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Item Conservation status of tiger and associated species in the Terai Arc Landscape, India(Wildlife Institute of India, Dehradun, 2004) Johnsingh, A.J.T.; Ramesh, K.; Qureshi, Q.; David, A.; Goyal, S.P.; Rawat, G.S.; Rajapandian, K.; Prasad, S.The Indian portion of Terai Arc Landscape (TAL), stretching from Yamuna river in the west to Valmiki Tiger Reserve, Bihar in the east, spreads across five states along the Shivaliks and Gangetic plains. This unique Landscape consists of two distinct zones: (i) bhabar, characterized by a hilly terrain with course alluvium and boulders, and sal mixed & miscellaneous vegetation communities and (ii) terai, characterized by fine alluvium and clay rich swamps dominated by a mosaic of tall grasslands and sal forests. The terai, in particular, is listed among the globally important 200 ecoregions for its unique large mammal assemblage. Over the decades as a result of conquest of malaria, establishment of numerous settlements and consequent increase in human population, this Landscape has become highly fragmented and degraded. This has led to the local extinction of species such as one-horned rhinoceros (Rhinoceros unicornis), swamp deer (Cervus duvauceli) and hog deer (Axis porcinus), for example, west of Sharda river. Despite its ecological richness and faster rate of degradation and species extinction, conservation initiatives are far from desired in this Landscape, perhaps due to inadequate information and lack of coordinated efforts. Given this circumstance, the Wildlife Institute of India (WII) submitted a proposal to Save the Tiger Fund (National Fish and Wildlife Foundation, USA) to carry out a survey of TAL on the Indian side, which is ca. 42,700km2 with a forest area of ca. 15,000 km2. Save the Tiger Fund allotted US $53,500 and an 18-month project was initiated in July 2002. The project objectives were to (i) develop spatial data base on the TAL, (ii) assess tiger (Panthera tigris) and large ungulate distribution and status, (iii) describe the status of the Landscape and its vegetation characteristics and (iv) document the socioeconomic conditions of the local people and major disturbance factors. Indian Remote Sensing (1C/1D) satellite images with the spatial resolution of 188m (WiFS) and 23.5m (LISS III) pixel sizes, and Survey of India topographic maps were used for habitat mapping and other spatial database. The study team surveyed the entire Landscape twice between October 2002 and June 2003 for assessing the status of tiger and other associated large mammal species, and habitat conditions. Extensive sampling of 246 foot transects covering 1001.2km and 1530 circular plots, with nested design, were carried out across the TAL. Demographic and socioeconomic profiles of people were derived primarily from the raw data of 1991 Census. Owing to the applied nature of the project, it was decided to hold a two-day workshop to share the findings and to attain synergy among Forest Officials, NGOs and other conservation agencies for implementation in the field. The study revealed that the TAL contains homogenous vegetation communities of eight broad types, but the structural components vary highly across the Landscape. The tiger habitats on the Indian side are in nine blocks (referred as Tiger Habitat Blocks, THB) and the largest block (ca. 4,000 km2) is around Corbett TR. The forests in Kalsi, Dehradun and Haridwar Forest Divisions in Uttaranchal and Bijnor Plantation Division, Bahraich and Shrawasti Forest Divisions in Uttar Pradesh were devoid of tiger. Thirteen corridors that potentially connect these nine blocks have been identified. When connectivity with the Nepal side is taken into account, the nine THBs can be pooled into five larger units (referred as Tiger Units, TU). Among these, TU II, which is in the bhabar tract and includes Corbett TR, is the most intact one. TU IV (Pilibhit FD-Suklaphanta Reserve-Kishanpur WLS-Dudhwa NP- Bardia NP-Katernighat WLS) is the most extensive terai habitat. Each piece of habitat and connectivity in these Units are crucial and at the same time, are threatened by anthropogenic pressures. Ungulate distribution and relative abundance in TAL corresponds to the high variation or heterogeneity in habitat features. However, the overall status of prey (ungulate) availability is reasonably better in this Landscape, largely owing to the interspersion of Protected Areas between Reserve Forests. The evidence is clear that tiger distribution and its abundance are linearly related to wild ungulate prey such as chital (Axis axis) that has wider spatial distribution. Sambar (Cervus unicolor) and wild pig (Sus scrofa) also contribute substantially in deciding the occurrence of tiger in bhabar and terai regions respectively. The domestic dog was identified as a reliable indicator of disturbance that impedes tiger occurrence. Undisturbed hilly (bhabar) areas such as Corbett TR, which usually have many deep nallahs, providing hideouts and abundant prey (sambar, chital and wild pig) support substantial population of tiger. The terai tall grass habitats, which provide adequate cover, as in Kishanpur WLS and Dudhwa NP, with prey such as chital, pig and swamp deer, is the second best. It appears that in a few years time, tigers may cease to exist in habitats like Sohagibarwa-west (THB VIII), an isolated habitat patch in Uttar Pradesh, which is under enormous anthropogenic pressures. Leopards tend to avoid terai habitats and high-density tiger areas, but are still common in areas extirpated of tiger. Data from the Census of India 1991, for 33 tehsils (units of District) within the study area, indicated that the bhabar, largely west of Sharda river, had significantly lower human density (334/km2) and higher percentage of forest cover (36%). The corresponding figures for terai (east of Sharda river) are 436/km2 and 17% respectively. It appears that the bhabar areas, at present, are in a better position to buffer firewood dependency of the people. Human population increase, ever growing habitat encroachments, poaching, firewood extraction and bhabar grass (Eulaliopsis binata) collection for rope making, stealing of tiger and leopard kills, and boulder mining causing enormous disturbances and fragmentation are the major problems identified. The extensive empirical information (distribution and abundance) collected on vegetation parameters, ungulates and tiger can be used as baseline data to initiate monitoring programmes. In addition, the monitoring should include establishment of adequate number of one-hectare plots and line transects for periodic evaluation of habitat conditions and prey abundance respectively. The study recommends that Chilla-Motichur and Gola river corridors should be established on priority basis and the conservation status of THB IV containing Suklaphanta Wildlife Reserve-Pilibhit FD-Kishanpur WLS should be strengthened. If done, the former will constitute the largest (ca. 8000km2) tiger and elephant habitat anywhere along the foothills of the Himalaya and the latter will ensure the future of one of the finest terai habitats (ca. 1200km2). Initiation of a conservation programme like establishing Rajaji-Shivalik Tiger Reserve is urgently needed to eliminate boulder mining in Yamuna river to ensure the ranging and occurrence of tigers between Shivalik FD and the Kalesar-Simbalbara forests, the western most limit of tiger distribution range. Raising of fuel wood plantations with community participation, use of fuel-efficient chulas, resettling of gujjars (migratory pastoralists) and eight key villages, shifting of one factory and weaning people from bhabar grass collection and conservation education programmes are also recommended. There was a consensus in the two-day workshop held on 6-7 November 2003 in WII that the Nepal model, with a strong scientific foundation and involvement of local people, needs to be adapted for the Indian side of TAL. Cross border cooperation between India and Nepal is a must to ensure the long-term conservation of tiger and its habitat in this LandscapeItem Santel Galliformes Survey: a possible extension of Pipar Pheasant Reserve, Annapuma Conservation Area, Central Nepal. A Report(World Pheasant Association and Annapurna Conservation Area Project (Nepal), 2001) Baral, H.S.; Gurung, P.C.; Paul, R.; Ramesh, K.Item Radio-tracking of western tragopan (Tragopan melanocephalus) in Great Himalayan National Park, India(Wildlife Institute of India, Dehradun, 2001) Ramesh, K.; Sathyakumar, S.; Rawat, G.S.Attempts were made to radio-tag western tragopan (Tragopan melanocephalus) to study the habitat use and movement pattern in Great Himalayan National Park, India. Fall net and leg-hold noose were used to trap birds. One female tragopan was caught in the leg-hold noose in May 1999, and was radio-tagged using necklace type collar. Both home-in and triangulation methods were adopted to record radio-locations and the home range was estimated using Minimum Convex Polygon method. The habitat use was studied by overlaying radiolocations and home range polygons on the spatial layer on vegetation, digital elevation model, aspect and slope, and also by studying random plots. Though trapping was tried for three months (April - June) with total trap efforts of 256 man-days and 6694 trap hours, trap success was very low for western tragopan (of just one bird). The overall home range of the radio-tagged bird was estimated to be 31.6 ha and for summer and autumn, the home range was 20.5ha and 4.7ha respectively. The bird moved between the elevation ranges 2530m and 2710m in summer and between 2440m and 2530m in autumn, and in both the seasons the bird was using broad leaf dominated forests with moderate level of canopy cover and shrub density. Though conclusive results could not be drawn from a study based on just one individual, the findings appear to largely concur with the earlier studies on the species and its congeners.Item Assessment of cumulative impacts of hydroelectric projects on Aquatic and terrestrial biodiversity in Alaknanda and Bhagirathi basins, Uttarakhand(Wildlife Institute of India, Dehradun, 2012) Rajvanshi, Asha; Arora, Roshni; Mathur, V.B.; Sivakumar, K.; Sathyakumar, G.S.; Rawat, G.S.; Johnson, J.A.; Ramesh, K.; Dimri, Nandkishor; Maletha, AjayItem Studbook of Western Tragopan (Tragopan melanocephalus)(Wildlife Institute of India, Dehradun, 2011) lakshminarayan, N.; Malviya, Majari; Bose, S.; Dhiman, S.; Gulaati, A.; Nigam, Parag; Ramesh, K.Item Key areas for long term conservation of Galliformes I- Uttarakhand(Wildlife Institute of India, Dehradun, 2011) Ramesh, K.; Qureshi, Q.; McGowan, P.Item Management plan for Rupi-Bhaba Wildlife Sanctuary, Himachal Pradesh(Wildlife Institute of India, Dehradun, 2010) Jayapal, R.; Ramesh, K.Item Distribution and abundance of birds and mammals in the Southern Indian ocean, larsemann hills and princess astrid coast East Antarctica(Wildlife Institute of India, Dehradun, 2010) Jayapal, R.; Ramesh, K.The spatial distribution and abundance of sea birds, penguins and pack ice seals along the Southern Ocean, Ingrid Christensen and Princess Astrid Coast during 29th Indian Scientific Expedition to Antarctica was carried out between November 2009 and March 2010. A total of 34 species of birds with an encounter rate of 9.82/ nautical miles2 were recorded. High species turnover of sea birds was observed between 40° and 50° S longitude. Six aerial sorties were flown along the Ingrid Christensen and Princess Astrid Coast to count penguins and seals along the coast, totalling a length of approx. 1200 km. Adelie and Emperor penguins were recorded with encounter rate of 0.63 ± 0.20 (#/nm ±SE) and 3.81 ± 1.68 (#/nm ±SE) respectively at Ingrid Christensen casts. At Princess Astrid Coast more number of Adelie penguins (1.22 ± 0.12/nm ±SE) was recorded when compared to Emperor penguin (0.60 ± 0.2/nm ±SE). In the present survey, a total of 3601 hauled-out seals were counted from six aerial sorties totalling a length of approx. 1200 km, with each sortie lasting about two hours. Weddell seal Leptonychotes weddellii was the most commonly sighted species in both the areas surveyed (98.2%), and had an encounter rate of 2.9 seals/km. The other species encountered during the survey were crab-eater seal Lobodon carcinophagus (1.7%) and leopard seal Hydrurga leptonyx (0.03%). Group size of hauled-out weddell seals varied considerably and ranged from solitary to maximum of 42 individuals. The median group size of weddell seals hauled-out along the Ingrid Christenson coast was found to be significantly different between the December 2009 and January 2010 survey. Further, along this Coast weddell seals were found hauled-out mainly close to the ice shelf and their spatial distribution appeared to be influenced by the extent of sea ice in the area.Item Status of tiger and prey species in Panna Tiger Reserve, Madhya Pradesh: capture-recapture and distance sampling estimates(Wildlife Institute of India, Dehradun, 2013) Ramesh, K.; Johnson, J.A.; Sen, S.; Murthy, R.S.; Sarkar, M.S.; Malviya, M.; Bhardwaj, S.; Roamin, S.Item Effects of climate-change on riverine forests and indicator species along river Ganga in Uttarakhand: a multi-scale approach(Wildlife Institute of India, Dehradun, 2015) Ramesh, K.; Adhikari, B.S.The objectives were 1.Study the distribution pattern, range shift and population response of indicator species along the Ganga in Uttarakhand, from foot-hills to snout of the Gangotri glacier. 2. Quantify structure and functional attributes of vegetation along selected climatic ecotones. 3. Detect major drivers of landscape composition and configuration in space and time, and develop spatially explicit predictive models.