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Shankar Raman, T. R.
- Prey Abundance and Leopard Diet in a Plantation and Rainforest Landscape, Anamalai Hills, Western Ghats
Abstract Views :274 |
PDF Views:92
Authors
Affiliations
1 Nature Conservation Foundation, 3076/5, 4th Cross, Gokulam Park, Mysore 570 002, IN
1 Nature Conservation Foundation, 3076/5, 4th Cross, Gokulam Park, Mysore 570 002, IN
Source
Current Science, Vol 109, No 2 (2015), Pagination: 323-330Abstract
Leopards use a wide range of habitats from natural forests to plantations in human-dominated landscapes. Within interface areas, understanding leopard ecology and diet can help in conservation management and conflict avoidance. In a fragmented rainforest and plantation landscape in southern India, we examined diet of large carnivores (with a focus on leopards) using scat analysis with DNA-based identification of predator species, and estimated relative abundance of prey species in different land uses through transect surveys. Large carnivores predominantly consumed wild prey species (98.1%) and domestic prey species contributed <2% to overall prey biomass. For leopards, four wild prey species (Indian muntjac, Indian spotted chevrotain, sambar and Indian porcupine) contributed 95.1% of prey biomass, with the rest being minor wild prey species (no livestock in identified scats). Wild prey species occurred across the landscape but varied in relative abundance by land-use type, with forest fragments supporting higher abundance of many species relative to tea and coffee plantations. As large carnivores mainly depend on wild prey and rainforest fragments act as refuges for these mammals within the tea and coffee plantations, it is important to continue to retain or restore these forest fragments.Keywords
Diet, Leopards, Prey Abundance, Plantation, Tropical Rainforest.- Bats in Indian Coffee Plantations: Doing more Good than Harm?
Abstract Views :308 |
PDF Views:95
Authors
Affiliations
1 School of Biology, University of Leeds, Leeds LS2 9JT, GB
2 Nature Conservation Foundation, 3076/5, 4th Cross, Gokulam Park, Mysore 570 002, IN
1 School of Biology, University of Leeds, Leeds LS2 9JT, GB
2 Nature Conservation Foundation, 3076/5, 4th Cross, Gokulam Park, Mysore 570 002, IN
Source
Current Science, Vol 107, No 12 (2014), Pagination: 1958-1960Abstract
Many bat species occur in Indian coffee plantations and despite sporadic reports of damage to commercial coffee crops, the literature shows little evidence for these claims. Measures that have been proposed to 'control' fruit bats are likely to be ineffective and even counter-productive. Instead, insect-eating bats should be encouraged by planters as they help control herbivorous and disease-carrying insects, while fruit bats pollinate flowers and disperse seeds of many useful plants and shade tree species. More research is needed to quantify any crop damage caused by bats and to look for sustainable solutions where necessary.- Assessing Leopard Occurrence in the Plantation Landscape of Valparai, Anamalai Hills
Abstract Views :281 |
PDF Views:102
Authors
Affiliations
1 Nature Conservation Foundation, 3076/5, 4th Cross, Gokulam Park, Mysore 570 002, IN
2 Wildlife Conservation Society-India, 1669, 31st Cross, 16th Main, Banashankari 2nd Stage, Bangalore 560 070, IN
1 Nature Conservation Foundation, 3076/5, 4th Cross, Gokulam Park, Mysore 570 002, IN
2 Wildlife Conservation Society-India, 1669, 31st Cross, 16th Main, Banashankari 2nd Stage, Bangalore 560 070, IN
Source
Current Science, Vol 107, No 9 (2014), Pagination: 1381-1385Abstract
No Abstract.- Nature and Nation:Essays on Environmental History
Abstract Views :202 |
PDF Views:86
Authors
Affiliations
1 Nature Conservation Foundation, 3076/5, 4th Cross, Gokulam Park, Mysuru 570 002, IN
1 Nature Conservation Foundation, 3076/5, 4th Cross, Gokulam Park, Mysuru 570 002, IN
Source
Current Science, Vol 110, No 6 (2016), Pagination: 1110-1111Abstract
This book is a collection of nine essays published earlier (between 1998 and 2012) by the noted environmental historian, Mahesh Rangarajan, along with an introductory chapter.- Nature in the City:Bengaluru in the Past, Present and Future
Abstract Views :240 |
PDF Views:71
Authors
Affiliations
1 Nature Conservation Foundation, 3076/5, 4th Cross, Gokulam Park, Mysuru 570 002, IN
1 Nature Conservation Foundation, 3076/5, 4th Cross, Gokulam Park, Mysuru 570 002, IN
Source
Current Science, Vol 113, No 07 (2017), Pagination: 1457-1458Abstract
As a scholarly work on the ecological history of Bengaluru, the capital of Karnataka in southern India, this book breaks new ground and makes for a refreshing read. It is interdisciplinary in scope, bringing insights from fields as diverse as ecology, urban planning, history and sociology.- Seasonal Variation in Wildlife Roadkills in Plantations and Tropical Rainforest in the Anamalai Hills, Western Ghats, India
Abstract Views :254 |
PDF Views:79
Authors
Affiliations
1 Nature Conservation Foundation, 3076/5, 4th Cross, Gokulam Park, Mysore 570 002, IN
1 Nature Conservation Foundation, 3076/5, 4th Cross, Gokulam Park, Mysore 570 002, IN
Source
Current Science, Vol 114, No 03 (2018), Pagination: 619-626Abstract
Wildlife–vehicle collisions on the roads lead to mortality of a range of animal taxa both within and around wildlife reserves. Quantifying and understanding impacts of roads on wildlife mortality are essential for identifying vulnerable taxa and suitable mitigation measures. We studied animal mortality on roads in relation to habitat and season in the Anamalai Tiger Reserve and adjoining Valparai plateau in the Western Ghats, India. Habitats were broadly classified as forest, monoculture plantations (tea, coffee, eucalyptus) and mixed. Eleven road transects of 3–12 km length were surveyed between 9 and 12 times each during monsoon (2011) and summer (2012). We recorded 2969 roadkills (mean = 2.01/km) during the 1473.4 km of road surveys carried out. The overall roadkill rate was 21.2 (± 3.87 SE) individual kills/10 km. Amphibians were most frequent in roadkills (overall roadkill rate of 9.3 ± 2.17 SE kills/10 km, n = 1307), followed by invertebrates and unidentified taxa (7.6 ± 1.81 SE kills/10 km, n = 1066). Roadkill rate was 2.4 times higher in monsoon than summer, with amphibians particularly averaging higher kill rate during monsoon. Frequency of roadkills of various animal groups differed between seasons in different habitats. In both the seasons, most roadkills were recorded mainly in tea, forest, and forest–tea habitats. Relative to length of roads through forest, a disproportionately large number of roadkills of herpetofauna and mammals were recorded in forest habitat. Higher vehicular movements, including tourist traffic, road widening, removal of native plants along roads and construction of sidewalls without breaks obstruct animal movements and may be responsible for roadkills. Designing roads to be more permeable for safe animal movement, particularly where roads pass through forest, and sensitizing highways authorities are essential to reduce animal mortality and make roads more wildlife-friendly in this region.Keywords
Linear Infrastructure Intrusions, Roadkill, Road Ecology, Western Ghats, Wildlife-Vehicle Collisions.References
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- Mudappa, D., Kumar, M. A. and Raman, T. R. S., Restoring nature: wildlife conservation in landscapes fragmented by plantation crops in India. In Nature without Borders (eds Rangarajan, M., Madhusudan, M. D. and Shahabuddin, G.), Orient Blackswan, Hyderabad, 2014, pp. 178–214.
- Kumar, A., Pethiyagoda, R. and Mudappa, D., Western Ghats and Sri Lanka. In Hotspots revisited–Earth’s Biologically Richest and Most Endangered Ecoregions (eds Mittermeier, R. A. et al.), CEMEX, Mexico, 2004, pp. 152–157.
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- Mudappa, D. and Raman, T. R. S., Rainforest restoration and wildlife conservation on private lands in the Western Ghats. In Making Conservation Work (eds Shahabuddin, G. and Rangarajan, M.), Permanent Black, Ranikhet, 2007, pp. 210–240.
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- Smith, D. J., van der Ree, R. and Rosell, C., Wildlife crossing structures: an effective strategy to restore or maintain wildlife connectivity across roads. In Handbook of Road Ecology (eds van der Ree, R., Smith, D. J. and Grilo, C.), John Wiley, Chichester, UK, 2015, pp. 172–183.