Abstract
Occurrences of extreme events are likely to cause major decline in global biodiversity. In one such event, on December 26, 2004 tsunami caused extensive damage and irreparable losses to the ecology and biodiversity of low-lying areas of the countries located around the Indian Ocean region. Archipelago of Andaman and Nicobar Islands, one of the richest centre of endemism and biodiversity in the Indo-Malayan region, suffered great loss of forests and coastal biodiversity owing to its closeness to the epicenter of tsunami, i.e. just off the coast of Indonesia. There is little insight into the resilience and rate of recovery pattern of tropical coastal habitats consequent to catastrophic impacts of tsunami. It’s important to study the impacts of tsunami on the forest and biodiversity in order to suggest mitigation, restoration measures and long-term conservation planning. Here we have assessed the immediate after-effects of December 26, 2004 tsunami on the forests and areas prioritized for biodiversity conservation analyzing pre and post tsunami satellite imageries. The effect of topographic patterns of Island’s coastal areas and their distance from the epicenter of tsunami with respect to changes in the forests and different levels of biologically rich areas modeled for prioritization for different groups of Islands in Nicobar has been studied. Great Nicobar accounted for higher proportion of total forest area damaged and submerged in Nicobar, followed by Central Nicobar and Car Nicobar. Mangroves, littoral forest, beach forest and low land swamps and Syzygium swamps were most affected. Study brings out spatially explicit scenario of damaged, submerged and lost forest areas and corresponding area statistics, vital for understanding and mitigating medium and long term effects of tsunami an extreme event.
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References
Andrews HV, Sankaran V (eds) (2002) Sustainable management of protected areas in the Andaman and Nicobar Islands, Andaman and Nicobar Islands environmental team. Indian Institute of Public Administration and Fauna and Flora International, New Delhi
Balakrishnan NP, Ellis JL (1996) Andaman and Nicobar Islands. In: Hajra PK et al (eds) Flora of India, Part 1. Botanical survey of India. Calcutta, India, pp 523–538
Balakrishnanan NP (1989) Andaman Island—vegetation and floristics. In: Saldanha CJ (ed) Andaman, Nicobar, and Lakshadweep: an environmental impact assessment. Oxford University Press, New Delhi, pp 55–68
Behera MD, Kushwaha SPS, Roy PS (2005) Rapid assessment of biological richness in a part of Eastern Himalaya: an integrated three-tier approach. For Ecol Manag 207(3):363–384
Blom CWPM, Bogemann GM, Laan P, van der Sman AJM, van de Steeg HM, Voesenek LACJ (1990) Adaptation to flooding in plants from river areas. Aquat Bot 38:29–47
Fernando P, Wikramanayake ED, Pastorini J (2006) Impact of tsunami on terrestrial ecosystems of Yala National Park, Sri Lanka. Curr Sci 90(1):1531–1534
Ferreira LV, Stohlgren TJ (1999) Effects of river level fluctuation on plant species richness, diversity and distribution in a floodplain forest in Central Amazonia. Oecologia 120:582–587
Gupta S, Padalia H, Chauhan N, Porwal MC (2002) Rediscovery of Podocarpus wallichianus: a rare gymnosperm from the Tropical rain forest of Great Nicobar Island. Curr Sci 83(7):806–807
Hupp CR, Osterkamp WR (1985) Bottomland vegetation distribution along Passage Creek, Virginia, in relation to fluvial landforms. Ecology 66:670–681
IIRS (1998) Biodiversity characterization at landscape level in North East India using satellite remote sensing and geographic information system. Project manual (phase I). Indian Institute of Remote Sensing, Dehradun
IIRS (2003) Biodiversity characterization at landscape level in Andaman & Nicobar Islands using satellite remote sensing and geographical information system. Indian Institute of Remote Sensing, Dehradun
Mathew SP (1998) A supplementary report on the flora and vegetation of the Bay Islands. J Econ Taxon Bot 22:249–272
Nayar MP (1996) Hot spots of endemic plants of India, Nepal and Bhutan. Tropical Botanic Garden and Research Institute, Trivandrum
Nayar MP, Shastry ARK (eds) (1987) Red data book of Indian plants, vol 1. Botanical Survey of India, Calcutta
Pandey RP, Diwaker PG (2008) An integrated checklist flora of Andaman and Nicobar Islands, India. J Econ Taxon Bot 32:403–500
Porwal MC, Joshi PK, Das KK (2007) Rapid assessment of vegetation cover damage due to Tsunami in the Nancowry group of Islands (Andaman & Nicobar islands) using satellite remote sensing. Indian J For 30(4):387–396
Rao NV (1989) Fauna of Andaman and Nicobar Islands: diversity, endemism, endangered species and conservation strategies. Oxford and IBH Publishing Co. Pvt. Ltd, New Delhi
Rasingam L, Parathasarathy N (2009) Tree species diversity and population structure across major forest formations and disturbance categories in Little Andaman Island, India. Trop Ecol 50(1):89–102
Roy PS, Tomar S (2000) Biodiversity characterization at landscape level using geospatial-modeling technique. Biol Conserv 95(1):95–109
Roy PS, Padalia H, Chauhan N, Porwal MC, Gupta S, Biswas S, Jagdale R (2005) Validation of geospatial model for biodiversity characterization at landscape level—a study in Andaman and Nicobar Islands, India. Ecol Model 185:349–369
Sankaran R, Vijayan L (1993) The avifauna of Andman and Nicobar Islands. A review and the current scenario. In: Verghese A, Sridhar S, Chakravarthy AK (eds) Bird conservation strategies for the nineties and beyond. Ornithological Society of India, Banglore, pp 255–271
Sivakumar K (2007) The Nicobar megapode Megapodius nicobariensis: status, ecology and conservation Aftermath of tsunami. Technical report. Wildlife Institute of India, Dehradun
Acknowledgments
The authors acknowledge the contribution of Stutee Gupta and Nidhi Chauhan, Biodiversity characterization team members before the tsunami and Dr. P. K. Hajra, Ex Director, Botanical Survey of India for identification of plant species. Authors also acknowledge the support of officials of forest department, Andaman and Nicobar Islands during the field work for sampling in different vegetation types for assessment of biodiversity.
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Porwal, M.C., Padalia, H. & Roy, P.S. Impact of tsunami on the forest and biodiversity richness in Nicobar Islands (Andaman and Nicobar Islands), India. Biodivers Conserv 21, 1267–1287 (2012). https://doi.org/10.1007/s10531-011-0214-x
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DOI: https://doi.org/10.1007/s10531-011-0214-x