Professional paper
https://doi.org/10.37982/hmc.57.1.3
Projections of future surface air temperature for Awash River Basin in Ethiopia using statistical downscaling method
Abrhame Weldeyohannes Gilgel
; Ethiopian Forestry Development, Addis Ababa, Ethiopia
Abstract
Climate change has become a major environmental and socioeconomic challenge in Ethiopia. Statistically downscaled daily data is used in 30-year intervals from the results of the second generation of the Canadian Earth System Model (CanESM2) under three representative concentration pathways of carbon emission scenarios (RCPs): RCP 2.6, 4.5, and 8.5 to project the future climate change. The method engaged to generate climate change scenarios for each RCPs is Statistical Downscaling Method (SDSM Version 4.2.9), using results of the CanESM2. Besides cited, statistical regression analyses are manipulated to evaluate SDSM model performances. The results showed that regarding SDSM model evaluation, the SDSM model demonstrated good to excellent efficiency with calibration value R2 > 0.95 and validation value R2 > 0.90 in case of maximum and minimum surface air temperature. Regarding the results of climate change scenario projections, on some months and seasons a change in temperature exhibited from a very minor rise (0.3°C) and a very minor decrease (-0.2°C) from the climatic mean, under all RCPs to a significant increase (3.5°C) on some other months and seasons. In addition, for both climate parameters the changes in the periods 2050s and 2080s are greater than in the 2020s, under each RCP. Further, the average change in minimum air temperature (2.5°C) is anticipated to be larger than the change in maximum air temperature (2.0°C), under all RCPs. Moreover, an increasing trend is observed for both maximum and minimum air temperatures starting from 2020s to 2080s in all cases of RCPs. So, in order to keep global warming below 1.5°C, it is recommended to prioritize climate change adaptation and mitigation practices to those low land areas which are going to be more vulnerable and likely affected.
Keywords
climate change; general circulation model; RCP scenarios; downscaling climate models; climate extremes and temperature
Hrčak ID:
340219
URI
Publication date:
29.11.2025.
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