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Impacts of projected change in climate on water balance in basins of East Africa

Impacts of projected change in climate on water balance in basins of East Africa
Impacts of projected change in climate on water balance in basins of East Africa
In East Africa, climate change and variability have shown a strong impact on sectors such as agriculture, energy, and water. To allow mitigation and adaptation of the possible impacts of the projected change in climate, this study applies a Statistical Downscaling Model (SDSM) to generate a high-resolution climate projection, equivalent to future station data, to drive impact assessment models in selected, agricultural intensive, basins of Ethiopia (EthShed), Kenya (KenShed), and Tanzania (TanShed). Observed and large-scale climate variables (predictors) are obtained from the national meteorological agency of Ethiopia and international databases. BROOK90, a physical-based hydrological model, is used to assess the impacts of the projected change in precipitation and maximum and minimum temperature (T-max, and T-min) on the water balance. Based on SDSM, the results show an increase in precipitation, relative to the baseline period (1961–1990), in EthShed (14% - 50%) and KenShed (15% - 86%) and a decrease in TanShed (1.3% - 6.3%) in the 20s (2011–2040), 50s (2041–2070), and 80s (2071–2100) under the three Representative Concentration Pathways (RCPs; RCP2.6, RCP4.5, and RCP8.5). T-max (anomalies up to 3.7 °C) and T-min (anomalies up to 2.76 °C) will be warmer than the baseline period throughout the 21 century in all three basins. In line with the projected change in precipitation and temperature, an increase (decrease) in seasonal and annual streamflow, soil-water, and evaporation in EthShed and KenShed (TanShed) is projected in the 20s, 50s, and 80s. In general, sustainable adaptation measures are required to be developed in a site-specific manner, considering the projected increase in temperature and evaporation in all three basins and a decrease in soil-water and streamflow in TanShed.
0048-9697
160-170
Gebrechorkos, Solomon
ff77f8a3-b6ef-4cfd-aebd-a003bf3947a5
Bernhofer, Christian
40166f9c-4ee5-4064-8dcc-d573f1b08d41
Hülsmann, Stephan
7036b9ad-90a4-4f19-a7a1-0141531b7a67
Gebrechorkos, Solomon
ff77f8a3-b6ef-4cfd-aebd-a003bf3947a5
Bernhofer, Christian
40166f9c-4ee5-4064-8dcc-d573f1b08d41
Hülsmann, Stephan
7036b9ad-90a4-4f19-a7a1-0141531b7a67

Gebrechorkos, Solomon, Bernhofer, Christian and Hülsmann, Stephan (2019) Impacts of projected change in climate on water balance in basins of East Africa. Science of the Total Environment, 682, 160-170. (doi:10.1016/j.scitotenv.2019.05.053).

Record type: Article

Abstract

In East Africa, climate change and variability have shown a strong impact on sectors such as agriculture, energy, and water. To allow mitigation and adaptation of the possible impacts of the projected change in climate, this study applies a Statistical Downscaling Model (SDSM) to generate a high-resolution climate projection, equivalent to future station data, to drive impact assessment models in selected, agricultural intensive, basins of Ethiopia (EthShed), Kenya (KenShed), and Tanzania (TanShed). Observed and large-scale climate variables (predictors) are obtained from the national meteorological agency of Ethiopia and international databases. BROOK90, a physical-based hydrological model, is used to assess the impacts of the projected change in precipitation and maximum and minimum temperature (T-max, and T-min) on the water balance. Based on SDSM, the results show an increase in precipitation, relative to the baseline period (1961–1990), in EthShed (14% - 50%) and KenShed (15% - 86%) and a decrease in TanShed (1.3% - 6.3%) in the 20s (2011–2040), 50s (2041–2070), and 80s (2071–2100) under the three Representative Concentration Pathways (RCPs; RCP2.6, RCP4.5, and RCP8.5). T-max (anomalies up to 3.7 °C) and T-min (anomalies up to 2.76 °C) will be warmer than the baseline period throughout the 21 century in all three basins. In line with the projected change in precipitation and temperature, an increase (decrease) in seasonal and annual streamflow, soil-water, and evaporation in EthShed and KenShed (TanShed) is projected in the 20s, 50s, and 80s. In general, sustainable adaptation measures are required to be developed in a site-specific manner, considering the projected increase in temperature and evaporation in all three basins and a decrease in soil-water and streamflow in TanShed.

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More information

Accepted/In Press date: 5 May 2019
e-pub ahead of print date: 6 May 2019
Published date: 10 September 2019

Identifiers

Local EPrints ID: 435186
URI: http://eprints.soton.ac.uk/id/eprint/435186
DOI: doi:10.1016/j.scitotenv.2019.05.053
ISSN: 0048-9697
PURE UUID: e95cb141-8359-471e-aa16-14046206b04c
ORCID for Solomon Gebrechorkos: ORCID iD orcid.org/0000-0001-7498-0695

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Date deposited: 25 Oct 2019 16:30
Last modified: 17 Mar 2024 03:55

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Author: Solomon Gebrechorkos ORCID iD
Author: Christian Bernhofer
Author: Stephan Hülsmann

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