FL-WP2-SPL-0005

The geographical location of Afghanistan and years of environmental degradation in the country make Afghanistan highly prone to intense and recurring natural hazards such as flooding, earthquakes, snow avalanches, landslides, and droughts. These occur in addition to man-made disasters resulting in the frequent loss of live, livelihoods, and property. The creation, understanding and accessibility of hazard, exposure, vulnerability and risk information is key for effective management of disaster risk. Assuring the resilience of new reconstruction efforts to natural hazards, and maximizing the effectiveness of risk reduction investments to reduce existing risks is important to secure lives and livelihoods. So far, there has been limited disaster risk information produced in Afghanistan, and information that does exist typically lacks standard methodology and does not have uniform geo-spatial coverage. To better understand natural hazard and disaster risk, the World Bank and Global Facility for Disaster Reduction and Recovery (GFDRR) are supporting the development of new fluvial flood, flash flood, drought, landslide, avalanche and seismic risk information in Afghanistan, as well as a first-order analysis of the costs and benefits of resilient reconstruction and risk reduction strategies. For fluvial flood risk a flood modeling framework is being developed that consists of three components: • Hydrological analysis which models how much precipitation comes to runoff. The hydrological analysis is used as a back-bone to compute flow and flooding through the full catchment area during selected events as well as selected return periods. The hydrological simulations also form the backbone of the drought risk assessments (work package 3). • Hydrodynamic analysis, to translate runoff into river flow and inundation and flow over floodplain areas. • Flood impact analysis for calculating the impacts of a flood applied to flood prone areas with high damage potential.

Data and Resources

Field Value
access_constraints ["Not Specified: The original author did not specify a license."]
bbox-east-long 80.4590174247644
bbox-north-lat 39.78117401698893
bbox-south-lat 24.46326408636066
bbox-west-long 54.09070135295979
contact-email labs.gfdrr@gmail.com
coupled-resource []
dataset-reference-date [{"type": "creation", "value": "2017-02-20T14:47:00Z"}]
frequency-of-update notPlanned
graphic-preview-description Thumbnail for 'FL-WP2-SPL-0005'
graphic-preview-file https://www.geonode-gfdrrlab.org/uploaded/thumbs/layer-7f5ed352-f77b-11e6-ad5c-040146164b01-thumb.png?v=388edee2
graphic-preview-type image/png
guid 7f5ed352-f77b-11e6-ad5c-040146164b01
licence []
metadata-date 2020-04-21T16:36:59Z
progress completed
resource-type dataset
responsible-party [{"name": "GFDRR", "roles": ["originator"]}]
spatial {"type": "Polygon", "coordinates": [[[54.090701353, 24.4632640864], [80.4590174248, 24.4632640864], [80.4590174248, 39.781174017], [54.090701353, 39.781174017], [54.090701353, 24.4632640864]]]}
spatial-reference-system 4326
spatial_harvester true
Tags
  • afghanistan
  • amerigeo
  • amerigeoss
  • disaster
  • drr
  • geo
  • geonode
  • geospatial
  • geoss
  • gfdrr
  • gfdrrlab
  • gis
  • global
  • river-flood
isopen False
metadata_created 2025-11-24T16:23:48.428229
metadata_modified 2025-11-24T16:23:48.428233
notes The geographical location of Afghanistan and years of environmental degradation in the country make Afghanistan highly prone to intense and recurring natural hazards such as flooding, earthquakes, snow avalanches, landslides, and droughts. These occur in addition to man-made disasters resulting in the frequent loss of live, livelihoods, and property. The creation, understanding and accessibility of hazard, exposure, vulnerability and risk information is key for effective management of disaster risk. Assuring the resilience of new reconstruction efforts to natural hazards, and maximizing the effectiveness of risk reduction investments to reduce existing risks is important to secure lives and livelihoods. So far, there has been limited disaster risk information produced in Afghanistan, and information that does exist typically lacks standard methodology and does not have uniform geo-spatial coverage. To better understand natural hazard and disaster risk, the World Bank and Global Facility for Disaster Reduction and Recovery (GFDRR) are supporting the development of new fluvial flood, flash flood, drought, landslide, avalanche and seismic risk information in Afghanistan, as well as a first-order analysis of the costs and benefits of resilient reconstruction and risk reduction strategies. For fluvial flood risk a flood modeling framework is being developed that consists of three components: • Hydrological analysis which models how much precipitation comes to runoff. The hydrological analysis is used as a back-bone to compute flow and flooding through the full catchment area during selected events as well as selected return periods. The hydrological simulations also form the backbone of the drought risk assessments (work package 3). • Hydrodynamic analysis, to translate runoff into river flow and inundation and flow over floodplain areas. • Flood impact analysis for calculating the impacts of a flood applied to flood prone areas with high damage potential.
num_resources 13
num_tags 14
title FL-WP2-SPL-0005