Your search found 3 records
1 Nagano, T.; Donma, S.; Hoshikawa, K.; Kume, T.; Umetsu, C.; Akca, E.; Onder, S.; Berberoglu, S.; Ozekici, B.; Watanabe, T.; Kapur, S.; Kanber, R. 2007. The integrated assessment of the impact of climate change on Lower Seyhan Irrigation Project. In Research Institute for Humanity and Nature (RIHN). Research Team for the ICCAP Project. (Ed.). The research project on the Impact of Climate Changes on Agricultural Production System in Arid Areas (ICCAP). Final report of ICCAP. Kyoto, Japan: Research Institute for Humanity and Nature (RIHN); Ankara, Turkey: Scientific and Technological Research Council of Turkey. pp.197-207. (ICCAP Publication 10)
Climate change ; Impact assessment ; Irrigation programs ; Canals ; Water user associations / Turkey / Lower Seyhan Irrigation Project / Adana
(Location: IWMI HQ Call no: 333.9162 G752 RES Record No: H044276)
2 Kume, T.; Nagano, T.; Akca, E.; Donma, S.; Hoshikawa, K.; Berberoglu, S.; Serdem, M.; Kapur, S.; Watanabe, T. 2007. Impact of the irrigation water use on the groundwater environment and the soil salinity. In Research Institute for Humanity and Nature (RIHN). Research Team for the ICCAP Project. (Ed.). The research project on the Impact of Climate Changes on Agricultural Production System in Arid Areas (ICCAP). Final report of ICCAP. Kyoto, Japan: Research Institute for Humanity and Nature (RIHN); Ankara, Turkey: Scientific and Technological Research Council of Turkey. pp.209-214. (ICCAP Publication 10)
Water use ; Irrigation water ; Precipitation ; Irrigation effects ; Salinity ; Groundwater ; Soil salinity / Turkey / Lower Seyhan Irrigation Project
(Location: IWMI HQ Call no: 333.9162 G752 RES Record No: H044277)
3 Donmez, C.; Berberoglu, S.; Cilek, A.; Krause, P. 2020. Basin-wide hydrological system assessment under climate change scenarios through conceptual modelling. International Journal of Digital Earth, 13(8):915-938. [doi: https://doi.org/10.1080/17538947.2019.1597188]
Hydrology ; Assessment ; River basins ; Climate change ; Modelling ; Water resources ; Precipitation ; Rain ; Temperature ; Meteorological factors ; Forecasting ; Watersheds ; Runoff ; Evapotranspiration ; Case studies / Turkey / Goksu Watershed
(Location: IWMI HQ Call no: e-copy only Record No: H049880)
(5.68 MB)
Mediterranean region is identified as a primary hot-spot for climate change due to the expected temperature and rainfall changes. Understanding the potential impacts of climate change on the hydrology in these regions is an important task to develop long-term water management strategies. The aim of this study was to quantify the potential impacts of the climate changes on local hydrological quantities at the Goksu Watershed at the Eastern Mediterranean, Turkey as a case study. A set of Representative Concentration Pathways (RCP) scenarios were used as drivers for the conceptual hydrological model J2000 to investigate how the hydrological system and the underlying processes would respond to projected future climate conditions. The model was implemented to simulate daily hydrological quantities including runoff generation, Actual Evapotranspiration (AET) and soil-water balance for present (2005–2015) and future (up to 2100). The results indicated an increase of both precipitation and runoff throughout the region from January to March. The region showed a strong seasonally dependent runoff regime with higher flows during winter and spring and lower flows in summer and fall. The study provides a comparative methodology to include meteorological-hydrological modelling integration that can be feasible to assess the climate change impacts in mountainous regions.
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