Description: This layer displays the modelled flood extent and peak floodwater depth (m) for the Buckler Burn associated with flood event Scenario 1, as per the ‘Buckler Burn flood hazard modelling’ report carried out by Land River Sea Consulting Ltd for ORC in 2023.Scenario 1: 100 cumecs flow (2022 river bed topography)
Description: This layer displays the modelled flood extent and peak floodwater speed (velocity m/s)) for the Buckler Burn associated with flood event Scenario 1, as per the ‘Buckler Burn flood hazard modelling’ report carried out by Land River Sea Consulting Ltd for ORC in 2023.Scenario 1: 100 cumecs flow (2022 river bed topography)
Description: This layer displays the modelled flood extent and peak floodwater depth (m) for the Buckler Burn associated with flood event Scenario 2, as per the ‘Buckler Burn flood hazard modelling’ report carried out by Land River Sea Consulting Ltd for ORC in 2023.Scenario 2: 200 cumecs flow (2022 river bed topography)
Description: This layer displays the modelled flood extent and peak floodwater depth (m) for the Buckler Burn associated with flood event Scenario 3, as per the ‘Buckler Burn flood hazard modelling’ report carried out by Land River Sea Consulting Ltd for ORC in 2023.Scenario 3: 300 cumecs flow (2022 river bed topography)
Description: This layer displays the modelled flood extent and peak floodwater speed (velocity m/s)) for the Buckler Burn associated with flood event Scenario 3, as per the ‘Buckler Burn flood hazard modelling’ report carried out by Land River Sea Consulting Ltd for ORC in 2023.Scenario 3: 300 cumecs flow (2022 river bed topography)
Description: This layer displays the modelled flood extent and peak floodwater depth (m) for the Buckler Burn associated with flood event Scenario 4, as per the ‘Buckler Burn flood hazard modelling’ report carried out by Land River Sea Consulting Ltd for ORC in 2023.Scenario 4: 200 cumecs flow (2022 river bed topography) + 1m aggradation on the middle-upper alluvial fan surface
Description: This layer displays the modelled flood extent and peak floodwater speed (velocity m3/s)) for the Buckler Burn associated with flood event Scenario 4, as per the ‘Buckler Burn flood hazard modelling’ report carried out by Land River Sea Consulting Ltd for ORC in 2023.Scenario 4: 200 cumecs flow (2022 river bed topography) +1m aggradation on the middle-upper alluvial fan surface.
Description: This layer displays the modelled flood extent and peak floodwater depth (m) for the Buckler Burn associated with flood event Scenario 5, as per the ‘Buckler Burn flood hazard modelling’ report carried out by Land River Sea Consulting Ltd for ORC in 2023.Scenario 5: 200 cumecs flow (2022 river bed topography) + 2m aggradation on the middle-upper alluvial fan surface
Description: This layer displays the modelled flood extent and peak floodwater speed (velocity m3/s) for the Buckler Burn associated with flood event Scenario 5, as per the ‘Buckler Burn flood hazard modelling’ report carried out by Land River Sea Consulting Ltd for ORC in 2023.Scenario 5: 200 cumecs flow (2022 river bed topography) +2 m aggradation on the middle-upper alluvial fan surface.
Description: This layer displays the modelled flood extent and peak floodwater depth (m) for the Buckler Burn associated with flood event Scenario 6, as per the ‘Buckler Burn flood hazard modelling’ report carried out by Land River Sea Consulting Ltd for ORC in 2023.Scenario 6: 200 cumecs flow (2022 river bed topography) + 3m aggradation on the middle-upper alluvial fan surface
Description: This layer displays the modelled flood extent and peak floodwater speed (velocity m3/s) for the Buckler Burn associated with flood event Scenario 6, as per the ‘Buckler Burn flood hazard modelling’ report carried out by Land River Sea Consulting Ltd for ORC in 2023.Scenario 6: 200 cumecs flow (2022 river bed topography) +3 m aggradation on the middle-upper alluvial fan surface.