This study develops a coherent framework to detect those catchment types associated with a high risk of maladaptation to future flood risk. Using the “scenario‐neutral” approach to impact assessment the sensitivity of Irish catchments to fluvial flooding is examined in the context of national climate change allowances. A predefined sensitivity domain is used to quantify flood responses to +2 °C meanannualtemperaturewithincrementalchangesintheseasonalityandmeanoftheannualprecipitation cycle. The magnitude of the 20‐year flood is simulated at each increment using two rainfall‐runoff models (GR4J, NAM), then concatenated as response surfaces for 35 sample catchments. A typology of catchment sensitivityisdevelopedusingclusteringanddiscriminantanalysi...
This study attempts to assess the uncertainty in the hydrological impacts of climate change using a ...
Conceptual Rainfall Runoff (CRR) models forced with regional climate change scenarios downscaled fr...
Anticipatory adaptation to climate change in the water resources sector is essential to reduce or av...
This study develops a coherent framework to detect those catchment types associated with a high risk...
This study develops a coherent framework to detect those catchment types associated with a high ris...
This study develops a coherent framework to detect those catchment types associated with ahigh risk ...
In the face of increased flood risk responsible authorities have set out safety margins to incorpora...
The study presents a novel framework for undertaking climate change impact studies, which can be use...
This paper presents a novel framework for undertaking climate change impact studies, which can be us...
This paper analyses the likely impacts of changes in climate for nine hydrologically diverse catchme...
In accounting for uncertainties in future simulations of hydrological response of a catchment, two a...
This paper analyses the likely impacts of changes in climate for nine hydrologically diverse catchme...
Project FD2020 ‘Regionalised impacts of climate change on flood flows’ provided a methodological fra...
Project FD2020 ‘Regionalised impacts of climate change on flood flows’ provided a methodological fra...
This study attempts to assess the uncertainty in the hydrological impacts of climate change using a ...
Conceptual Rainfall Runoff (CRR) models forced with regional climate change scenarios downscaled fr...
Anticipatory adaptation to climate change in the water resources sector is essential to reduce or av...
This study develops a coherent framework to detect those catchment types associated with a high risk...
This study develops a coherent framework to detect those catchment types associated with a high ris...
This study develops a coherent framework to detect those catchment types associated with ahigh risk ...
In the face of increased flood risk responsible authorities have set out safety margins to incorpora...
The study presents a novel framework for undertaking climate change impact studies, which can be use...
This paper presents a novel framework for undertaking climate change impact studies, which can be us...
This paper analyses the likely impacts of changes in climate for nine hydrologically diverse catchme...
In accounting for uncertainties in future simulations of hydrological response of a catchment, two a...
This paper analyses the likely impacts of changes in climate for nine hydrologically diverse catchme...
Project FD2020 ‘Regionalised impacts of climate change on flood flows’ provided a methodological fra...
Project FD2020 ‘Regionalised impacts of climate change on flood flows’ provided a methodological fra...
This study attempts to assess the uncertainty in the hydrological impacts of climate change using a ...
Conceptual Rainfall Runoff (CRR) models forced with regional climate change scenarios downscaled fr...
Anticipatory adaptation to climate change in the water resources sector is essential to reduce or av...