Scenario studies were carried out to predict the effects of doubled carbon dioxide levels, a 1 °C temperature increase and a 1.2 m sea level rise on seepage, groundwater and crop production. Climatic change was simulated, showing increased precipitation. Simulation of effects of sea level rise on groundwater flow and salt transport showed changes in seepage to be negligible. Simulated crop growth was increased significantly by temperature and carbon dioxide increases, without increased demand for irrigation
The objectives of this study were to assess the climate change impacts on sea-level rise (SLR) and f...
Abstract Coastal settlements are experiencing the effects of climate change‐induced sea‐level rise, ...
The effects of sea-level rise on the depth to the fresh water/salt water interface were simulated by...
Scenario studies were carried out to predict the effects of doubled carbon dioxide levels, a 1 °C te...
The effect of a sea level rise of 1.2 m in one hundred years on the intensity and salinity of seepag...
Climate change in combination with increased anthropogenic activities will affect coastal groundwate...
Hydrogeological research in coastal areas has gained considerable attention over the last decades du...
Global climate change is expected to have negative effects on water resources as a result of increas...
Coastal plains are in the frontline of climate change. Predicted increase in recharge and sea level ...
This study investigates the effect of climate change on a groundwater-influenced ecosystem on a hill...
Coastal plains are in the frontline of climate change. Predicted increase in recharge and sea level ...
This paper presents research aimed at the investigation of the impacts of sea-level rise and climate...
Salinization is a well‐known problem in agricultural areas worldwide. In the last 20–30 yr, rising s...
The coupled SWAP–WOFOST model was used to study the effects of increasing salinity of groundwater, d...
The extent to which climate change will affect evapotranspiration and water deficits is still uncert...
The objectives of this study were to assess the climate change impacts on sea-level rise (SLR) and f...
Abstract Coastal settlements are experiencing the effects of climate change‐induced sea‐level rise, ...
The effects of sea-level rise on the depth to the fresh water/salt water interface were simulated by...
Scenario studies were carried out to predict the effects of doubled carbon dioxide levels, a 1 °C te...
The effect of a sea level rise of 1.2 m in one hundred years on the intensity and salinity of seepag...
Climate change in combination with increased anthropogenic activities will affect coastal groundwate...
Hydrogeological research in coastal areas has gained considerable attention over the last decades du...
Global climate change is expected to have negative effects on water resources as a result of increas...
Coastal plains are in the frontline of climate change. Predicted increase in recharge and sea level ...
This study investigates the effect of climate change on a groundwater-influenced ecosystem on a hill...
Coastal plains are in the frontline of climate change. Predicted increase in recharge and sea level ...
This paper presents research aimed at the investigation of the impacts of sea-level rise and climate...
Salinization is a well‐known problem in agricultural areas worldwide. In the last 20–30 yr, rising s...
The coupled SWAP–WOFOST model was used to study the effects of increasing salinity of groundwater, d...
The extent to which climate change will affect evapotranspiration and water deficits is still uncert...
The objectives of this study were to assess the climate change impacts on sea-level rise (SLR) and f...
Abstract Coastal settlements are experiencing the effects of climate change‐induced sea‐level rise, ...
The effects of sea-level rise on the depth to the fresh water/salt water interface were simulated by...