M Sc Dissertation(WII)

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    Investigating the roles of fire and cattle grazing on vegetation, invasives, and their implications on Bengal Florican (Houbaropsis bengalensis) breeding habitat use
    (Wildlife Institute of India, Dehradun, 2025) Thammaiah, Aadya; Nath, Anukul; Dutta, Sutirtha
    Grasslands, though ecologically important, are often overlooked in conservation. These ecosystems are shaped by land-use practices such as fire and grazing, which can help maintain open habitats when appropriately applied. Mismanagement, however, can promote invasive species, threatening native biodiversity. The Bengal Florican (Houbaropsis bengalensis), a critically endangered grassland specialist, highlights the need for targeted conservation in such systems. This study assessed the combined effects of fire and grazing on grassland plant communities, including invasive plants, and Bengal Florican breeding habitat selection in Manas National Park. 2. For the vegetation survey, I selected study sites along gradients of fire frequency (based on 23 years of FIRMS data) and grazing intensity (using distance from human settlements as a proxy). At each site, I used circular plots to sample vegetation and assess species composition. To examine drivers of plant and invasive species abundance, I applied linear models (LMs), incorporating key covariates such as distance to forests, roads, and climate moisture index (CMI). I then used Indicator Species Analysis (ISA) to identify species associated with different fire-grazing regimes. I also performed a Linear Discriminant Analysis (LDA) to assess how well vegetation communities and structure could distinguish between different fire conditions. For Bengal Florican habitat assessment, I quantified vegetation structure visually and insect abundance using sweep netting in display and paired control sites. I used Binomial Generalised 8 Linear Models (GLMs) and Conditional Logistic Regression modelling to evaluate habitat selection by the species. 3. Tree and sapling densities peaked under intermediate fire, whereas shrubs and herbs had the highest density in low fire regimes. Saplings, shrub as well as grass cover peaked in low grazing regimes, but herb cover was highest in low grazing conditions. Among invasives, Leea asiatica and Chromolaena odorata were more frequent in intermediate fire, while Mikania micrantha and Ageratum conyzoides thrived under low fire. Grazing showed significant effects only on Mikania micrantha. ISA identified native species such as Dillenia pentagyna as indicators of low grazing and Cymbopogon flexuosus for medium and high fire regimes, among others. Bengal Florican selected sites with higher insect abundance, shorter vegetation (25–50 cm), with low (outside the PA) and high fire frequency (within the PA). 4. My results showed that plant communities showed species-specific responses to fire and grazing conditions. Bengal Florican habitat-use reflected a preference for open, short grasslands with high insect abundance. In conclusion, my study found that effective conservation requires tailored fire and grazing strategies that sustain open structure and control invasives, especially for the conservation of species such as the Bengal Florican.
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    Assessment of Livestock Diseases as an Indicator of Risk to Greater One Horned Rhinoceros (Rhinoceros unicornis) in Manas National Park Assam
    (Wildlife Institute of India, Dehradun, 2013) Phukon, Debabrata; Nigam, Parag; Ramesh, K.
    Disease ecology is a fast emerging discipline in wildlife conservation. There is particular interest for mega herbivore-livestock interface issues. Diseases also play a role in structuring the demography and viability of the wild population, and this could be addressed by quantitative knowledge on the emergence, spread, persistence and evolution of infectious diseases. Re-introduced wild populations mimic the small population which are vulnerable to stochastic events and disease impacts. The present study focuses on reintroduced population of Greater One-homed Rhinoceros (Rhinoceros unicornis) and their sharing of habitat with livestock in Bansbari Range of Manas National Park (MNP), Assam. It was hypothesised that the interaction of rhinos with livestock has potential to contract diseases from the livestock population, and therefore the diversity and magnitude of disease prevalence in livestock is likely to pose serious threat to the rhinos. The study quantified disease distribution pattern and commonality between livestock and rhino population and map disease gradient in MNP during the period (Jan-April, 2013). The study design involved, (a) sampling of livestock for disease prevalence in the fringe villages, (b) mapping of zone of influence (ZO I) of livestock in the park by tracking livestock movement and sampling on systematic plots, and (c) analysis of livestock husbandry practices in the context of disease prevalence. A total of 110 dung and serum samples collected from 11 villages were Subjected to parasitological examination, disease diagnosis and screening for blood parasites. 10 transects were walked from the periphery to interior of the park and 46 plots were laid to quantify dung density distribution as a surrogate for disease risk. Rhino dung sample was collected from 9 fresh dung sites inside the park for screening of parasitic load and to understand the commonality between livestock and rhinos. The threat to rhino population was measured as an index, given by disease prevalence x livestock use intensity. Of the 110 biological samples collected from 110 livestock in 11 villages, 91 % of animals showed antibodies against one or other infectious agents. Serodiagnosis report confirmed the presence of antibodies against infectious diseases viz. Blue tongue, Tuberculosis, Brucellosis and Chlamydiosis, however were negative for Leptospirosis in livestock sampled. ZOI as measured from the fringe villages to forest interior ranged from 500m to 3.5kms (avg. dist. 2kms), and accounted for I9sq.kms. area. Interpolation results of dung density indicated significant variation of livestock use within ZOI, with high usage contributed by Gyatigaon followed by Katajhar and Rajabeel. Based on the dung analysis of rhinos, parasitic ova of Paramphistomum sp. and significant load of protozoan Balantidium coli was observed. The study established wide prevalence of disease in the livestock. Given that the ZOI of livestock in MNP includes home range of rhinos, the rhino population is likely to be under disease risk and conservation efforts needs to incorporate disease perspective for recovery efforts and long-term viability of rhinos in MNP.