about
P101
Identification of stakeholder perspectives on future flood management in the Rhine basin using Q methodologyFire and flood management of coastal swamp enabled first rice paddy cultivation in east ChinaA Framework for Flood Risk Analysis and Benefit Assessment of Flood Control Measures in Urban Areas.Flood management under climatic variability and its future perspective in Japan.Integrated flood management.Transboundary flood management in the Rhine basin: challenges for improved cooperation.Flood management: prediction of microbial contamination in large-scale floods in urban environments.Consensus Seasonal Flood Forecasts and Warning Response System (FFWRS): an alternate for nonstructural flood management in Bangladesh.Flood control embankments contribute to the improvement of the health status of children in rural Bangladesh.Spatio-temporal clustering of cholera: the impact of flood control in Matlab, Bangladesh, 1983-2003.Phytoremediation as a management option for contaminated sediments in tidal marshes, flood control areas and dredged sediment landfill sites.The management of urban surface water flood risks: SUDS performance in flood reduction from extreme events.River channel network design for drought and flood control: A case study of Xiaoqinghe River basin, Jinan City, China.Water-level fluctuations influence sediment porewater chemistry and methylmercury production in a flood-control reservoir.Rethinking the relationship between flood risk perception and flood management.A survey of larval and adult mosquitoes on the flood plains of Bangladesh, in relation to flood-control activities.Simple mass balance approach for assessment of flood control sumps in an urban watershed: case study of heavy metal loading.Pollutant concentrations of stormwater and captured sediment in flood control sumps draining an urban watershed.Stochastic generation and disaggregation of hourly rainfall series for continuous hydrological modelling and flood control reservoir design.Rehabilitation and flood management planning in a steep, boulder-bedded stream.Multi-objective optimisation of cost-benefit of urban flood management using a 1D2D coupled model.Comprehensive flood control involving citizens in a Japanese watershed.Multireservoir real-time operations for flood control using balanced water level index method.Modeling flood reduction effects of low impact development at a watershed scale.Conflicts and natural disaster management: a comparative study of flood control in the Republic of Korea and the United States.Flood insurance in Canada: implications for flood management and residential vulnerability to flood hazards.Reconciling environmental and flood control goals on an arid-zone river: case study of the limitrophe region of the lower colorado river in the United States and Mexico.Developing a GIS based integrated approach to flood management in Trinidad, West Indies.The economic dimensions of integrating flood management and agri-environment through washland creation: a case from Somerset, England.A framework for evaluation of flood management strategies.Aggregation of fuzzy views of a large number of stakeholders for multi-objective flood management decision-making.Impacts to water quality and fish habitat associated with maintaining natural channels for flood control.Flood control projects in Bangladesh: reasons for failure and recommendations for improvement.Disaster risk: Strengthen China's flood control.Opportunity mapping of natural flood management measures: a case study from the headwaters of the Warwickshire-Avon.Risk-trading in flood management: An economic model.A novel multi-objective electromagnetism-like mechanism algorithm with applications in reservoir flood control operation.Consequences to flood management of using different probability distributions to estimate extreme rainfall.A restatement of the natural science evidence concerning catchment-based 'natural' flood management in the UK.Run Watchers: Automatic Simulation-Based Decision Support in Flood Management.
P921
Q21128911-DA7B6D02-8470-4DC1-982E-F71C6AF6BB41Q28250870-5FF9EA31-EBFC-4673-8DAD-AFB9A52A707FQ30382093-AA6831A4-F86A-4F71-93C4-3F63705A85D4Q30990693-03DB312E-8132-40A5-9970-C43F6D7F2196Q31127491-1FD8F9B1-A5F1-4938-B399-7D2ADA1AF584Q31127524-8178AF7A-2809-4B8B-8CA7-BDC50D185199Q33868431-46EEC3AA-F6B2-4822-B1B5-AF4B80F7308FQ36154316-CFD6BB7F-C453-4D43-997F-9287A27698C7Q36795552-67D4C61D-616E-4E8D-A473-1FF2729C1892Q37465564-3FFBD3E3-EAFA-4984-BCAC-DA2C58550E70Q37522027-0C256439-05CD-414C-AAF9-3F999CE2BBF1Q38412776-81B59A13-0438-4E38-8D91-9AC880A6BDCBQ38957497-AE982562-C6E9-4BA0-A642-900E2C4E9F90Q39011575-547537D8-2677-448F-B9B3-A8D1A7BAD9FFQ39262154-EEE28FC1-9D51-490C-A947-566D3AB0EF2BQ39393313-9E5C7C9D-8BF0-45BD-AFFF-384EDDCFC57AQ39568823-4CF90854-0020-43BA-9ACB-5D31291B9A5BQ39575465-EA982E05-ECAF-43EE-9725-30815BE1B3D0Q39596245-1AFED1CF-6424-4797-9E34-AEE6B616B7D4Q39802945-01D676A1-9E41-4A95-932E-6AF9A9A3F62BQ39975382-C4391D48-8880-471E-9BE1-2BB23DCB9906Q40133723-EAB3A0D4-9FA7-4E07-B25E-078617B3B952Q40166226-58C03E9E-73CD-4FE4-8676-20549672DCD7Q40352703-8EA7EDE4-1C21-4B86-909C-0AD791A76771Q41950576-F0BD46B9-F661-416F-8EC6-33439301FC86Q41957671-1D27ED04-DD89-4AF7-8D2F-059305D3522FQ42005683-3D1FA5D5-6B71-4A67-B0DC-C9E1CC0A39BAQ42008395-BDED701E-5877-4C19-B0A1-43262CE0064CQ42010449-16A36414-371B-4533-9FDB-CFD64624733FQ42012090-5334414C-8B2C-4147-9F23-C2BEC67ACFA5Q42023871-A1E79388-B866-4AF7-BA82-6BBB4AA98FF8Q42033873-43D344FB-4EB2-4A65-BD6B-F3D0378E6032Q42061063-463BA012-7C80-4A62-8E2E-44E0082230BDQ44568486-DC724881-B73E-4CE7-BCD6-D7B7B9D88F05Q46259781-86FFC70F-B527-45AC-8019-E3422791B67AQ50862784-5373E3DE-CA8C-4C17-B80B-03166348906CQ51101073-76264CEA-FF6F-4A24-8CB1-5F7971CF3471Q51201232-6F9E9A7D-F357-455B-9C9D-6F94F456F7D7Q51215163-F9C9481C-C8D0-4D91-9922-7064CE3C39BEQ51577185-7CD0718E-42C4-4BC8-81EA-A02735854361
P921
description
discipline of dealing with and avoiding floods
@en
name
flood management
@en
mastrumado de inundo
@eo
type
label
flood management
@en
mastrumado de inundo
@eo
prefLabel
flood management
@en
mastrumado de inundo
@eo