Vulnerability assessment and protective effects of coastal vegetation during the 2004 tsunami in Sri Lanka

Kaplan, M., Renaud, F.G. and Lüchters, G. (2009) Vulnerability assessment and protective effects of coastal vegetation during the 2004 tsunami in Sri Lanka. Natural Hazards and Earth System Science, 9(4), pp. 1479-1494. (doi: 10.5194/nhess-9-1479-2009)

[img]
Preview
Text
159136.pdf - Published Version
Available under License Creative Commons Attribution.

2MB

Abstract

The tsunami of December 2004 caused extensive human and economic losses along many parts of the Sri Lankan coastline. Thanks to extensive national and international solidarity and support in the aftermath of the event, most people managed to restore their livelihoods completely but some households did not manage to recover completely from the impacts of the event. The differential in recovery highlighted the various vulnerabilities and coping capacities of communities exposed to the tsunami. Understanding the elements causing different vulnerabilities is crucial to reducing the impact of future events, yet capturing them comprehensively at the local level is a complex task. This research was conducted in a tsunami-affected area in southwestern Sri Lanka to evaluate firstly the role of coastal vegetation in buffering communities against the tsunami and secondly to capture the elements of vulnerability of affected communities. The area was chosen because of its complex landscape, including the presence of an inlet connecting the Maduganga estuary with the sea, and because of the presence of remaining patches of coastal vegetation. The vulnerability assessment was based on a comprehensive vulnerability framework and on the Sustainable Livelihoods Framework in order to detect inherent vulnerabilities of different livelihood groups. Our study resulted in the identification of fishery and labour-led households as the most vulnerable groups. Unsurprisingly, analyses showed that damages to houses and assets decreased quickly with increasing distance from the sea. It could also be shown that the Maduganga inlet channelled the energy of the waves, so that severe damages were observed at relatively large distances from the sea. Some reports after the tsunami stated that mangroves and other coastal vegetation protected the people living behind them. Detailed mapping of the coastal vegetation in the study area and subsequent linear regression revealed significant differences between three vegetation classes present in the area with regard to water level and damages to houses. As our region showed homogeneity in some important factors such as coastal topography, our results should only be generalised to comparable regions.

Item Type:Articles
Status:Published
Refereed:Yes
Glasgow Author(s) Enlighten ID:Renaud, Professor Fabrice
Authors: Kaplan, M., Renaud, F.G., and Lüchters, G.
College/School:College of Social Sciences > School of Interdisciplinary Studies
Journal Name:Natural Hazards and Earth System Science
Publisher:European Geosciences Union
ISSN:1561-8633
ISSN (Online):1684-9981
Copyright Holders:Copyright © 2009 The Authors
First Published:First published in Natural Hazards and Earth System Science 9(4):1479-1494
Publisher Policy:Reproduced under a Creative Commons License

University Staff: Request a correction | Enlighten Editors: Update this record