Understanding how precipitation varies as the climate changes is essential to determining the true impact of global warming. This is a difficult task not only due to the large internal variability observed in precipitation but also because of a limited historical record and large biases in simulations of precipitation by general circulation models (GCMs). Here we make use of a technique that spatially and seasonally transforms GCM fields to reduce location biases and investigate the potential of this bias correction to study historical changes. We use two versions of this bias correction - one that conserves intensities and another that conserves integrated precipitation over transformed areas. Focussing on multimodel ensemble means, we fin...
Summarization: An improved bias correction method for daily GCM precipitation is presented. The meth...
Anthropogenic climate change has been a widely studied and often discussed phenomenon within the con...
Regional climate models are prone to biases in precipitation that are problematic for use in impact ...
Understanding how precipitation varies as the climate changes is essential to determining the true i...
There is much evidence that precipitation responses to global warming involve wet regions becoming w...
Changes to the hydrological cycle under global warming are expected to involve both intensification ...
To the extent that deficiencies in GCM simulations of precipitation are due to persistent errors of ...
The ability of general circulation models (GCMs) to correctly simulate precipitation is usually asse...
High-resolution, bias-corrected climate data is necessary for climate impact studies and modeling ef...
Producing reliable estimates of changes in precipitation at local- and regional-scales remains an im...
Despite the emerging influence of anthropogenic climate change on the global water cycle, at regiona...
When correcting for biases in general circulation model (GCM) output, for example when statistically...
This study assesses the detectability of external influences in changes of precipitation extremes in...
Use of General Circulation Model (GCM) precipitation and evapotranspiration sequences for hydrologic...
Observed globally-averaged land precipitation changes over the 20th century are compared with simula...
Summarization: An improved bias correction method for daily GCM precipitation is presented. The meth...
Anthropogenic climate change has been a widely studied and often discussed phenomenon within the con...
Regional climate models are prone to biases in precipitation that are problematic for use in impact ...
Understanding how precipitation varies as the climate changes is essential to determining the true i...
There is much evidence that precipitation responses to global warming involve wet regions becoming w...
Changes to the hydrological cycle under global warming are expected to involve both intensification ...
To the extent that deficiencies in GCM simulations of precipitation are due to persistent errors of ...
The ability of general circulation models (GCMs) to correctly simulate precipitation is usually asse...
High-resolution, bias-corrected climate data is necessary for climate impact studies and modeling ef...
Producing reliable estimates of changes in precipitation at local- and regional-scales remains an im...
Despite the emerging influence of anthropogenic climate change on the global water cycle, at regiona...
When correcting for biases in general circulation model (GCM) output, for example when statistically...
This study assesses the detectability of external influences in changes of precipitation extremes in...
Use of General Circulation Model (GCM) precipitation and evapotranspiration sequences for hydrologic...
Observed globally-averaged land precipitation changes over the 20th century are compared with simula...
Summarization: An improved bias correction method for daily GCM precipitation is presented. The meth...
Anthropogenic climate change has been a widely studied and often discussed phenomenon within the con...
Regional climate models are prone to biases in precipitation that are problematic for use in impact ...