Assessing the vulnerability for some economic sectors of Binh Dinh province plays a very important role. The study has applied the vulnerability method according to Iyengar and Sudarshan to assess vulnerability for 03 different sectors: 1) Agriculture, forestry and fisheries; 2) Industry and construction and 3) Service. Calculation results of vulnerability classification for different sector groups according to the E, S, AC, and Vi indicators are used to develop a hierarchy of vulnerability classification for different sector groups. The calculation results indicate that only Phu My district has a high vulnerability index for agriculture, forestry and fisheries with the value of Vi?= 0.6; For the service sector, only Quy Nhon City has a high vulnerability index with the value of Vi?= 0.63. The vulnerability index calculated for sector groups for the remaining regions is low to moderate. The result of the vulnerability classification maps due to sea level rise will help planners and managers make plans, plans and solutions to mitigate risks caused by natural disasters.
References
[1]
Hinkel, J. (2011) Indicators of Vulnerability and Adaptive Capacity: Towards a Clarification of the Science Policy Interface. Global Environmental Change, 21, 198-208. https://doi.org/10.1016/j.gloenvcha.2010.08.002
[2]
Cutter, S.L., Boruff, B. and Shirley, W. (2003) Social Vulnerability to Environmental Hazards. Social Science Quarterly, 84, 242-261.
https://doi.org/10.1111/1540-6237.8402002
[3]
Allen Consulting (2005) Climate Change Risk and Vulnerability. Final Report to the Australian Greenhouse Office, Allen Consulting Group.
http://www.sfrpc.com/Climate%20Change/4.pdf
[4]
Folke, C. (2006) Resilience: The Emergence of a Perspective for Social-Ecological Systems Analyses. Global Environmental Change, 16, 253-267.
https://doi.org/10.1016/j.gloenvcha.2006.04.002
[5]
Smit, B. and Wandel, J. (2006) Adaptation, Adaptive Capacity and Vulnerability. Global Environmental Change, 16, 282-292.
https://doi.org/10.1016/j.gloenvcha.2006.03.008
[6]
Elisabeth, S., Misselhorn, A., Eakin, H., Devereux, S., Drimie, S., Msangi, S. and Stafford, M.S. (2010) Vulnerability to What? In: Ingram, J., Ericksen, P. and Liverman, D., Eds., Food Security and Global Environmental Change, Earthscan, London, 87-114.
[7]
Downing, T.E., Butterfield, R., Cohen, S., Huq, S., Moss, R., Rahman, A., Sokoma, Y. and Stephen, L. (2001) Vulnerability Indices: Climate Change Impacts and Adaptations. United Nations, New York.
[8]
Nicholls, R. (2002) Analysis of Global Impacts of Sea-Level Rise: A Case Study of Flooding. Physics and Chemistry of the Earth, 27, 1455-1466.
https://doi.org/10.1016/S1474-7065(02)00090-6
[9]
Pelling, M. (1999) The Political Ecology of Flood Hazard in Urban Guyana. Geoforum, 30, 249-261. https://doi.org/10.1016/S0016-7185(99)00015-9
[10]
Wu, S., Yarnal, B. and Fisher, A. (2002) Vulnerability of Coastal Communities to Sea-Level Rise: A Case Study of Cape May County, New Jersey, USA. Climate Research, 22, 255-270. https://doi.org/10.3354/cr022255
[11]
Barr, R., Fankhauser, S. and Hamilton, K. (2010) Adaptation Investments: A Resource Allocation Framework. Mitigation and Adaptation Strategies for Global Change, 15, 843-858. https://doi.org/10.1007/s11027-012-9442-y
[12]
Harmeling, S. (2011) Global Climate Risk Index 2011. Who Suffers Most from Extreme Weather Events? Weather Related Loss Events in 2009 and 1990 to 2009. Germanwatch and Climate Action Europe, Bonn.
[13]
Ellison, J.C. and Zouh, I. (2012) Vulnerability to Climate Change of Mangroves: Assessment from Cameroon, Central Africa. Biology, 1, 617-638.
https://doi.org/10.3390/biology1030617
[14]
Young, B., Byers, E., Gravuer, K., Hall, K., Hammerson, G. and Redder, A. (2011) The NatureServe Climate Change Vulnerability Index. NatureServe, Arlington.
[15]
Klein, R.J.T. and Nicholls, R.J. (1999) Assessment of Coastal Vulnerability to Climate Change. Ambio, 28, 182-187. https://www.jstor.org/stable/4314873
[16]
Messner, F. and Meyer, V. (2005) Flood Damage, Vulnerability and Risk Perception Challenges for Flood Damage Research. Discussion Paper 13/2005, Department of Economics, UFZ-Umweltforschungszentrum Leipzig-Halle, Leipzig.
[17]
Antle, J., Capalbo, S., Elliot, E. and Paustian, K. (2004) Adaptation, Spatial Heterogeneity and the Vulnerability of Agricultural Systems to Climate Change and CO2 Fertilization: An Integrated Assessment Approach. Climate Change, 64, 289-315.
https://doi.org/10.1023/B:CLIM.0000025748.49738.93
[18]
Eakin, H. (2005) Institutional Change, Climate Risk and Rural Vulnerability: Cases from Central México. World Development, 33, 1923-1938.
https://doi.org/10.1016/j.worlddev.2005.06.005
[19]
Hareau, A., Hofstadter, R. and Saizar, A. (1999) Vulnerability to Climate Change in Uruguay: Potential Impacts on the Agricultural and Coastal Resource Sectors and Response Capabilities. Climate Research, 12, 185-193.
https://doi.org/10.3354/cr012185
[20]
Luers, A.L., Lobell, D.B., Skar, L.S., Addams, C.L. and Matson, P.A. (2003) A Method for Quantifying Vulnerability, Applied to the Agricultural System of the Yaqui Valley, México. Global Environmental Change, 13, 255-267.
https://doi.org/10.1016/S0959-3780(03)00054-2
[21]
Wheeler, D. (2011) Quantifying Vulnerability to Climate Change: Implications for Adaptation Assistance. Center for Global Development, Washington DC.
https://www.cgdev.org/sites/default/files/1424759_file_Wheeler_Quantifying_Vulnerability_ FINAL.pdf
https://doi.org/10.2139/ssrn.1824611
[22]
Zhao, H.X., Wu, S.H. and Jiang, L.G. (2007) Research Advances in Vulnerability Assessment of Natural Ecosystem Response to Climate Change. Chinese Journal of Applied Ecology, 18, 445-450.
[23]
Johnson, J.E. and Marshall, P.A. (2007) Climate Change and the Great Barrier Reef: A Vulnerability Assessment. Great Barrier Reef Marine Park Authority and Australian Greenhouse Office, Townsville.
[24]
Nitschke, C.R. and Innes, J.L. (2008) Integrating Climate Change into Forest Management in South-Central British Columbia: An Assessment of Landscape Vulnerability and Development of a Climate-Smart Framework. Forest Ecology and Management, 256, 313-327. https://doi.org/10.1016/j.foreco.2008.04.026
[25]
Glick, P. and Stein, B.A. (2010) Scanning the Conservation Horizon: A Guide to Climate Change Vulnerability Assessment. National Wildlife Federation, Washington DC.
[26]
Bell, J.D., Johnson, J.E. and Hobday, A.J. (2011) Vulnerability of Fisheries and Aquaculture in the Pacific to Climate Change. Secretariat of the Pacific Community, Noumea.
[27]
Remling, E. and Persson, A. (2014) Who Is Adaptation for? Vulnerability and Adaptation Benefits in Proposals Approved by the UNFCCC Adaptation Fund. Climate and Development, 7, 16-34. https://doi.org/10.1080/17565529.2014.886992
[28]
Brooks, N., Adger, N. and Kelly, M. (2005) The Determinants of Vulnerability and Adaptive Capacity at the National Level and the Implications for Adaptation. Global Environmental Change, 15, 151-163.
https://doi.org/10.1016/j.gloenvcha.2004.12.006
[29]
Moss, R.H., Brenkert, A.L. and Malone, E.L. (2001) Vulnerability to Climate Change: A Quantitative Approach. U.S. Department of Energy, Washington DC.
[30]
O’Brien, K.L., Leichenko, R.M., Kelkar, U., Venema, H.M., Aandahl, G., Tompkins, H., Javed, A., Bhadwal, S., Barg, S., Nygaard, L. and West, J. (2004) Mapping Vulnerability to Multiple Stressors: Climate Change and Globalization un India. Global Environmental Change, 14, 303-313.
https://doi.org/10.1016/j.gloenvcha.2004.01.001
[31]
Iyengar, N.S. and Sudarshan, P. (1982) A Method of Classifying Regions from Multivariate Data. Economic and Political Weekly, 17, 2047-2052.
https://www.jstor.org/stable/4371674
[32]
Palanisami, K., Ranganathan, C.R., Nagothu, U.S. and Kakumanu, K.R. (2013) Climate Change and Agriculture in India. Routledge, New Delhi, 344.
https://doi.org/10.4324/9781315734088
[33]
Kumar, P.N.S., Paul, K.S.R. and Rao, D.V.S. (2014) Assess the Vulnerability of Climate Change in Krishna River Basin of Andhra Pradesh. International Journal of Development Research, 4, 1059-1061.
[34]
Behnassi, M., Syomiti Muteng’e, M., Ramachandran, G. and Shelat, K.N. (2014) Vulnerability of Agriculture, Water and Fisheries to Climate Change. Springer, Berlin. https://doi.org/10.1007/978-94-017-8962-2
[35]
Kumar, N.S.P., Radha, Y., Rao, D.V.S., Rao, V.S. and Gopikrishna, T. (2018) Vulnerability to Climate Change in Andhra Pradesh State, India. International Journal of Current Microbiology and Applied Sciences, 7, 495-502.
https://doi.org/10.20546/ijcmas.2018.711.059
[36]
IPCC (2001) Impacts, Adaptation and Vulnerability. Third Assessment Report. Climate Change 2001. Intergovernmental Panel on Climate Change/Cambridge University Press, Geneva/Cambridge.
[37]
IPCC (2007) Impacts, Adaptation and Vulnerability. Fourth Assessment Report. Climate Change 2007. Intergovernmental Panel on Climate Change/Cambridge University Press, Geneva/Cambridge. http://www.ipcc.ch
[38]
Szlafsztein, C. and Sterr, H. (2007) A GIS-Based Vulnerability Assessment of Coastal Natural Hazards, State of Pará, Brazil. Journal of Coastal Conservation, 11, 53-66.
https://doi.org/10.1007/s11852-007-0003-6
[39]
Kantamaneni, K., Sudha Rani, N.N.V., Rice, L., Sur, K., Thayaparan, M., Kulatunga, U., Rege, R., Yenneti, K. and Campos, L.C. (2019) A Systematic Review of Coastal Vulnerability Assessment Studies along Andhra Pradesh, India: A Critical Evaluation of Data Gathering, Risk Levels and Mitigation Strategies. Water, 11, 393.
https://doi.org/10.3390/w11020393
[40]
UNDP (2006) Human Development Report, United Nations Development Program.
http://hdr.undp.org/sites/default/files/2018_human_development_statistical_update.pdf
[41]
Ministry of Natural Resources and Environment (2016) Scenario of Climate Change and Sea Level Rise in 2016.
http://www.imh.ac.vn/files/doc/KichbanBDKH/KBBDKH_2016.pdf
