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Evaluation and projections of extreme precipitation over southern Africa from two CORDEX models
The study focuses on the analysis of extreme precipitation events of the present and future climate over southern Africa. Parametric and non-parametric approaches are used to identify and analyse these extreme events in data from the Coordinated Regional Climate Downscaling Experiment (CORDEX) model...
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| Published in: | Climatic change 2016-04, Vol.135 (3-4), p.655-668 |
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| cited_by | cdi_FETCH-LOGICAL-c542t-2eb110bc98e182dd915b52461a30852ed2e2f48ab52af1a0c387cc5669ab5ff83 |
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| cites | cdi_FETCH-LOGICAL-c542t-2eb110bc98e182dd915b52461a30852ed2e2f48ab52af1a0c387cc5669ab5ff83 |
| container_end_page | 668 |
| container_issue | 3-4 |
| container_start_page | 655 |
| container_title | Climatic change |
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| creator | Pinto, Izidine Lennard, Christopher Tadross, Mark Hewitson, Bruce Dosio, Alessandro Nikulin, Grigory Panitz, Hans-Juergen Shongwe, Mxolisi E |
| description | The study focuses on the analysis of extreme precipitation events of the present and future climate over southern Africa. Parametric and non-parametric approaches are used to identify and analyse these extreme events in data from the Coordinated Regional Climate Downscaling Experiment (CORDEX) models. The performance of the global climate model (GCM) forced regional climate model (RCM) simulations shows that the models are able to capture the observed climatological spatial patterns of the extreme precipitation. It is also shown that the downscaling of the present climate are able to add value to the performance of GCMs over some areas depending on the metric used. The added value over GCMs justifies the additional computational effort of RCM simulation for the generation of relevant climate information for regional application. In the climate projections for the end of twenty-first Century (2069–2098) relative to the reference period (1976–2005), annual total precipitation is projected to decrease while the maximum number of consecutive dry days increases. Maximum 5-day precipitation amounts and 95th percentile of precipitation are also projected to increase significantly in the tropical and sub-tropical regions of southern Africa and decrease in the extra-tropical region. There are indications that rainfall intensity is likely to increase. This does not equate to an increase in total rainfall, but suggests that when it does rain, the intensity is likely to be greater. These changes are magnified under the RCP8.5 when compared with the RCP4.5 and are consistent with previous studies based on GCMs over the region. |
| doi_str_mv | 10.1007/s10584-015-1573-1 |
| format | article |
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Parametric and non-parametric approaches are used to identify and analyse these extreme events in data from the Coordinated Regional Climate Downscaling Experiment (CORDEX) models. The performance of the global climate model (GCM) forced regional climate model (RCM) simulations shows that the models are able to capture the observed climatological spatial patterns of the extreme precipitation. It is also shown that the downscaling of the present climate are able to add value to the performance of GCMs over some areas depending on the metric used. The added value over GCMs justifies the additional computational effort of RCM simulation for the generation of relevant climate information for regional application. In the climate projections for the end of twenty-first Century (2069–2098) relative to the reference period (1976–2005), annual total precipitation is projected to decrease while the maximum number of consecutive dry days increases. Maximum 5-day precipitation amounts and 95th percentile of precipitation are also projected to increase significantly in the tropical and sub-tropical regions of southern Africa and decrease in the extra-tropical region. There are indications that rainfall intensity is likely to increase. This does not equate to an increase in total rainfall, but suggests that when it does rain, the intensity is likely to be greater. 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Parametric and non-parametric approaches are used to identify and analyse these extreme events in data from the Coordinated Regional Climate Downscaling Experiment (CORDEX) models. The performance of the global climate model (GCM) forced regional climate model (RCM) simulations shows that the models are able to capture the observed climatological spatial patterns of the extreme precipitation. It is also shown that the downscaling of the present climate are able to add value to the performance of GCMs over some areas depending on the metric used. The added value over GCMs justifies the additional computational effort of RCM simulation for the generation of relevant climate information for regional application. In the climate projections for the end of twenty-first Century (2069–2098) relative to the reference period (1976–2005), annual total precipitation is projected to decrease while the maximum number of consecutive dry days increases. Maximum 5-day precipitation amounts and 95th percentile of precipitation are also projected to increase significantly in the tropical and sub-tropical regions of southern Africa and decrease in the extra-tropical region. There are indications that rainfall intensity is likely to increase. This does not equate to an increase in total rainfall, but suggests that when it does rain, the intensity is likely to be greater. These changes are magnified under the RCP8.5 when compared with the RCP4.5 and are consistent with previous studies based on GCMs over the region.</description><subject>21st century</subject><subject>Adaptation</subject><subject>Analysis</subject><subject>Atmospheric Sciences</subject><subject>Capital assets</subject><subject>Climate</subject><subject>Climate change</subject><subject>Climate Change/Climate Change Impacts</subject><subject>Climate models</subject><subject>Climatology</subject><subject>Computer simulation</subject><subject>Earth and Environmental Science</subject><subject>Earth Sciences</subject><subject>Extreme weather</subject><subject>Global climate</subject><subject>Mathematical models</subject><subject>Precipitation</subject><subject>Projection</subject><subject>Rain</subject><subject>rain intensity</subject><subject>Rainfall</subject><subject>Rainfall intensity</subject><subject>RCM</subject><subject>Regional</subject><subject>Regions</subject><subject>Simulation</subject><subject>Studies</subject><subject>subtropics</subject><subject>Trends</subject><subject>Tropical environments</subject><subject>value 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Christopher</au><au>Tadross, Mark</au><au>Hewitson, Bruce</au><au>Dosio, Alessandro</au><au>Nikulin, Grigory</au><au>Panitz, Hans-Juergen</au><au>Shongwe, Mxolisi E</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Evaluation and projections of extreme precipitation over southern Africa from two CORDEX models</atitle><jtitle>Climatic change</jtitle><stitle>Climatic Change</stitle><date>2016-04-01</date><risdate>2016</risdate><volume>135</volume><issue>3-4</issue><spage>655</spage><epage>668</epage><pages>655-668</pages><issn>0165-0009</issn><eissn>1573-1480</eissn><coden>CLCHDX</coden><abstract>The study focuses on the analysis of extreme precipitation events of the present and future climate over southern Africa. 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| subjects | 21st century Adaptation Analysis Atmospheric Sciences Capital assets Climate Climate change Climate Change/Climate Change Impacts Climate models Climatology Computer simulation Earth and Environmental Science Earth Sciences Extreme weather Global climate Mathematical models Precipitation Projection Rain rain intensity Rainfall Rainfall intensity RCM Regional Regions Simulation Studies subtropics Trends Tropical environments value added |
| title | Evaluation and projections of extreme precipitation over southern Africa from two CORDEX models |
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