Abstract
This study builds on an earlier analysis of resilience of India and Indian states to climate change. The previous study (Brenkert and Malone, Clim Change 72:57–102, 2005) assessed current resilience; this research uses the Vulnerability–Resilience Indicators Model (VRIM) to project resilience to 2095 and to perform an uncertainty analysis on the deterministic results. Projections utilized two SRES-based scenarios, one with fast-and-high growth, one with delayed growth. A detailed comparison of two states, the Punjab and Orissa, points to the kinds of insights that can be obtained using the VRIM. The scenarios differ most significantly in the timing of the uncertainty in economic prosperity (represented by GDP per capita) as a major factor in explaining the uncertainty in the resilience index. In the fast-and-high growth scenario the states differ most markedly regarding the role of ecosystem sensitivity, land use and water availability. The uncertainty analysis shows, for example, that resilience in the Punjab might be enhanced, especially in the delayed growth scenario, if early attention is paid to the impact of ecosystems sensitivity on environmental well-being of the state. By the same token, later in the century land-use pressures might be avoided if land is managed through intensification rather than extensification of agricultural land. Thus, this methodology illustrates how a policy maker can be informed about where to focus attention on specific issues, by understanding the potential changes at a specific location and time—and, thus, what might yield desired outcomes. Model results can point to further analyses of the potential for resilience-building.
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References
Brenkert AL, Malone EL (2005) Modeling vulnerability and resilience to climate change: a case study of India and Indian states. Clim Change 72:57–102
Brenkert AL, Ibarrarán ME, Malone EL, Herrara L (2006) Vulnerabilidad y resilencia ante el cambio climático: un análisis exploratorio para México. Presented to Políticas Publicas para Crecimiento y Desarrollo, IBERGOP, 28 de agosto de 2006
Cohen S, Demeritt D, Robinson JB, Rothman D (1998) Climate change and sustainable development: towards dialogue. Glob Environ Change 8(4):341–371
Downing TE, Patwardhan A (2005) Assessing vulnerability for climate adaptation. In: Burton I, Malone EL, Huq S (eds) Adaptation policy frameworks for climate change: developing strategies, policies and measures. Cambridge University Press, Cambridge
Edmonds J, Wise M, Pitcher H, Richels R, Wigley T, MacCracken C (1997) An integrated assessment of climate change and the accelerated introduction of advanced energy technologies: an application of MiniCAM 1.0. Mitig Adapt Strategies Glob Chang 1:311–339
Gardner RH, Roder B, Bergstrom U (1983) PRISM: a systematic method for determining the effect of parameter uncertainties on model predictions. Studsvik Energiteknik AB report/NW-83/555. Studsvik Energiteknik, Nykoping, Sweden
Malone EL, Brenkert AL (2008) Vulnerability, sensitivity, and coping/adaptive capacity worldwide. In: Ruth M, Ibarraran M (eds) The distributional effects of climate change: social and economic implications. Elsevier Science, Dordrecht
Moss RH, Brenkert AL, Malone EL (2001) Vulnerability to climate change: a quantitative approach. PNNL-SA-33642. Pacific Northwest National Laboratory, Washington, DC http://www.pnl.gov/globalchange./projects/vul/index.htm
Nakicenovic N et al (2000) Special report on emissions scenarios. Cambridge University Press, Cambridge
Parry M, Canziani O, Palutikof J, van der Linden P, Hanson C (2007) Climate change 2007: impacts, adaptation and vulnerability. Cambridge University Press, Cambridge
Parson EA, Fisher-Vanden K (1997) Integrated assessment models of global climate change. Annu Rev Energy Environ 22:589–628
Pitcher H (1997) Sustainability: an exploratory analysis using the MiniCAM integrated climate model. Pacific Northwest National Laboratory, Washington, DC
Robinson JB, Herbert D (1999) Integrating climate change and sustainable development. In: Munasinghe M, Swart R (eds) Climate change and its linkages with development, equity, and sustainability: Proceedings of the IPCC expert meeting held in Colombo, Sri Lanka, 27–29 April 1999. Intergovernmental Panel on Climate Change, Paris
Robinson JB (2005) Climate change and sustainable development: changing the lens. Paper presented to the Joint IPCC WG II and III Expert Meeting on the Integration of Adaptation, Mitigation, and Sustainable Development into the 4th IPCC Assessment Report, La Reunion, France, February 16–18
Rose KA, Smith EP, Gardner RH, Brenkert AL, Bartell SM (1991) Parameter sensitivities, Monte Carlo filtering, and model forecasting under uncertainty. J Forecast 10:117–133
Turner BL II, Kasperson RE, Matson PA, McCarthy JJ, Corell RW, Christensen L, Eckley N, Kasperson JX, Luers A, Martello ML, Polsky C, Pulsipher A, Schiller A (2003) A framework for vulnerability analysis in sustainability science. Proc Natl Acad Sci U S A 100(14):8074–8079
United Nations (1992) Framework convention on climate change. United Nations, New York
Yohe G, Malone EL, Brenkert AL , Schlesinger M, Meij H, Xing X, Lee D (2006) A synthetic assessment of the global distribution of vulnerability to climate change from the IPCC perspective that reflects exposure and adaptive capacity. Center for International Earth Science Information Network, Columbia University, Palisades, NY http://ciesin.columbia.edu/data/climate/
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Malone, E.L., Brenkert, A.L. Uncertainty in resilience to climate change in India and Indian states. Climatic Change 91, 451–476 (2008). https://doi.org/10.1007/s10584-008-9472-3
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DOI: https://doi.org/10.1007/s10584-008-9472-3