Assessment of Vulnerability and Risk of Taijiang Coastal Areas to Climatic Changes
This study aims to assess the vulnerability and risk of
the coastal areas of Taijiang to abnormal oceanographic phenomena.
In addition, this study aims to investigate and collect data regarding
the disaster losses, land utilization, and other social, economic, and
environmental issues in these coastal areas to construct a coastal
vulnerability and risk map based on the obtained climate-change risk
assessment results. Considering the indexes of the three coastal
vulnerability dimensions, namely, man-made facilities, environmental
geography, and social economy, this study adopted the equal
weighting process and Analytic Hierarchy Process to analyze the
vulnerability of these coastal areas to disasters caused by climatic
changes. Among the areas with high coastal vulnerability to climatic
changes, three towns had the highest coastal vulnerability and four had
the highest relative vulnerability. Areas with lower disaster risks were
found to be increasingly vulnerable to disasters caused by climatic
changes as time progresses.
[1] UNEP, Assessing Coastal Vulnerability: Developing a Global Index for
Measuring Risk, http://www.unep.org/, 2005.
[2] E. R.Thieler, , and E. S. Hammar-Klose, National Assessment of Coastal
Vulnerability to Future Sea-Level Rise: Preliminary Results for the U.S.
Atlantic Coast. U.S. Geological Survey, Open-File Report, 1999, pp. 99-
593.
[3] G. Özyurt, and A. Ergin, "Improving coastal vulnerability assessments to
sea-level rise: "A New Indicator Based Methodology for Decision
Makers," Journal of Coastal Research, Vol. 26, No. 2, 2010, pp. 265-
273. West Palm Beach (Florida).
[4] E. Doukakis, "Coastal vulnerability and risk parameters", European
Water, 11/12: 2005, pp. 3-7.
[5] H. S. Cui Hong, and L. Zhang, "A coastal vulnerability index and its
application in Xiamen, China", Aquatic ecosystem Health &
Management, Vol. 9, Issue 3, 2006, pp. 333-337.
[6] K. S. Kavi Kumar and S. Tholkappian, "Relative vulnerability of Indian
Coastal Districts to sea-level rise and climate extremes", International
Review for Environmental Strategies, Vol. 6, No. 1, 2006, pp. 3-22.
[7] S.-C. Lin and T.-Y. Tang, "Factor assessment of the environmental
impact for Tainan Technology Industry Area in Taiwan", In: Ecosystems
and Sustainable Development, Volume I, Edited by E. Tiezzi, C. A.
Brebbia and J. L. Uso, WIT Press, Boston, 2003, pp. 219-229.
[8] UNDRO, Natural Disasters and Vulnerability Analysis, Report of
Experts Group Meeting, UNDRO, Geneva. 1980.
[9] S. L. Cutter, "Vulnerability to environmental hazards", Progress in
Human, Geography, Vol. 20, No. 4, 1996, pp. 529-539.
[10] T.-Y. Lee, Information Extraction and Tempo-spatial Variability
Analysis for Digitalization of Taiwan Maps, The research project of
National Science Council, Project No: NSC99-2410-H-426-
002, Tainan, 2011.
[1] UNEP, Assessing Coastal Vulnerability: Developing a Global Index for
Measuring Risk, http://www.unep.org/, 2005.
[2] E. R.Thieler, , and E. S. Hammar-Klose, National Assessment of Coastal
Vulnerability to Future Sea-Level Rise: Preliminary Results for the U.S.
Atlantic Coast. U.S. Geological Survey, Open-File Report, 1999, pp. 99-
593.
[3] G. Özyurt, and A. Ergin, "Improving coastal vulnerability assessments to
sea-level rise: "A New Indicator Based Methodology for Decision
Makers," Journal of Coastal Research, Vol. 26, No. 2, 2010, pp. 265-
273. West Palm Beach (Florida).
[4] E. Doukakis, "Coastal vulnerability and risk parameters", European
Water, 11/12: 2005, pp. 3-7.
[5] H. S. Cui Hong, and L. Zhang, "A coastal vulnerability index and its
application in Xiamen, China", Aquatic ecosystem Health &
Management, Vol. 9, Issue 3, 2006, pp. 333-337.
[6] K. S. Kavi Kumar and S. Tholkappian, "Relative vulnerability of Indian
Coastal Districts to sea-level rise and climate extremes", International
Review for Environmental Strategies, Vol. 6, No. 1, 2006, pp. 3-22.
[7] S.-C. Lin and T.-Y. Tang, "Factor assessment of the environmental
impact for Tainan Technology Industry Area in Taiwan", In: Ecosystems
and Sustainable Development, Volume I, Edited by E. Tiezzi, C. A.
Brebbia and J. L. Uso, WIT Press, Boston, 2003, pp. 219-229.
[8] UNDRO, Natural Disasters and Vulnerability Analysis, Report of
Experts Group Meeting, UNDRO, Geneva. 1980.
[9] S. L. Cutter, "Vulnerability to environmental hazards", Progress in
Human, Geography, Vol. 20, No. 4, 1996, pp. 529-539.
[10] T.-Y. Lee, Information Extraction and Tempo-spatial Variability
Analysis for Digitalization of Taiwan Maps, The research project of
National Science Council, Project No: NSC99-2410-H-426-
002, Tainan, 2011.
@article{"International Journal of Earth, Energy and Environmental Sciences:55847", author = "Yu-Chen Lin and Tzong-Yeang Lee", title = "Assessment of Vulnerability and Risk of Taijiang Coastal Areas to Climatic Changes", abstract = "This study aims to assess the vulnerability and risk of
the coastal areas of Taijiang to abnormal oceanographic phenomena.
In addition, this study aims to investigate and collect data regarding
the disaster losses, land utilization, and other social, economic, and
environmental issues in these coastal areas to construct a coastal
vulnerability and risk map based on the obtained climate-change risk
assessment results. Considering the indexes of the three coastal
vulnerability dimensions, namely, man-made facilities, environmental
geography, and social economy, this study adopted the equal
weighting process and Analytic Hierarchy Process to analyze the
vulnerability of these coastal areas to disasters caused by climatic
changes. Among the areas with high coastal vulnerability to climatic
changes, three towns had the highest coastal vulnerability and four had
the highest relative vulnerability. Areas with lower disaster risks were
found to be increasingly vulnerable to disasters caused by climatic
changes as time progresses.", keywords = "Climate change, coastal disaster, risk, vulnerability", volume = "6", number = "7", pages = "409-9", }