly higher load of parasitic ova at Jhilniil Jheel in swamp deer as compared to Jhadi TalItem Proximate Determinants of Ungulate Distribution and Abundance in Pilibhit Forest Division, Utter Pradesh, India(Wildlife Institute of India, Dehradun, 2011) Bista, Ashish; Ramesh, K.; Pandav, BivashThis study was conducted in Pilibhit Forest Division, Uttar Pradesh from December 2010-April 2011 to quantify the current status of ungulates, as a measure of tiger conservation efforts. The study focused on understanding the distribution and population size of ungulates in PiIibhit, and assessed the contribution of these species in tiger's diet. The study also looked into species-habitat association, at the level of proportion of habitat availability and grassland over space. Sampling framework followed Stratified Random Design, with spatially balanced approach. Estimates of distribution and population density were obtained following Single Season Occupancy Model and Distance sampling method. A total of 41 grids (5.20 sq km each) were sampled following the above framework. These grids were sampled based on 41 line transects ranging from 1 to 3 km long, which accounted for 288 km sampling efforts, including 3-5 temporal replicates for each transects. This study was carried out in four ranges (Mahof, Mala, Barahi & Haripur) of Pilibhit Forest Division with spatial coverage of ca. 420 sq km. Occupancy pattern of ungulates were in the order of chital (100%), hogdeer (17%), wild pig (93%), nilgai (81 %), swamp deer (11 %) and sambar (3%). Global density estimate of ungulates for Pilibhit Forest Division was 40.5 animals/sq km. The most abundant ungulate was chital (22.4/sq km), followed by nilgai (12/sq km) and hog deer (7.2/sq km). It was found that there were higher densities in edge habitats and that there was a particular association for grassland, signifying the importance grassland patches in the ungulate densities in terai habitats. Scat analysis (n= 24) revealed that hogdeer and wildpig, though occur in low densities, appeared to be the preferred prey, while chital contributed in tigers diet substantially in proportion to availability in the area. With given prey availability, forests of Pilibhit has the potential to support tiger population of 8.1 animal 100 sq km. The study highlights the significance of managed forests in terms of supporting considerable population of ungulates relevant for tiger conservation efforts. The study also supports the previous claim that grasslands support higher abundance of ungulate prey, and that in the absence of large sized prey, tiger switches to medium sized prey. The available information generated for the first time in Pilibhit Forest Division at large spatial scale provides a useful baseline for managers.