Anticipatory adaptation to climate change in the water resources sector is essential to reduce or avoid expected impacts on water resources availability and management. Anticipating how water systems are likely to respond to a changing climate is a challenging task, due to the difficulties in detecting clear signals of anthropogenic climate change from hydrological observations, along with uncertainties in future climate change impacts. To date in Ireland, studies with regard to climate change have focused on the traditional top-down, climate-scenario-driven impact assessments. Little research has gone beyond this traditional approach and examined how uncertain information on the future resource availability and on the vulnerability of wate...
Some of the most profound impacts of climate variability and change are expected in the water sector...
Conceptual Rainfall Runoff (CRR) models forced with regional climate change scenarios downscaled fr...
We assess changes in the seasonal mean and annual low flows (Q95) for 37 catchments across the Repu...
Anticipatory adaptation to climate change in the water resources sector is essential to reduce or av...
This research aims to develop a framework to assist the identification of robust adaptation options ...
This paper analyses the likely impacts of changes in climate for nine hydrologically diverse catchme...
This paper analyses the likely impacts of changes in climate for nine hydrologically diverse catchme...
Climate is one of many external drivers which have the potential to significantly influence water su...
An application of the Water Evaluation and Planning tool Version 21 (WEAP21) is developed to analyse...
Climate change is likely to impact water quality, resource availability and riverine ecosystems. Whi...
Although Ireland is relatively well endowed with water resources, regional shortages can occur at c...
Simulations of future climate change impacts are highly uncertain, particularly for catchment hydrol...
Simulations of future climate change impacts are highly uncertain, particularly for catchment hydrol...
The provision of downscaled global circulation output is the first stage in assessing the implicati...
Climate change is expected to alter catchment hydrology through changes in extremes of flooding an...
Some of the most profound impacts of climate variability and change are expected in the water sector...
Conceptual Rainfall Runoff (CRR) models forced with regional climate change scenarios downscaled fr...
We assess changes in the seasonal mean and annual low flows (Q95) for 37 catchments across the Repu...
Anticipatory adaptation to climate change in the water resources sector is essential to reduce or av...
This research aims to develop a framework to assist the identification of robust adaptation options ...
This paper analyses the likely impacts of changes in climate for nine hydrologically diverse catchme...
This paper analyses the likely impacts of changes in climate for nine hydrologically diverse catchme...
Climate is one of many external drivers which have the potential to significantly influence water su...
An application of the Water Evaluation and Planning tool Version 21 (WEAP21) is developed to analyse...
Climate change is likely to impact water quality, resource availability and riverine ecosystems. Whi...
Although Ireland is relatively well endowed with water resources, regional shortages can occur at c...
Simulations of future climate change impacts are highly uncertain, particularly for catchment hydrol...
Simulations of future climate change impacts are highly uncertain, particularly for catchment hydrol...
The provision of downscaled global circulation output is the first stage in assessing the implicati...
Climate change is expected to alter catchment hydrology through changes in extremes of flooding an...
Some of the most profound impacts of climate variability and change are expected in the water sector...
Conceptual Rainfall Runoff (CRR) models forced with regional climate change scenarios downscaled fr...
We assess changes in the seasonal mean and annual low flows (Q95) for 37 catchments across the Repu...