Theses and Dissertations

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Start date: 2021Subject: search.filters.subject.Arunachal Pradesh

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    Ecology of major Invasive Alien plant species (IAPs) across various habitats in Pakke Tiger Reserve, Arunachal Pradesh
    (Wildlife Institute of India, Dehradun, 2026) Singh, Huidrom Bablin; Adhikari, B.S.
    Proliferation of invasive alien plant species poses a significant threat to the structure and function of ecosystems, making this a critical area of focus within the scientific communities. These species cause extensive damage to the biodiversity, as they are capable of altering the ecosystems and outcompete the native biodiversity. Globally, their abundance has increased dramatically in forested and other natural areas due to rapid economic growths and anthropogenic activities. To counter this alarming situation, understanding the distribution pattern, climatic influences on phenophases and ecological impact on soil by invasive alien plant species is a priority. In northeast India, studies on invasive alien plant species diversity and their impacts are very limited, especially in Arunachal Pradesh. Therefore, the present study aims to determine the patterns of distribution, phenophases and physiochemical impacts by the dominant invasive alien plant species in five forest types (Assam Alluvial Plain Semi Evergreen Forest-AAPSEF, East Himalayan Mixed Coniferous Forest-EHMCF, East Himalayan Subtropical Wet Hill Forest-EHSTWH, Non-Forest-NF and Riverine Forest-RF) of Pakke Tiger Reserve, Arunachal Pradesh. The altitudinal range of Pakke Tiger Reserve is 150- 2050 m above the sea level (490 to 6725 feet), with an average annual rainfall of 2500 mm. The current study reveals a total of 43 invasive alien plant species in the study area. However, their species richness in five forest types was in declined trend with the increase of elevation. Across the forest types, AAPSEF (30%) display the maximum level of invasion and least incursion in EHSTWHF (16%) in the current study. Among the nine species selected for the study, Chromolaena odorata (L.) R.M.King & H.Rob. was found dominant and distributed extensively in all forest types, with highest relative density (51%) in EHSTWHF and relative abundance (10%) in NF. The entire selected species shows contagious distribution pattern (<0.5) in all forest types except for Urena lobata in NF displaying random distribution (0.025 - 0.5) in study area. Ageratum conyzoides L., Chromolaena odorata (L.) R.M.King & H.Rob. and Urena lobata L. are the species with extensive distribution in all forest types in comparison to other selected species showing their dominance over the native vegetation. Moreover, maximum area cover percentage was exhibit by Chromolaena odorata (L.) R.M.King & H.Rob. followed by Ageratum conyzoides L., Mikania micrantha Kunth and Urena lobata L. across the forest types in Pakke Tiger Reserve. Forest types such as AAPSEF, NF and RF display high level of disturbances while the EHMCF and EHSTWHF have fewer incursions by invasive alien plant species in the study area. Phenological pattern on the selected species shows that Bidens pilosa L. has the longest flowering phenophases while Chromolaena odorata (L.) R.M.King & H.Rob. has the maximum fruiting duration in EHSTWHF. For leaf fall and initiation, Urena lobata L. display the longest duration in RF. Moreover, coefficient of variation shows that most of the species display asynchronous phenophases across the forest types of Pakke Tiger Reserve. Repeated measures of ANOVA also display that Ageratum conyzoides L. display difference in flowering in NF and EHSTWHF while Chromolaena odorata (L.) R.M.King & H.Rob. leaf initiation show difference in EHMCF. Correlation and linear regression display influences of climatic parameters i.e., precipitation, relative humidity, minimum and maximum temperature to the selected species in the study area. CCA also indicates that precipitation, minimum and maximum temperatures directly influence the phenophases of the selected species. However, relative humidity influences the phenophases of the selected species when in cohesion with other climatic parameters. Ecological impact on native species by invasive alien plant species was determined by collecting the soil sample of the most dominant species i.e., Chromolaena odorata (L.) R.M.King & H.Rob. across the forest types in Pakke Tiger Reserve. The result shows that clay and copper contents were high in all invaded sites while soil pH, sand, boron and water holding capacity were significantly lower in invaded plots. Out of 16 soil variables, T-test reveals that AAPSEF and NF have variation in 13 variables while EHMCF, EHSTWHF and RF have difference in 12 variables. ANOVA between the invaded and uninvaded sites also indicates significant differences in Boron, iron, copper, nitrogen, water holding capacity, clay, silt and sand. Moreover, correlation shows eight of the variables display relation between them. Furthermore, PCA indicates that INNF soil properties were different from the remaining sites. The results indicate that Chromolaena odorata (L.) R.M.King & H.Rob. alter the soil properties of invaded areas by improving the fertility, making it ideal for the proliferation process in future scenarios.
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    Study on distribution and relative abundance of large mammals and impact of human disturbance in and arond Mehao Wildlife Sanctuary, Arunachal Pradesh
    (Wildlife Institute of India, Dehradun, 2023) Ahmed, Arif; Gopi, G.V.
    The current study was started to gather baseline data on a few ecological factors (Diversity, distribution, relative abundance, Activity pattern and habitat preference) of selected large animals in Mehao WS. Northeast India. The study period was November 2017 to 2020. The objectives of the study are 1. To estimate the relative abundance and occupancy of selected large mammals in and around Mehao wildlife sanctuary. 2. To develop Habitat suitability model for selected large mammals in and around Mehao WS 3. To analyse the land use/land cover change pattern and to identify the main driving factors.
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    Aspects of ecology of large carnivores and their prey in and around Dibang Wildlife Sanctuary, Arunachal Pradesh, India.
    (Wildlife Institute of India, Dehradun, 2021) Adhikarimayum, Aisho Sharma; Gopi, G.V.
    The conservation of large mammalian carnivore is prioritized as it acts as keystone species across diverse zones of habitat around the globe. They play an important role in regulating and maintaining the abundance of ungulates, in turn influencing the functioning of the ecosystem. In the last few decades, large carnivore’s population have been declining due to anthropogenic activities such as habitat destructions creating forest patch, illegal trade and hunting on wildlife. These threats posed a challenge in the conservation and management of large mammalian carnivores. The co-existence of large carnivores is occurring in many places in the wild due to the availability of less prey base, habitat fragmentation and high human interferences. Thus, the understanding of ecology of large carnivore and their prey species particularly on habitat selection, prey-predators’ relations in aspects of distribution and abundance, such ecological data can be useful to evaluate not only their habitat requirement but will also aid in long term management of wildlife and conservation of their habitats. So, efficient conservation and monitoring of large carnivores such as tiger and wild dog (dhole) is required for the assessment of complex mix of ecological, ethical and symbolic inter-relationships. The study was conducted at Dibang Wildlife Sanctuary; it covers an area of 4149 km2 and situated in Dibang Valley district of Arunachal Pradesh. The tiger is culturally considered as a brother by the local Idu Mishmi community who live in the Dibang Valley district in Arunachal Pradesh. Though the local community has long been claiming about the presence of tigers in the region, unfortunately, no efforts were made by the line departments, academicians, or conservationists to assess and monitor the tigers, their prey, and habitat in Dibang Wildlife Sanctuary. This preliminary study was carried out after the rescue of tiger cubs from the district in Angrim Valley during December 2012. The rescued tiger cubs were the first-ever record of a tiger from the sanctuary. The primary objectives for the aspects of ecology of large carnivores and their prey in and around Dibang Wildlife Sanctuary are: a) To estimate the abundance of large carnivores in and around the Dibang Wildlife Sanctuary, b) Assess the abundance of wild prey in and around the Dibang Wildlife Sanctuary, c) Assess the food habits and prey selectivity of large carnivores in and around the Dibang Wildlife Sanctuary, and d) To quantify the extent of human-wildlife interaction in and around the protected area. An intensive camera trapping exercise was carried out during October 2015 to June 2017 in the Dibang Wildlife Sanctuary and adjoining landscapes to monitor large carnivores and their prey species. Dibang Wildlife Sanctuary and its adjoining landscape harbors sizable population of large carnivores such as tiger and wild dogs. The study has reported the first photographic evidence of tiger presence from the community forest of Mishmi hills range in Dibang Valley District at an altitude of 3630 m amsl and it is the highest record from the Indian part of the Eastern Himalaya Biodiversity hotspot. This study has generated baseline information on tiger, wild dog and prey species in Dibang Wildlife Sanctuary and adjoining landscape. Tigers do not necessarily use only the protected areas; they use the community forests outside the protected area as well.
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    Comparative Analysis of Abundance Estimation Methods for Ungulates Along with their Spatio-Temporal Interaction and Habitat use in Pakke Tiger Reserve, Anunachal Pradesh
    (Wildlife Institute of India, Dehradun, 2021) Singh, Tarun; Kolipakam, Vishnupriya; Qureshi, Qamar; Sathyakumar, S.
    Abundance estimation and habitat utilization of species are critical for the conservation of any species. The forests of North-Eastern India are challenging due to the low abundance of ungulates, dense undergrowth, and logistic feasibility. In this study, we attempt to use camera trap-based methods (distance sampling and random encounter model) to estimate the abundance and habitat use of five ungulate species in the Pakke Tiger Reserve of western Arunachal Pradesh. This study was conducted from February 2021 to May 2021.This study provides crucial information on abundances and habitat use, which can be used for focussed conservation efforts for ungulates occurring in low densities.