This study will focus on two questions: (1) how will anthropogenically driven climate change affect California’s climate, especially the hydrologic resources, in the coming decades?; and (2) what water resources will be available in the future, and at what times during the year (e.g., seasonality and amounts of rain and snow)? We apply global and regional climate models to a domain centered upon California to answer these questions. We will use a 40-km (gridpoint) resolution regional climate model (RCM) in order to capture the topographic complexity of the state, and the climate associated with that complexity. This model has been demonstrated to represent well the observed present climate of California. We will specify atmospheric greenhou...
The current work focuses on assessing the impacts of future climate variability on water resources i...
Future climate conditions will likely not resemble historic conditions, creating long-term planning ...
This study focuses on the differential hydrologic response of individual watersheds to climate warmi...
Possible future climate changes in California are investigated from a varied set of climate change m...
This study investigated potential changes in future precipitation, temperature, and drought across 1...
Abstract To investigate possible future climate changes in California, a set of climate change scena...
Understanding 21st century changes in California surface hydrology is critical to ensuring enough fr...
This project implemented the initial phase of California-2100 (Cal21), which is aimed at making and ...
To investigate possible future climate changes in California, a set of climate change model simulati...
"Spatially disaggregated estimates of over 131 streamflow, ground water, and reservoir evaporation m...
In this study a regional climate model is employed to expand on modeling experiments of future clima...
ABSTRACT: Regional climate models (RCMs) have improved our under-standing of the effects of global c...
Possible future climate changes in California are investigated from a varied set of climate change m...
Climate model simulations were used to investigate possible changes in regional climate over Califor...
The ability of California's water supply system to adapt to long-term climatic and demographic chang...
The current work focuses on assessing the impacts of future climate variability on water resources i...
Future climate conditions will likely not resemble historic conditions, creating long-term planning ...
This study focuses on the differential hydrologic response of individual watersheds to climate warmi...
Possible future climate changes in California are investigated from a varied set of climate change m...
This study investigated potential changes in future precipitation, temperature, and drought across 1...
Abstract To investigate possible future climate changes in California, a set of climate change scena...
Understanding 21st century changes in California surface hydrology is critical to ensuring enough fr...
This project implemented the initial phase of California-2100 (Cal21), which is aimed at making and ...
To investigate possible future climate changes in California, a set of climate change model simulati...
"Spatially disaggregated estimates of over 131 streamflow, ground water, and reservoir evaporation m...
In this study a regional climate model is employed to expand on modeling experiments of future clima...
ABSTRACT: Regional climate models (RCMs) have improved our under-standing of the effects of global c...
Possible future climate changes in California are investigated from a varied set of climate change m...
Climate model simulations were used to investigate possible changes in regional climate over Califor...
The ability of California's water supply system to adapt to long-term climatic and demographic chang...
The current work focuses on assessing the impacts of future climate variability on water resources i...
Future climate conditions will likely not resemble historic conditions, creating long-term planning ...
This study focuses on the differential hydrologic response of individual watersheds to climate warmi...