WII Technical Reports/Books/Manuals
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Item Sero-epidemiological and clinicopathological studies on some infectious & parasitic diseases in wild ungulates and their relationship with livestock(Wildlife Institute of India, Dehradun, 1996) Malik, Praveen; Malik, P.K.Wildlife and domestic animals share many infections that may be transmitted in any direction. Considering the above factors, Sariska Tiger Reserve was thought to be an ideal place for a pilot study on wildlife diseases mainly through serological investigations with following objectives : 1. To define presence or absence of selected diseases in wild ungulates and livestock in and around Sariska Tiger Reserve. 2. To establish physiological reference values of wild ungulates.Item Impacts of Management Practices on Lion and Ungulate Habitats in Gir Protected Area(Wildlife Institute of India,Dehradun., 1990) Sharma, Diwakar; Johnsingh, A.J.T.study on the impacts of management practices on lion and ungulate habitat was conducted in Gir Protected Area (PA) from June 1991 to July 1994. The Gir PA includes Gir Wildlife Sanctuary and National Park. It is situated between 20° 55' to 21° 20N and 70° *25 to 71° 15' E in the Southern part of Kathiawar peninsula in western Giijarat. Gir PA (hereafter Gir) is located about 60km South of Junagadh. The area which was 3,107 sq km in 1877 (Joshi 1976) has been presently reduced to 1,412 sq km, of which about 259 sq km is national nark. The terrain is hilly, altitude ranging from about 100m above mean sea level to 528m above mean sea level. The hills run in all directions, have moderate slopes, and constitute an important catchment for Kathiawar peninsula. The rocks are volcanic in origin, consisting of Deccan traps and are the oldest exposed rocks in Gir (Patel 1992). As many as seven types of soils have been categorized based on their colours (Munsell colour chart) ranging from dark yellowish brown to very dark greyish Brown (Pandit et al. 1992). The climate is semi-arid with three distinct seasons; summer (March-mid June), monsoon (mid June - mid October) and winter (late October to February). Gir has dry deciduous forest - 5A/Clb (Champion & Seth 1968). West Gir has Tectona grandis dominated vegetation. In eastern Gir Anogeissus pendula replaces Tectona grandis but the vegetation is dominated by thorny species such as Acacia and Zizyphus. Gir is the last refuge of the wild Asiatic lions (Panthera leo persica) and long term conservation of the Asiatic lion is an overriding management objective of Gir. In order to improve habitat conditions in Gir, the park authorities, over the last 20-25 years have made some management interventions such as relocation of some maldharis (local graziers), reduction in livestock grazing (especially migrant livestock during the rainy season) and fire control. These measures have led to vegetational improvement and increase in wild ungulate and lion populations. Understanding this vegetational improvement was thought to be crucial to determine the extent of management intervention required. The objectives of this study were: 1. to investigate the impact of maldharis on vegetation; 2. to investigate the habitat utilization by wild ungulates; and 3. to find out the impact of management practices (such as use of fire, creation of water holes, grass harvesting, maldhari relocation and creating of national park). iii The vegetation study was conducted in 211 plots of 20m X 20m each. Vegetation data included counts and measurement of trees, seedling, and shrubs. Status of trees and seedlings in terms of lopped, cut, dead or intact was recorded to study the effect of anthropogenic factors. Data on environmental variables i.e. slope and soil parameters (pH, electrical conductivity, potash, phosphorus, organic carbon, texture, moisture and water retaining capacity and colour) was collected to study their impact on the vegetation. Habitat utilization by ungulates was investigated through direct and indirect evidence. Indirect evidence included pellet group count and browse consumption. Pellets groups of chital (Cervus axis), sambar (Cervus unicolor), nilgai (Boselaphus tragocamelus), chinkara (Gazella gazelld), chowsingha (Tetracerus quadricomis) and wild pig (sus scrqfa) were counted from ten 10m X 2m belt transects in and around 100 vegetation plots. Direct count of ungulates was carried out using vehicle transects at twelve routes all over Gir in the summers of 1992, 1993 and 1994. Data on cover and animal evidence was collected in summer (April-May) and winter (December- January) of 1991,1992, and 1993. Browse consumption by ungulates was estimated on trial for few major browse species. The browse production and consumption was estimated through diameter weight relationship of twings based on linear regression. Habitat factors included were cover at 0.5m, 1.0m and 1.75m height, canopy, tree species diversity, browse availability, grass cover, leaf litter, distance from nes (hamlet), distance from water, slope and grazing by livestock. Cover was measured from five, fixed Im X lm quadrats in the 100 vegetation plots. Relationship of vegetation associations with environmental factors and ungulate abundance with habitat factors were investigated using multivariate analysis. Fifteen vegetation associations were categorized based on two way indicator species analysis (TWINSPAN) computer programme. These were: 1. Acacia catechu - Zizyphus nummularia - Aristida adscensionis 2. Apluda mutica - Themeda quadrivalvis - Sehima nervosum 3. Anogeissus latifblia-Acaciacatechu- erminaliacrenulata 4. Anogeissus latifblia - Acacia catechu 5. Acacia spp. - Zizyphus mauritiana 6. Zizyphus mauritiana 7. Acacia nilotica - Zizyphus mauritiana 8. Tectona grandis - Acacia catechu - Zizyphus mauritiana 9. Tectona grandis - Acacia catechu - Terminalia crenulata 10. Tectona grandis 11. Acacia catechu - Lannea coromandelica - Boswellia serrata 12. Tectona grandis - Acacia spp. - Wrightia tinctoria 13. Tectona grandis mixed 14. Mixed and 15. Syzygium ubicundum - Pongamiapinnata associations. iv Tree density and diversity were all maximum in Mixed association while seedling density and shrub volume were maximum in Syzygium rubicundum - Pongamia pinnata association. Soil pH, moisture and potash were important environmental factors which determined the vegetation distribution (Canonical correspondence analysis-CANOCO; P=.O5). However, different vegetation associations were governed by various environmental variables separately and just one or a combination of some variables could not explain the distribution of vegetation associations. Twelve habitat types were classified based on similarity in the vegetation associations and TWINSPAN analysis. These habitats were given a simple name and a name that represented the habitats. The following twelve habitats were categorized: 1. Scrubland 2. Savanna 3. Anogeissus - Acacia - Terminalia 4. Anogeissus - Acacia 5. Thom forest 6. Teak - Acacia - Zizyphus 7. Teak forest 8. Teak - Acacia - Boswellia 9. Teak - Acacia - Wrightia 10. Teak mixed 11. Mixed forest 12. Riverine Mixed habitat was more diverse while riverine was most dense in terms of cover. Thom forest provided maximum browse to the ungulates. Chital (Cervus axis) showed high use of Thom forest habitat while sambar (Cervus unicolor) used more Mixed, Riverine and Teak - Acacia - Zizyphus habitat. Data on other ungulates was not sufficient for statistical analysis. CANOCO showed that human disturbance governed the wild ungulate abundance in summer while ground cover and human disturbance were decisive factors in winter. Sambar and nilgai were away from disturbance while chital were relatively unaffected by disturbance, in both summer and winter. Chinkara was observed mostly in the east Gir, a place with conditions like savanna and with more human disturbance. Impacts of management practices was investigated in vegetation plots and pellet transects, and by comparing them at varying distances from nes and water points, between national paric and wildlife sanctuary, burnt and unbumt areas and between harvested and unharvested localities. Late serai stages of vegetation succession (Thomy - with Acacia and Zizyphus) were reached after 10 yrs of nes relocation and such stages were utilized more by ungulates. Impact of current neses on vegetation was severe only up to 500 m. Chital evidence were maximum, whereas sambar least, nearest a nes. The overall variation was significant only for chital both in summer and winter. There was significant variation in both summer and winter in chital evidence, not sambar, found at various distances from water holes. Maximum chital evidence were nearest the water holes whereas sambar were 1-2 km away from water. Controlled and cool fires did not change the vegetation composition and tree density significantly. Grass harvested areas produced more grass (1701±179 kg/ha) than unharvested ones (377±249 kg/ha). National park had significantly more tree density (500/ha), and less chital evidence (80 pellet groups/ha) than in wildlife sanctuary (480/ha, and 140/ha respectively). Teak thinning on an experimental basis is recommended to promote chital abundance. Water management by reviving disused wells in riverine tract, removal of at least 30 neses in a phased manner is suggested. Grass harvesting for local people and cool season rotational burning in unharvested areas are recommended.Item Habitat ecology and conservation status of wild ungulates in Northern parts of Changthang Wildlife Sanctuary, Ladakh(Wildlife Institute of India, Dehradun, 2011) Rawat, G.S.; Sankar, K.An ecological study on the wild ungulates was carried out in the northern parts of Changthang Wildlife Sanctuary, Ladakh during 2007 – 2009 with a view to ascertain the population status, distribution and habitat use pattern. The five species of sympatric ungulates found in this part of Trans-Himalaya include chiru or Tibetan antelope (Pantholops hodgsoni), wild yak (Bos mutus), Tibetan argali (Ovis ammon), kiang (Equus kiang) and blue sheep (Pseudois nayaur). Specific objectives of the study were: (i) To study the population status and distribution of wild ungulates in northern parts of Changthang WLS, (ii) To study the habitat characteristics and habitat use by the ungulates, (iii) To identify the major threats and suggest conservation strategies, and (iv) To evolve protocol for monitoring wildlife populations in the study area. 2.The study area was located in the north and north-east of Pangong Tso covering Phobrang surrounds and Changchenmo Valley which vary in altitude from 4450 to 5800m asl. The entire landscape is spread over an area of >3100 km2. However, intensive study was conducted within <500 km2 around Phobrang and Changchenmo. The study area is characterized by cold arid environment with very sparse vegetation cover which can be categorized into moist and mixed meadows, desert steppe and scrub steppe. About 12% geographical area is covered by perpetual snow and glaciers, 1.6% area is represented by moist and marsh meadows and over 84% area is under sparsely vegetated desert steppe which is further divisible into various landscape units and habitat types. The study area is the only place within Indian territory where these five sympatric ungulates co-exist.3.Based on a reconnaissance trip we classified the study area into various strata. Field work was carried out during 2007 – 2009 covering two summer and one winter season. Line Transects and trail monitoring were followed for the collection of data on population structure, status and distribution of ungulates in various areas on seasonal basis. In each strata transects varying in length of 6-8 kms were walked. A total of 503 km were monitored in 42 trails, spending 249.85 hrs of observation. Data based on direct sightings and indirect evidences of ungulate species were recorded along transects in the survey blocks. Habitat parameters were quantified using standard methods. Conservation and management issues were identified based on primary and secondary data collected from the survey area.4.The study reveals that of the five species of sympatric ungulates, chiru and wild yak use only parts of Changchenmo Valley while remaining three species are found in both the areas. In Changchenmo Valley we estimate a population of 20 – 30 chiru, 110 – 120 wild yak, 125 – 150 kiang, 120 - 130 blue sheep and 35 – 50 Tibetan argali. Based on the past reports and present study we conclude that number of chiru population in Changchenmo Valley is on decline. Our study reveals that chiru males do use Changchenmo Valley during winter. For the first time, we report a new location of chiru i.e., Thratsang La in Changthang plateau.5.Blue sheep, being smallest of all the ungulates, selected steep and glaciated zones with short forbs and a few graminoids. Chiru males and wild yak were confined to eastern part of Changchenmo Valley, especially with higher cover of graminoids (Carex moorcroftii, Stipa purpurea, Leymus secalinus and Scirpus sp.). Kiang occupied most of the habitat categories except steep slopes and cliffs. Highest altitudes were used by blue sheep followed by wild yak, Tibetan argali, chiru and kiang. Kiang and argali showed preference for south facing slopes while other species used in proportion to availability.The major conservation issues in the study area include (i) Small and fragmented populations of threatened ungulates, (ii) Degradation of rangelands and loss of productivity, (iii) Possible genetic contamination of wild yak, (iv) Presence of feral dogs around security camps, (v) Lack of alternate livelihoods for the local people, (vi) Inadequate infra-structure and man power for the PA management. Appropriate recommendations to deal with above issues have been given.The study area is partly controlled by the Indian security personnel, who have taken keen interest in the conservation and monitoring of threatened wildlife in the area. A detailed monitoring protocol based on vehicle survey, on-foot patrol and animal observations from the fixed positions have been suggested.Item Conservation ecology of sangai and its wetland habitat : study report - Volume II(Wildlife Institute of India, Dehradun, 2013) Badola, R.; Hussain, S.A.Item 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.