M Sc Dissertation(WII)

Permanent URI for this collectionhttp://192.168.202.180:4000/handle/123456789/3

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Author: search.filters.author.Ramesh, K.Subject: search.filters.subject.Ungulates

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    Understanding the influence of tourism on behaviour and habitat use of Nilgiri tahr (Nilgiritragus hylocrius Ogilby, 1838) in Eravikulam National Park, Kerala
    (Wildlife Institute of India, Dehradun, 2024) Mohammed, Aslam; Chinnasamy, Ramesh; Ramesh, K.; Karunakaran, P.V.
    Eravikulam National Park is the home for the largest number of Endangered Nilgiri tahr in the world (Predit et al, 2015; Saju,2012) and the park is also having an ecotourism programme dedicated for observing tahr at closer distance (Saju,2012). This population in the tourism area have high human interaction and have become habituated to the presence of humans. Habituation is known to influence the wild behaviour and instincts of animals (Shackley,1996; Knight,2009; Mazur, 2006; Marler & Hamilton,1966; Hingham & Shelton,2011) and this study was intended to understand the influence of tourism on the behaviour and habitat use of Nilgiri tahr in the Eravikulam National Park.The field work was carried for four months from January 2024 to April 2024, of which tourism was closed during the months of February and March, creating three sampling seasons: preclosing, closing and reopening season with varying human presence. Scan sampling and focal sampling (Altman, 1974) were carried out and observations of the population in tourism area were compared to the populations in Varattukulam region of core area which have minimum human interaction. The result showed a significant difference in the behaviour and habitat use between tourism and core area and also across tourism season. The activity pattern in the tourism zone is different from that of the core. Habitat use was also different as most of the behaviour in tourism area were not showing any significant relationship with a particular habitat unlike the population in core area. The flight distance in tourism area was also found to be very much shorter (1.8m) in compared to core area(118m) which is evidence for the extend of habituation tahr has gone through. Interestingly, the tourism adjacent hills which belonged to the same landscape as that of the tourism zone showed higher flight distance. The tourism zone also had high density of predators (Tiger and leopard) and there was spatial overlap between tahr and predators. Study was not able to prove the existence of human shield hypothesis (HSH) (Berger, 2007) as large carnivores were still present in the tourism area and even when tourism was closed, which reduced the number of people on the road, tahr were still coming to tourism area. However, tahrs were observed to be avoiding the carnivore by temporal separation as all camera trapping of predators happened during night time but no tahr was active at that time in tourism road.
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    Effect of Grazing on the Community Structure and Functional Diversity of Grazing Lawns in Sathyamangalam Tiger Reserve
    (Wildlife Institute of India, Dehradun, 2021) Malagi, Aaroha; Adhikari, B.S.; Page, Navendu V.; Ramesh, K.
    Understanding the effects of grazing (by both livestock and wild ungulates) on grasslands is paramount to come up with more robust managerial actions to conserve, and increase the ecosystem function of these valuable ecosystems. In the current study, we investigate the effects of grazing on a highly productive, mesic grassland ecosystem, viz. grazing lawn in Sathyamangalam Tiger Reserve, Tamil Nadu, India. We examined how species richness and composition of a grassland patch change across a grazing gradient by carrying out plot-based vegetation sampling in the grazing lawns of Sathyamangalam Tiger Reserve. We also looked at how trait composition and functional diversity changed across the grazing gradient, to better understand the plant functional response and resilience of the grazing lawn complex. We used a Linear Mixed Effect Model (LMM) to investigate the impact of grazing intensity on species richness, and a Non-metric Multidimensional Scaling (NMDS) to look at the differences in species composition between different grazing treatments. Functional composition and diversity were measured using Lavorel and Villeger’s index in the ‘FD’ package of R (4.0.2). We found that grazing lawns were minimally affected by grazing intensity in terms of species richness and trait composition, but showed a significant change in species composition and functional diversity across the grazing gradient.
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    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, Bivash
    This 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.