Central Asia flood hazard maps - fluvial

Fluvial flood hazard maps for 5,10,20,50,100,200,500,1,000 years return period.

Resources

• Central Asia undefended fluvial flood hazard maps - current climate geotiff (Details)
  Fluvial flood hazard maps for the undefended case for 5,10,20,50,100,200,500,1,000 years return period. Each pixel represents the maximum water depth. In order to derive the hazard maps over the entire domain, for each return period an hydraulic simulation is performed for each simulation unit domain, feeding the model with the hydrograph corresponding to the given return time. These data have been derived on a regional scale for the purpose of consistent regional multi-country hazard and risk assessment. Application of this information on smaller scales should be done with care. Importantly on a local scale, it is often the case that more detailed history and hazard information is required to perform such hazard and risk modelling, particularly were applied to dimension mitigation structures or strategies., it is often the case that more detailed history and hazard information is required to perform such hazard and risk modelling, particularly were applied to dimension mitigation structures or strategies. FLU_UND_XXy_ZZZ.tif (XX= return time, ZZZ= country initials)

  Reference coordinate system	EPSG:4326
  Spatial Resolution (meters)	90

• Central Asia defended fluvial flood hazard maps - current climate geotiff (Details)
  Fluvial flood hazard maps for the defended case for 5,10,20,50,100,200,500,1,000 years return period. Each pixel represents the maximum water depth. In order to derive the hazard maps over the entire domain, for each return period an hydraulic simulation is performed for each simulation unit domain, feeding the model with the hydrograph corresponding to the given return time. These data have been derived on a regional scale for the purpose of consistent regional multi-country hazard and risk assessment. Application of this information on smaller scales should be done with care. Importantly on a local scale, it is often the case that more detailed history and hazard information is required to perform such hazard and risk modelling, particularly were applied to dimension mitigation structures or strategies., it is often the case that more detailed history and hazard information is required to perform such hazard and risk modelling, particularly were applied to dimension mitigation structures or strategies. FLU_DEF_XXy_ZZZ.tif (XX= return time, ZZZ= country initials)

  Reference coordinate system	EPSG:4326
  Spatial Resolution (meters)	90

• Central Asia undefended fluvial flood hazard maps - 2080 cliamte projections geotiff (Details)
  Fluvial flood hazard maps for the 2080 scenario (climate change) for 5,10,20,50,100,200,500,1,000 years return period. Each pixel represents the maximum water depth. In order to derive the hazard maps over the entire domain, for each return period an hydraulic simulation is performed for each simulation unit domain, feeding the model with the hydrograph corresponding to the given return time. These data have been derived on a regional scale for the purpose of consistent regional multi-country hazard and risk assessment. Application of this information on smaller scales should be done with care. Importantly on a local scale, it is often the case that more detailed history and hazard information is required to perform such hazard and risk modelling, particularly were applied to dimension mitigation structures or strategies., it is often the case that more detailed history and hazard information is required to perform such hazard and risk modelling, particularly were applied to dimension mitigation structures or strategies. FLU_CC_XXy_ZZZ.tif (XX= return time, ZZZ= country initials)

  Reference coordinate system	EPSG:4326
  Spatial Resolution (meters)	90

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