Çukurova Yöresi İçin Regcm Modelinin Gözlem Verileriyle Verifikasyonu
DOI:
https://doi.org/10.24925/turjaf.v12i3.435-446.6476Anahtar Kelimeler:
RegCM- Bölgesel iklim modeli- Verifikasyon- Çukurova- Sıcaklık- YağışÖzet
Çukurova Yöresi ülke ekonomisine önemli katkı yapan başlıca tarımsal üretim bölgelerinden biridir. Kuraklık, sel gibi ekstrem hava olaylarının yanı sıra iklim değişikliği nedeniyle daha az ve şiddetli yağışların artan sıcaklıkla birleşmesi tarımsal üretimi olumsuz etkilemektedir. Çalışmada RegCM modelinin Türkiye için kullanılabilirliği çeşitli test ve doğrulama çalışmalarıyla denenmiş ve modelin referans dönemi için ortalama, ortalama maksimum, ortalama minimum, maksimum, minimum sıcaklıkları sırasıyla 2.8 ile -4.3, 9.2 ile -7.5, 14.6 ile -4.3, 8 ile -8.3, 14.3 ile -5.4ºC arasında değişen aralıklarda farklı benzeştirdiği gözlenmiştir. Yağış benzeşim sonuçlarının tutarlılığının topoğrafik yapıyla yakından ilgili olduğu belirlenmiştir.
Referanslar
Anthes, R. A. (1977). A Cumulus Parameterization Scheme Utilizing a One-Dimensional Cloud Model, Mon. Weather Rev., 117, 1423-1438.
Briegleb, B. P. (1992). Delta-Eddington Approximation For Solar Radiation In The Ncar Community Climate Model, J. Geophys. Res., 97, 7603-7612.
Cox, P. M., Betts, R. A., Bunton, C. B., Essery, R. L. H., Rowntree, P. R., & Smith J. (1999). The Impact Of New Land Surface Physics On The GCM Simulation Of Climate And Climate Sensitivity. Clim Dyn 15: 183–203.
Cusack, S., Edwards, J. M., Crowther, & J. M. (1999). Investigating K-Distribution Methods For Parametrizing Gaseous Absorption In The Hadley Centre Climate Model. J Geophys Res 104: 2051–2057.
Dellal, İ., Butt, T., Mccarl, B., & Dyke, P. (2004). ‘İklim Değişikliğinin Türk Tarımı Üzerine Ekonomik Etkileri’, Ankara İklim Konferansı, Ankara.
Dickinson, R. E., Errico, R. M., Giorgi, F., & Bates, G. T. (1989). A Regional Climate Model For The Western United States, Climate Change, 15, 383-422.
Edwards, J. M. & Slingo, A. (1996). Studies With A Flexible New Radiation Code. I: Choosing A Configuration For A Large Scale Model. Q J R Meteorol Soc 122: 689–719.
Fujihara Y., Tanaka K., Watanabe T., Nagano T., & Kojiri T. (2008). Assessing The Impacts Of Climate Change On The Water Resources Of The Seyhan River Basin In Turkey: Use Of Dynamically Downscaled Data For Hydrologic Simulations. Journal Of Hydrology, Volume 353, Issues 1-2, 20 May 2008, p33-48. https://doi.org/10.1016/j.jhydrol.2008.01.024
Giorgi, F. (1990). Simulation Of Regional Climate Using A Limited Area Model Nested In A General Circulation Model, Journal Of Climate, 3, 941-964.
Giorgi, F., & Mearns, L. O. (1999). Introduction To Special Section: Regional Climate Modeling Revisited, J Geophys Res-Atmos, 104, 6335-6352.
Giorgi, F., Bi, X., & Pal, J. S. (2004a). Mean, Interannual Variability And Trends In A Regional Climate Change Experiment Over Europe. Part I: Present Day Climate (1961–1990), Clim. Dyn., 22, 733– 756.
Giorgi, F., Bi, X., & Pal, J. S. (2004b). Mean, Interannual Variability And Trends In A Regional Climate Change Experiment Over Europe. Part II: Future Climate Scenarios (2071– 2100), Clim. Dyn., 23, 839– 858.
Gregory D., & Morris D. (1996). The Sensitivity Of Climate Simulations To The Specification Of Mixed Phase Clouds. Clim Dyn 12: 641–651.
Grell, G. A. (1993). Prognostic Evaluation of Assumptions Used by Cumulus Parameterizations, Mon. Weather Rev.,121, 764-787.
Grell, G. A., Dudhia, J. & Stauffre, D. R. (1994). Description Of The Fifth Generation Penn State/NCAR Mesoscale Model (MM5), NCAR Tech. Note,121.
Hack, J. J., Boville, B. A., Briegleb, B. P., Kiehl, J. T., Rasch, P. J. & Williamson, D. L. (1993). Description of the NCAR Community Climate Model (CCM2), NCAR Tech. Note,108.
Holtslag, A. A. M., De Bruijn, E. I. F. & Pan, H. L. (1990). A High Resolution Air Mass Transformation Model for Short-Range Weather Forecasting, Mon. Weather Rev.,118, 1561-1575.
Hsie, E. Y., Anthes, R. A. & Keyser, D. (1984). Numerical Simulation Of Frontogenesis In A Moist Atmosphere, J. Atmos. Sci.,41, 2581-2594.
ICCAP. (2007a). The Final Report Of ICCAP Project. The Research Project On The Impact Of Climate Changes On Agricultural Production System In Arid Areas (ICCAP). Research Institute For Humanity And Nature (RIHN); The Scientific And Technological Research Council Of Turkey (TÜBİTAK). Edit By Research Team For Thr ICCAP Project. ICCAP Pub. No. 10, March 2007(A), 343 P.
ICCAP. (2007b). Iccap Project: Turkish Group Final Reports. Impact Of Climate Changes On Agricultural Production System In Arid Areas (ICCAP). Kurak Alanlarda İklim Değişikliğinin Tarımsal Üretim Sistemlerine Etkisi. Research Institute For Humanity And Nature (Rıhn); The Scientific And Technological Research Council Of Turkey (TÜBİTAK). Edit By Research Team For Thr ICCAP Project. ICCAP Pub. No. 11, March 2007(B), 188 P.
Kadıoğlu, M., Şaylan, L. & Şen, Z. (1998). Effect of climate change on the growing season in Turkey, Second Trabzon Int. Energy and Environment.
Karaca, M., & Nicholls, R. J. (2008). Potential Implications Of Accelerated Sea-Level Rise For Turkey, Journal Coastal Research, 242: 288-298. https://doi.org/10.2112/07A-0003.1
Kiehl, J. T., Hack, H. H., Bonan, G. B., Boville, B. A., Briegleb, B. P., Williamson, D. L. & Rasch, P. J. (1996). Description Of The NCAR Community Climate Model (CCM3), NCAR Tech. Note,152.
Krichak, S. O., Alpert, P., Bassat K. & Kunin, P. (2007). The Surface Climatology Of The Eastern Mediterranean Region Obtained In A Three-Member Ensemble Climate Change Simulation Experiment, Adv. Geosci.,12, 67-80.
Oğuz, T. (2003). Climatic Warming Impacting Pelagic Fish Stocks In The Black Sea Due To An Ecological Regime Shift During Mid-1990s, Globec International Newsletter Vol.9, No.2, Pp.18-20.
Oğuz, T., Çokacar, T., Malanotte-Rizzoli P., & Ducklow, H. W. (2003). Climatic Warming And Accompanying Changes In The Ecological Regime Of The Black Sea During 1990s. Global Biogeochem. Cycles, 17(3), 1088, Doi:10.1029/2003 GB002031.
Önol, B., & Semazzi F. (2009). Regionalization Of Climate Change Simulations Over Eastern Mediterranean. Journal Of Climate: 22:1944–1961
Pal J. S., Giorgi, F., Bi X., Elguindi N., Solmon F., Gao X., Rauscher S. A., Francisco R., Zakey A., Winter J., Ashfaq M., Syed F. S., Bell J. L., Difenbaugh N. S., Karmacharya J., Konare A., Martinez D., Rocha R. P., Sloan L. C., & Steiner, A. (2007). Regional Climate Modeling For The Developing World: The ICTP Regcm3 And Regcnet Bull. Am. Meteorol. Soc. 88 1395–409.
Pope, V. D., Gallani, M. L., Rowntree, P. R., & Stratton, R. A., 2000. The Impact Of New Physical Parametrisations In The Hadley Centre Climate Model. Climate Dynamics, 16, 123-146.
Smith, R. N. B., 1990. A Scheme For Predicting Layer Clouds And Their Water Content In A General Circulation Model. Q J R Meteorol Soc 116: 435–460.
Smith, R. N. B. (1993). Experience And Developments With The Layer Cloud And Boundary Layer Mixing Schemes In The UK Meteorological Office Unified Model. In: Proc ECMWF/GCSS Workshop On Parametrization Of The Cloud-Topped Boundary Layer, 8–11 June 1993, ECMWF, Reading, UK.
Şaylan, L. & Çaldağ B. (2000), Potential Impacts Of Climate Change On Agriculture, 2nd International Symposium On New Technologies For Environmental Monitoring And Agro-Applications, AGROENVIRON-2000, 18-20 October 2000, Tekirdağ.
Şen, B. (2009). Bölgesel İklim Modelleri Kullanılarak Çukurova Yöresi’nde İklim Değışikliğinin 1. ve 2. Ürün Mısır Verimine Olası Etkilerinin Belirlenmesi, Doktora Tezi, Çukurova Üniversitesi Fen Bilimleri Enstitüsü, s:322, Adana.
Takle E. S., Gutowski W. J., Arritt R. W., Pan, Z., Anderson C. J., Da Silva, R. R., Caya, D., Chen, S.C., Giorgi, F., Christensen, J. H., Hong, S.Y., Juang, H. M. H, Katzfey, J., Lapenta, W. M., Laprise, R., Liston, G. E., Lopez, P., Mcgregor, J., Pielke, R. A. & Roads J. O. (1999). Project to intercompare regional climate simulations (PIRCS): description and initial results. J Geophys Res Atmos 104:19443–19461.
Türkeş, M. (1996). Spatial and Temporal Analysıs of Annual Rainfall Variations in Turkey. International Journal of Climatology, 16:1057-1076.
Türkeş, M. (1999). Vulnerability Of Turkey To Desertification With Respect To Precipitation And Aridity Conditions. Tr. J. Of Engineering And Environmental Science, 23:363-380.
Türkeş, M., Koç, T., Sarış, F. (2008). Spatiotemporal Variability of Precipitation Total Series Over Turkey. Int. J. Of Climatol (2008). https://doi.org/10.1002/joc.1768
Türkeş, M. & Tatlı, H. (2009). Use Of The Standardized Precipitation Index (SPI) And A Modified SPI For Shaping The Drought Probabilities Over Turkey. Int. J. Of Climatol. 29: 2270 – 2282. https://doi.org/10.1002/joc.1862
Watanabe, T. (2007). Summary Of ICCAP –Framework, Outcomes And Implication Of The Project. The Final Report Of ICCAP Project. ICCAP Pub. No. 10, March 2007(A), 1-14.
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