The impact of both spatial and temporal resolution on the components of the terrestrial hydrological cycle are investigated using the WATCH forcing dataset (WFD) and the JULES (Joint UK Land Environment Simulator) land surface model. The various spatial resolutions are achieved by degrading the native half degree latitude/longitude resolution WATCH dataset to both one degree and two degrees. The temporal resolutions are created by degrading the native three hourly WATCH forcing dataset to six hourly and using the WATCH interpolator to derive a one hour forcing dataset. There is little difference in the moisture stores of soil water and canopy water in the long term mean from the various resolutions, so the analysis presented is for the chan...
Changing climate poses an unprecedented challenge for hydrology. The quantification of knowledge on ...
In this study, I built multiple hydrologic models for upper Irrawaddy basin to assess the impact of ...
Abstract. Projecting the spatio-temporal changes to water resources under a no-analog future climate...
The impact of both spatial and temporal resolution on the components of the terrestrial hydrological...
Projecting the spatiotemporal changes in water resources under a no-analog future climate requires p...
Potential impacts of climate change on the hydrological components of the Goodwater Creek Experiment...
Large-scale models are often applied to study past drought (forced with global reanalysis datasets) ...
Summarization: Three Global Climate Models (GCMs) output (precipitation and temperature), bias corre...
Representative precipitation data sets are very difficult to obtain due to the inherent spatial and ...
SummaryDrought severity and related socio-economic impacts are expected to increase due to climate c...
Drought severity and related socio-economic impacts are expected to increase due to climate change. ...
This research evaluated the performance of Land Surface Models (LSMs) in simulating droughts, examin...
Increasing concentrations of greenhouse gases in the atmosphere are expected to modify the global wa...
Changing climate poses an unprecedented challenge for hydrology. The quantification of knowledge on ...
In this study, I built multiple hydrologic models for upper Irrawaddy basin to assess the impact of ...
Abstract. Projecting the spatio-temporal changes to water resources under a no-analog future climate...
The impact of both spatial and temporal resolution on the components of the terrestrial hydrological...
Projecting the spatiotemporal changes in water resources under a no-analog future climate requires p...
Potential impacts of climate change on the hydrological components of the Goodwater Creek Experiment...
Large-scale models are often applied to study past drought (forced with global reanalysis datasets) ...
Summarization: Three Global Climate Models (GCMs) output (precipitation and temperature), bias corre...
Representative precipitation data sets are very difficult to obtain due to the inherent spatial and ...
SummaryDrought severity and related socio-economic impacts are expected to increase due to climate c...
Drought severity and related socio-economic impacts are expected to increase due to climate change. ...
This research evaluated the performance of Land Surface Models (LSMs) in simulating droughts, examin...
Increasing concentrations of greenhouse gases in the atmosphere are expected to modify the global wa...
Changing climate poses an unprecedented challenge for hydrology. The quantification of knowledge on ...
In this study, I built multiple hydrologic models for upper Irrawaddy basin to assess the impact of ...
Abstract. Projecting the spatio-temporal changes to water resources under a no-analog future climate...