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Atmosphere  2012 

A Comprehensive Modeling Study on Regional Climate Model (RCM) Application — Regional Warming Projections in Monthly Resolutions under IPCC A1B Scenario

DOI: 10.3390/atmos3040557

Keywords: Bangladesh, climate change, coastal region, RCM, PRECIS, temperature

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Abstract:

Some of the major dimensions of climate change include increase in surface temperature, longer spells of droughts in significant portions of the world, associated higher evapotranspiration rates, and so on. It is therefore essential to comprehend the future possible scenario of climate change in terms of global warming. A high resolution limited area Regional Climate Model (RCM) can produce reasonably appropriate projections to be used for climate-scenario generation in country-scale. This paper features the development of future surface temperature projections for Bangladesh on monthly resolution for each year from 2011 to 2100 applying Providing Regional Climates for Impacts Studies (PRECIS), and it explains in detail the modeling processes including the model features, domain size selection, bias identification as well as construction of change field for the concerned climatic variable, in this case, surface temperature. PRECIS was run on a 50 km horizontal grid-spacing under the Intergovernmental Panel on Climate Change (IPCC) A1B scenario and it was found to perform reasonably well in simulating future surface temperature of Bangladesh. The linear regression between observed and model simulated results of monthly average temperatures, within the 30-year period from 1971 to 2000, gives a high correlation of 0.93. The applied change field in average annual temperature shows only 0.5 °C–1 °C deviation from the observed values over the period from 2005 to 2008. Eventually, from the projected average temperature change during the years 1971–2000, it is apparent that warming in Bangladesh prevails invariably every month, which might eventually result in an average annual increase of 4 °C by the year 2100. Calculated anomalies in country-average annual temperature mostly remain on the positive side throughout the period of 2071–2100 indicating an overall up-shift. Apart from these quantitative analyses of temporal changes of temperature, this paper also illustrates their spatial distribution with a view to identify the most vulnerable zones under consequent warming through future times.

References

[1]  IPCC. Climate Change 2001: Impacts, Adaptation and Vulnerability: Contribution of Working Group II to the Third Assessment Report of the Intergovernmental Panel on Climate Change; McCarthy, J.J., Canziani, O.F., Leary, N.A., Dokken, D.J., White, K.S., Eds.; Cambridge University Press: Cambridge, UK, 2001.
[2]  Shahid, S. Spatial and temporal characteristics of droughts in the western part of Bangladesh. Hydrol. Process. 2008, 22, 2235–2247, doi:10.1002/hyp.6820.
[3]  Ramamasy, S.; Baas, S. Climate Variability and Change: Adaptation to Drought in Bangladesh; Asian Disaster Preparedness Centre and Food and Agriculture Organization of the United Nations: Rome, Italy, 2007.
[4]  IPCC. Climate Change 2001: The Scientific Basis: Contribution of Working Group I to the Third Assessment Report of the Intergovernmental Panel on Climate Change; Houghton, J.T., Ding, Y., Griggs, D.J., Noguer, M., van der Linden, P.J., Xioaosu, D., Eds.; Cambridge University Press: Cambridge, UK, 2001.
[5]  IPCC. Climate Change: Intergovernmental Panel on Climate Change; Houghton, J.T., Filho, L.G.M., Callander, B.A., Harris, N., Kattenberg, A., Maskell, K., Eds.; Cambridge University Press: Cambridge, UK, 1995.
[6]  Jones, R.G.; Noguer, M.; Hassell, D.C.; Hudson, D.; Wilson, S.S.; Jenkins, G.J.; Mitchell, J.F.B. Generating High Resolution Climate Change Scenarios Using PRECIS; Met Office Hadley Centre: Exeter, UK, 2004.
[7]  Bader, D.C.; Covey, C.; Gutowski, W.J., Jr.; Held, I.M.; Kunkel, K.E.; Miller, R.L.; Tokmakian, R.T.; Zhang, M.H. CCSP. Climate Models: An Assessment of Strengths and Limitations; A Report by the U.S. Climate Change Science Program and the Subcommittee on Global Change Research; Department of Energy, Office of Biological and Environmental Research: Washington, DC, USA, 2008.
[8]  Islam, M.N.; Rafiuddin, M.; Ahmed, A.U.; Kolli, R.K. Calibration of PRECIS in employing future scenarios in Bangladesh. Int. J. Climatol. 2008, 28, 617–628, doi:10.1002/joc.1559.
[9]  Islam, S.; Rehman, N.; Sheikh, M.M. Future change in the frequency of warm and cold spells over Pakistan by the PRECIS regional climate model. Climate Change 2009, 94, 35–45, doi:10.1007/s10584-009-9557-7.
[10]  Rupa Kumar, K.; Sahai, A.K.; Krishna Kumar, K.; Patwardhan, S.K.; Mishra, P.K.; Revadekar, J.V.; Kamala, K.; Pant, G.B. High-resolution climate change scenarios for India for the 21st century. Curr. Sci. 2006, 90, 334–345.
[11]  Basnayake, B.R.S.B.; Islam, M.N. Future Temperature Scenarios for Sri Lanka Using PRECIS for Assessing Climate Change Impacts and Vulnerability. In Proceedings of the International Conference on Climate Change Impacts and Adaptation Strategies for Bangladesh, Dhaka, Bangladesh, 18–19 February 2009; pp. 71–80.
[12]  Giorgi, F.; Hewitson, B.; Christensen, J.; Hulme, M.; von Storch, H.; Whetton, P.; Jones, R.; Mearns, L.; Fu, C. IPCC. Regional Climate Information—Evaluation and Projections. In Climate Change 2001: The Scientific Basis. Contribution of Working Group I to the TAR of the Intergovernmental Panel on Climate Change; Cambridge University Press: Cambridge, UK, 2001.
[13]  Simon, W.; Hassell, D.; Hein, D.; Jones, R.; Taylor, R. Installing and Using the Hadley Centre Regional Climate Modeling System, PRECIS Version 1.1; Met Office Hadley Centre: Exeter, UK, 2004.
[14]  Simmons, A.J.; Burridge, D.M. An energy and angular-momentum conserving finite difference scheme and hybrid co-ordinates. Mon. Weather Rev. 1981, 109, 758–766, doi:10.1175/1520-0493(1981)109<0758:AEAAMC>2.0.CO;2.
[15]  Gordon, C.; Cooper, C.; Senior, C.A.; Banks, H.; Gregory, J.M.; Johns, T.C.; Mitchell, J.F.B.; Wood, R.A. The simulation of SST, sea ice extents and ocean heat transports in a version of the Hadley Centre Coupled Model without flux adjustments. Climate Dyn. 2000, 16, 147–168, doi:10.1007/s003820050010.
[16]  Ramaraj, A.P.; Jagannathan, R.; Dheebakaran, G.A. Assessing Predictability of PRECIS Regional Climate Model for Downscaling of Climate Change Scenarios. In Proceedings of the ISPRS Archives XXXVIII-8/W3 Workshop: Impact of Climate Change on Agriculture, Ahmedabad, India, 17–18 December 2009.
[17]  Tudor, M.; Termonia, P. Alternative formulations for incorporating lateral boundary data into Limited-Area Models. Mon. Weather Rev. 2010, 138, 2867–2882, doi:10.1175/2010MWR3179.1.
[18]  Miguez-Macho, G.; Stenchikov, G.L.; Robock, A. Regional climate simulations over North America: Interaction of local processes with improved large-scale flow. J. Climate 2005, 18, 1227–1246, doi:10.1175/JCLI3369.1.
[19]  Qian, J.-H.; Zubair, L. The effect of grid spacing and domain size on the quality of ensemble regional climate downscaling over south Asia during the northeasterly monsoon. Mon. Wea. Rev. 2010, 138, 2780–2802, doi:10.1175/2010MWR3191.1.
[20]  Vannitsem, S.; Chomé, F. One-way nested regional climate simulations and domain size. J. Climate 2005, 18, 229–233, doi:10.1175/JCLI3252.1.
[21]  Bhaskaran, B.; Jones, R.G.; Murphy, J.M.; Noguer, M. Simulations of the Indian summer monsoon using a nested Regional Climate Model: Domain size experiments. Climate Dyn. 1996, 12, 573–587.
[22]  Islam, A.K.M.S.; Bhaskaran, B.; Arifin, B.M.S.; Murshed, S.B.; Mukherjee, N.; Hossain, B.M.T.A. Domain Size Experiment Using PRECIS Regional Climate Model for Bangladesh. In Proceedings of the 3rd International Conference on Water and Flood Management, Dhaka, Bangladesh, 8–10 January 2011; 2, pp. 891–898.
[23]  Nakicenovic, N.; Alcamo, J.; Davis, G.; de Vries, B.; Fenhann, J.; Gaffin, S.; Gregory, K.; Grübler, A.; Jung, T.Y.; Kram, T.; et al. Special Report on Emissions Scenarios; Cambridge University Press: Cambridge, UK & New York, NY, USA, 2000.
[24]  Climate Change Cell (CCC). Generation of PRECIS Scenarios for Bangladesh (Validation and Parameterization); Department of Environment (DoE) and Ministry of Environment and Forests: Dhaka, Bangladesh, 2009.
[25]  Islam, M.N.; Rahman, M.A.; Ahsan, M.N. Long-Term Forecasting of Rainfall and Temperature in the SAARC Region Using RCM: Part I—Calibration; SAARC Meteorological Research Centre (SMRC): Dhaka, Bangladesh, 2009.
[26]  Uchiyama, T.; Mizuta, R.; Kamiguchi, K.; Kitoh, A.; Noda, A. Changes in temperature-based extremes indices due to global warming projected by a global 20-km-mesh atmospheric model. SOLA 2006, 2, 68–71, doi:10.2151/sola.2006-018.
[27]  Rajib, M.A.; Rahman, M.M.; Islam, A.K.M.S.; McBean, E.A. Analyzing the Future State of Monthly Precipitation Pattern in Bangladesh from Multi-Model Projections Using Both GCM and RCM. In Proceedings of the ASCE World Environmental & Water Resources Congress, Palm Spring, CA, USA, 22-26 May 2011.
[28]  Rajib, M.A.; Rahman, M.M.; McBean, E.A. Application of regional climate model simulation and flow data for assessing future water availability in the River Jamuna. Int. J. Environ. Sci. 2011, 1, 884–896.
[29]  Booty, W.G.; Lam, D.C.L.; Bowen, G.S.; Resler, O.; Leon, L. Modeling changes in stream water quality due to climate change in a southern Ontario watershed. Can. Water Resour. J. 2005, 30, 211–226.
[30]  Diaz-Nieto, J.; Wilby, R.L. A comparison of statistical downscaling and climate change factor methods: Impacts on low flows in the river Thames, United Kingdom. Climate Change 2005, 69, 245–268, doi:10.1007/s10584-005-1157-6.
[31]  Zhang, X.C. Spatial downscaling of Global Climate Model output for site-specific assessment of crop production and soil erosion. Agric. For. Meteorol. 2005, 135, 215–229, doi:10.1016/j.agrformet.2005.11.016.
[32]  Christensen, J.H.; Hewitson, B. Regional Climate Projections. In Climate Change 2007: The Physical Science Basis: Contribution of Working Group I to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change; Cambridge University Press: Cambridge, UK, 2007.
[33]  NCDC (National Climatic Data Center). Available online: http://www.ncdc.noaa.gov/cmb-faq/anomalies.php (accessed on 24 May 2012).
[34]  Coastal Zone Policy (CZPo); Ministry of Water Resources: Dhaka, Bangladesh, 2005.

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