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Item Study on ecology and migratory patterns of golden mahseer (Tor putitora) in river Ganga using radio telemetry techniques(Wildlife Institute of India, Dehradun, 2021) Johnson, J.A.; Dhawan, B.; Sivakumar, K.Golden Mahseer, Tor putitora is popularly known as ‘Himalayan mahseer’ and it is one of the largest freshwater fishes of India It occurs along the mid-hills stretch of Himalayan region including Shivaliks and part of Terai landscape. Over the years, the golden mahseer populations and their habitats have depleted due to various anthropogenic activities, hence, it is listed as an Endangered species in the IUCN Red List. Due to rapid hydro-power developments in the river valleys, habitats of golden mahseer have been fragmented, which in turn affects the ecology and spawning biology of golden mahseer. In order to, understand ecology, habitat use and movement pattern of golden mahseer, this project was proposed in 2017. The study was carried out in the two river systems of Western Himalaya: Kosi river in Ramnagar and Kolhu river in Kotdawar. To study the movement and migratory patterns of golden mahseer, 11 individuals were tagged with radio telemetry tags in the month of June (before onset of monsoon) to understand the migratory behaviour of tagged individuals. Manual tracking and monitoring were performed for all the tagged individuals to get location points and to generate movement data during the period from June-October, 2019. Correspondingly, information related to the fish habitat-type, depth, velocity, temperature and weather was collected. Simultaneously, habitat inventory was performed in three zones in both the rivers; upper, middle and down streams. At each zone 200-meter stream reach was selected for assessment of habitat availability, habitat use by different life history stages of golden mahseer (fingerlings, juveniles and adults). This study was performed for three seasons: Post-winter (March-April), Pre-monsoon (May-early June) and Post-Monsoon (October-November) during 2018-2019. Adults of the golden mahseer were mostly found in deep waters (> 2 m) with cool temperature (18-23o C) and low water velocity (0-0.4m/s). Adults prefer pool habitats with sand and gravel/cobbles as the dominant substratum. Similarly, availability of juveniles and fingerlings were recorded along the river basins and mapped to see the available nursery grounds of the golden mahseer. Habitat preference and microhabitat use were analysed for the available nursery grounds. The results for both the rivers exhibited backwater pools, secondary channels and run habitats as highly used habitats of fingerlings. And, run habitats were mostly as used habitats by juveniles in these rivers. Fingerlings were mostly seen at depth ranges (0.1-0.6m) with velocity (0-1.2m/s) where dominant substratum was gravel and sand. Similarly, depth range between (0.3- >1.8m), moderate velocity (0.3- >1.2m/s) and habitats with cobbles, bed rock and gravel as substrate were used by the juveniles. Based on the habitat availability and use by golden mahseer, Habitat Suitability Curves (HSC’s) for the youngs were formulated. The study revealed that variation in the habitat use by the fish, significantly varied during the monsoons. In the present study, we also recorded other fish species co-existing with golden mahseer in Kosi and Kolhu. Various threats which harm the golden mahseer population and their habitats in Kosi and Kolhu river were recorded and possible conservation measures are discussedItem Long term conservation plan for hangul Part II Hangul movement pattern study using GPS satellite telemetry - final report(2016-20)(Wildlife Institute of India, Dehradun, 2021) Ahmad K.The globally viable single population of Kashmir Red Deer or Hangul (Cervus hanglu hanglu), one of the critically endangered subspecies of the Central Asian Deer is restricted to a confined area of 141 km2 Dachigam National Park (34°05ʹ to 34°32ʹN; 74°50ʹ to 75°16ʹE) in the Greater Himalayan mountain range of the Northwest Himalayan biogeographic region zone 2A, with some stray populations occurring in the adjoining relic range areas (Ahmad et al. 2009; Qureshi et al. 2009). Earlier, the species was widely distributed in the mountain of Kashmir Himalayas along the entire Greater Himalayan mountain range (Gee 1965; Schaller 1969; Prater, 1993; Nowak, 1999) declined drastically in the recent past from 5000 Individuals prior to 1947 to less than 200 Individuals at present. Current trends in the Hangul population indicate that the species could go extinct if necessary serious interventions are not made immediately and as such there was need to undertake urgent measures to hold the declining trends in the Hangul population (Ahmad et.al. 2009: Qureshi et.al. 2009; Ahmad et.al 2013). Therefore, understanding the ecology and biology particularly the movement ecology of this critically endangered deer species with small single population was fundamental to develop better strategies for conservation and management practices. The present study duly funded by the MOEF & CC, Government of India was as such initiated to understand the lesser known aspects of movement ecology and behaviour of this last viable population of the Hangul for its effective management, conservation planning and species population recovery under the following objectives: 1) Studying the seasonal Home range size and ranging and movement patterns of Hangul in and outside Dachigam National Park vis-à-vis Hangul migration route, important stop-over sites, and barriers and corridors to migration into the Hangul’s relic areas.2) Studying the lesser known aspects of Hangul ecology viz., habitat use, activity patterns, behaviour and predation prerequisite for effective long term management and conservation of Hangul and its habitats. 3) To identify the potential habitats used by Hangul outside Dachigam and assess and evaluate the extent and magnitude of habitat conditions and threats therein. 4) To identify threats, anthropogenic pressures and other factors particularly predation pressure by leopard and meso-carnivores that impact Hangul distribution and movement patterns. The capture and Satellite collaring of five Hangul (2 males, 3 female) successfully conducted for the first time under this project has been a milestone achievement in the field of satellite telemetry. The findings of this research study indicated that the Home range size varied from 4.98 Km2 in spring to 7.83 Km2 in summer. One of the female collared Hangul showed movement patterns outside Dachigam National Park towards Sindh forest division crossing the river Sindh and covering an area of 137.94 km, with area use of 10.86-12.26 Km2 in summer 2019 to 137.94 km in summer 2020 and a maximum home range of 124.4 km2 in Summer 2020 to colonize and establish its new summer habitat in the erstwhile range area of Wangath-Naranag Conservation Reserve (CR). The data and information generated has enabled us to identify the corridor areas of movement of the Hangul from Dachigam National Park and outside in the 3 Long Term Conservation Plan for Hangul Part II: Hangul Movement Pattern Study Using GPS-Satellite Telemetry adjoining erstwhile range areas in north and south and habitats assessment therein. The data generated also indicated that Hangul shows two activity peaks in morning and evening hours with significant seasonal variations. The findings of the study are of great ecological significance as the significant information generated through this research on the lesser known aspects of movement ecology including animal home ranges and habitat use, biology and behaviour of the Hangul deer would go long way in supporting the management interventions for population recovery and long term survival of this endemic deer of India in Dachigam National Park and its erstwhile range areas in Kashmir Himalayas. Major management and conservation Intervention recommendations 1. The study revealed that major and viable population of Hangul are confined to Dachigam National Park. Despite availability of ideal summer habitats for the Hangul in upper Dachigam, these alpine meadow habitats are not being explored or used by Hangul. The satellite collared Hangul movements indicated that the animals showed upward movements to Dagwan alpine meadows of upper Dachigam but restricted their movements further in to the alpine meadows, possibly due to heavy disturbances of excessive livestock grazing there. 2. Management interventions are as such required towards expansion of Range of Hangul to alpine meadows of Upper Dachigam and potential corridor areas outside Dachigam NP identified through this research, so that these ideal summer habitats are recuperated and used by Hangul in summer as it used to in the past and to ensure gene flow between the Dachigam and adjoining range populations. 3. Hangul conservation breeding-cum- reintroduction programme is imperative to expand the range of Hangul by restocking and augmenting the small isolated Hangul populations in its relic range areas outside Dachigam National Park starting with the Overa Wildlife Sanctuary which has ideal disturbance free habitats available. 4. The Hangul species recovery programme through a project mode by initiation of Project Hangul on the pattern of Project Tiger is crucial to ensure Hangul species recovery and long term survival of the species and its landscapes in the region. 5. This research study as indicated by earlier studies by the Investigator (s) has revealed that besides poaching and continued degradation of Hangul summer habitats in Upper Dachigam, along with biotic interference in winter habitats, low breeding, female biased sex ratio, the problem of survival of the young and inadequate recruitment of calf to adulthood due to factors such as considerable predation by common Leopard, Asiatic Black Bear, dogs and meso-carnivores (Fox and Jackal) are major challenges for the long term survival of the Hangul in the landscape. 6. The study revealed a significant contribution of Hangul in the diet of Golden jackal (9.09%) and Red fox (6.45%). These ecological issues threatening the long term survival of Hangul need to be investigated and addressed further on long term basis through initiating a breeding biology study to better understand the causes of low breeding and fawn/calf survival in the Hangul population in Dachigam National Park and the adjoining landscape. 7. This research study and the earlier studies by the Investigator (s) has indicated that species due to its small population size, restricted range distribution, critically endangered status, ecological threats long Term Conservation Plan for Hangul Part II: Hangul Movement Pattern Study Using GPS-Satellite Telemetry and potentially low genetic variation is at the brink of extinction and needs immediate management interventions to reverse the declining trend in the population. The regulated monitoring of the Hangul populations on a long-term scientific basis using latest techniques of satellite collaring, camera trapping and population genomics is imperative. 8. Strengthening Hangul genome sequencing to understand the DNA mitochondrial based phylogeography of the species and Skull based genetic investigations to link the mitochondrial DNA analysis findings with the nuclear genetic analysis to further establish the degree of closeness or divergence between Hangul and the Bactrian deer.Item Review of site-specific wildlife management plan(January 2021) of North Koel Reservoir Project (Mandal Dam)(Wildlife Institute of India, Dehradun, 2021) Jha, R.R.S.; Gopi, G.V.This review consists of three parts. In the first part, largely through secondary sources, we provide a background of the North Koel Reservoir Project and information on Palamau Tiger Reserve (PTR) where the project is situated. We mention how the task of reviewing the Site-specific Wildlife Management Plan (January 2021) in lieu of diversion of 1007.29 hectares area (ha) of forest land for the project came to the Wildlife Institute of India (WII). We also describe our review objectives, methodology and approach towards the task, as well as limitations, as communicated to the Department of Forest, Environment & Climate Change, Government of Jharkhand. In the second part, we first provide general comments and observations on the plan and thereafter chapter-wise analyse and evaluate the same, with respect to our objectives and based on relevant guidelines framed and circulated by the office of the Principal Chief Conservator of Forests (Wildlife) and Chief Wildlife Warden (CWLW), Government of Jharkhand in this regard in 2015. We provide detailed observations and suggestions towards strengthening each chapter. We then mention details of our field visit including our learnings and insights gained from interactions with different stakeholders. In the third and concluding part, we provide recommendations towards improving the plan to benefit inhabiting wildlife and ecosystems in and around the project site and in its impact zone, as well as PTR as a whole. The second and third parts, thus, contain primary inputs in the form of actionable comments and suggestions from WII. We recommend a multi-seasonal year-long biodiversity assessment in the project impact zone. We also suggest exercising caution and applying scientific rationale in the use of barriers to reduce negative human-wildlife interactions and/ or to limit illegal activities. We also recommend setting aside budget towards empowering ecodevelopment committees in various management and conservation activities; upgrading facilities, providing training, equipment and field gear, and welfare for frontline staff (both temporary and permanent); and a comprehensive research program for PTR. We recommend drawing up detailed plans for ecotourism in PTR, providing alternative livelihood opportunities for the local indigenous population, habitat creation and habitat management towards wild herbivores’ population augmentation etc to enable further scrutiny of such plans, among other suggested interventions. Relevant appendices are provided towards the endItem Seagrass and seaweed habitats in Gulf of Mannar and South Palk Bay region : Final Technical report(Wildlife Institute of India, Dehradun, 2023) Seal, Sohom; Iyer, Sweta; Ghanekar, Chinmaya; Prabakaran, Nehru; Johnson, J.A.Seagrass beds are also heavily affected by frequent storms and prolonged rain, affecting the water transparency, and cutting the light penetration (Syukur et al., 2017). As a results, seagrass habitats quality and extend are degreasing in greater extent. In order to take a stock on the extend of seagrass and seaweed cover in the Gulf of Mannar and Southern Palk Bay region, the present investigation was under taken with the following objectives. Objectives of the study i. To map the current distribution and area coverage of seagrass and seaweed in Gulf of Mannar and Southern Palk Bay region. ii. Identify and demarcate the degraded seagrass habitats for adopting suitable management interventions.Item Spatial mapping of important marine habitats of Malvan Coast for re-organization of boundary of the Malvan Marine Sanctuary(Wildlife Institute of India, Dehradun, 2023) Shinde, N.; Bayana, S.; Sarkar, D.; Pande, A.; Sivakumar, K.; Talukdar, GautamMalvan Marine Sanctuary is a Marine Protected Area located in the Sindhudurg district of Maharashtra state. Known for its rich biodiversity, it is grappling with increasing anthropogenic pressure necessitating a comprehensive study to assess its habitats and threats. Management Effectiveness Evaluation (MEE) of 2017-2018 team had suggested for boundary reorganization to exclude areas of human intervention and to include important habitats and areas with high biodiversity for the better management of biodiversity off the coast of Malvan. The project has undertaken because high tourism zone are areas with high anthropogenic pressure within the core zone of the sanctuary. Coral reefs and its associated fish fauna were surveyed at nine sampling sites. The total hard coral cover was observed to be 28% while the seagrass cover was observed to be 3% in 21 sampling sites. 19 genera of corals were identified. Favites sp.was observed to be the most abundant (19.18%). Within the sanctuary, Seagrass patches were identified at five sampling sites namely King’s Garden 1, King’s Garden 2, King’s Garden 3, Dharan and Donor site. 122 species of fish belonging to 38 families were observed during underwater surveys. Fish-market surveys were conducted to study the species composition and size-class of fish species caught around the sanctuary. A total of 44 different fish species were observed during market surveys. Beach litter surveys were conducted to assess the anthropogenic stress along the Malvan coastline. Debris in the form of polythene was the major contributing litter type at all three sections of the beach. The rocky outcrops along the coast were observed to be roosting sites for avifaunal species namely, White-bellied Sea Eagles, Pigeons, Swiftlets, etc. Spatial prioritization of the marine habitats revealed potential PA’s include Kawda, 7 rocks, Lighthouse area, covering an area of 29.07 sq.km; conservation priority areas comprising Chiwla, and Sargassm covering a total area of 19.21 sq. km and King’s garden (3.534 sq km) as sensitive area. Strategies to conserve these areas for long term conservation. should be planned. Spatial mapping of important marine habitats of Malvan coast for re-organization of boundary of the Malvan Marine Sanctuary