Abstract
Surface energy, water balance components and related hydrological variables of the Seyhan River basin Turkey were estimated through the off-line simulation of a land surface model forced by the output of a regional climate model for both present and future conditions. Future climate conditions were produced by two different general circulation models, and land-cover conditions were determined under three land-use scenarios. The two climate conditions and the three land-use scenarios were combined in six different simulations for the future. Vegetation parameters were adjusted for the future land-use scenarios by applying the average future seasonal cycle for each vegetation class. The maximum snow water equivalent for the study area was almost 0.4 Gt in the present climate and decreased to as little as 0.1 Gt in the future climate. In the present climate, annual evaporation in irrigated areas is about 800 mm, and about 500 mm of irrigation water must be supplied to maintain soil wetness during the growing season. Over the study area, annual average values were projected to decrease by 170 mm for precipitation, about 40 mm for evaporation and about 110 mm for runoff. The proportional impact on runoff is particularly significant.
K. Tanaka, Associate Professor, Disaster Prevention Research Institute, Kyoto University Gokasho, Uji, Kyoto 611-0011, Japan; e-mail: tanaka.kenji.6u@kyoto-u.ac.jp.
Y. Fujihara, Associate Professor, Ishikawa Prefectural University 1-308, Suematsu, Nonoichi, Ishikawa 921-8836, Japan; e-mail: yfuji@ishikawa-pu.ac.jp.
F. Topaloğlu, Professor, Department of Agricultural Construction and Irrigation, Faculty of Agriculture, Çukurova University, Adana, Turkey; e-mail: topaloglu@cu.edu.tr.
S. P. Simonovic, Professor, Department of Civil and Environmental Engineering Program, The University of Western Ontario 1151 Richmond Street, London, Ontario, Canada, N6A 3K7; e-mail: ssimonovic@eng.uwo.ca.
T. Kojiri, researcher, Disaster Prevention Research Institute, Kyoto University Gokasho, Uji, Kyoto 611-0011, Japan.
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References
Avissar R, Pielke RA (1989) A parameterization of heterogeneous land surfaces for atmospheric numerical models and its impact on regional meteorology. Monthly Weather Review 117:2113–2136.
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 353(1–2):33–48.
Kojiri T, Kuroda Y, Tokai A (1997) Basin simulation and spatial assessment on water quality and quantity with multi-layer mesh-typed run-off model. Proceedings of the International Conference on Large Scale Water Resources Development in Developing Countries – New Dimensions of Prospects and Problems WQ1–WQ8.
Kozan O, Tanaka K, Ikebuchi S (2003) The estimation of water and heat budget in the Huaihe River Basin China – Detail representation of various cropland and irrigation. Proceedings of the 1st International Conference on Hydrology and Water Resources in Asia Pacific Region 2:763–768.
Kozan O, Tanaka K, Ikebuchi S, Qian M (2004) Land use and cropping pattern classification using satellite derived vegetation indices in the Huaihe river basin. Proceedings of the 2nd International Conference on Hydrology and Water Resources in Asia Pacific Region 2:732–740.
Masson V, Champeaux JL, Chauvin F, Meriguet C, Lacaze RA (2003) Global database of land surface parameters at 1-km resolution in meteorological and climate models. Journal of Climate 16(9):1261–1282.
Sato T, Kimura F, Kitoh A (2006) Projection of global warming onto regional precipitation over Mongolia using a regional climate model. Journal of Hydrology 333(1):144–154.
Tanaka K, Ikebuchi S (1994) Simple Biosphere Model Including Urban Canopy (SiBUC) for regional or basin-scale land surface processes. Proceedings of the International Symposium on GEWEX Asian Monsoon Experiment, pp 59–62.
Viovy N, Arino O (1992) The best index slope extraction (BISE): A method for reducing noise in NDVI time series. International Journal of Remote Sensing 13:1585–1590.
Acknowledgements
This research was financially supported by the Impact of Climate Changes on Agricultural Production System in the Arid Areas (ICCAP) project, administered by the Research Institute for Humanity and Nature (RIHN) and the Scientific and Technical Research Council of Turkey (TUBITAK). This work was also supported by the Global Environment Research Fund (S-5-3) of the Ministry of the Environment, Japan.
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Tanaka, K., Fujihara, Y., Topaloğlu, F., Simonovic, S.P., Kojiri, T. (2019). Impacts of Climate Change on Basin Hydrology and the Availability of Water Resources. In: Watanabe, T., Kapur, S., Aydın, M., Kanber, R., Akça, E. (eds) Climate Change Impacts on Basin Agro-ecosystems. The Anthropocene: Politik—Economics—Society—Science, vol 18. Springer, Cham. https://doi.org/10.1007/978-3-030-01036-2_5
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