Anthropogenic climate change has been a widely studied and often discussed phenomenon within the context of global mean temperature. However, changes in precipitation have not been rigorously observed or formally attributed to human influence. Changes in precipitation due to global warming can vary quite a bit on a local and regional level and thus can be very complicated to study. This study chose the National Centers for Environmental Prediction and National Center for Atmospheric Research’s Reanalysis II model generated dataset and the Climate Prediction Center’s Merged Analysis of Precipitation observational dataset to study precipitation across the globe. Both datasets are spatially and temporally complete over the period of 1979 - 200...
A growing field of research aims to characterise the contribution of anthropogenic emissions to the ...
Changes in the characteristics of daily precipitation in response to global warming may have serious...
Knowledge about long-term changes in climate extremes is vital to better understand multidecadal cli...
Global warming is expected to change the regime of extreme precipitation. Physical laws translate in...
Changes in climate extremes are often monitored using global gridded datasets of climate extremes ba...
Precipitation events are expected to become substantially more intense under global warming, but few...
Climate models suggest that extreme precipitation events will become more common in an anthr...
This study investigates the presence of trends in annual maximum daily precipitation time series obt...
Abstract. While the specific humidity of the atmosphere is expected to increase as the climate warms...
Trends in precipitation are critical to water resources. Considerable uncertainty remains concerning...
A suite of climate change indices derived from daily temperature and precipitation data, with a prim...
While the IPCC Fifth Assessment Working Group I report assessed observed changes in extreme precipit...
Precipitation extremes are expected to increase in a warming climate, thus it is essential to charac...
© 2015 Dr. Andrea Jennifer DittusUnderstanding how climate extremes have changed in the recent past ...
We analyze the past (1900–2015) temperature and precipitation changes in nine separate US climate re...
A growing field of research aims to characterise the contribution of anthropogenic emissions to the ...
Changes in the characteristics of daily precipitation in response to global warming may have serious...
Knowledge about long-term changes in climate extremes is vital to better understand multidecadal cli...
Global warming is expected to change the regime of extreme precipitation. Physical laws translate in...
Changes in climate extremes are often monitored using global gridded datasets of climate extremes ba...
Precipitation events are expected to become substantially more intense under global warming, but few...
Climate models suggest that extreme precipitation events will become more common in an anthr...
This study investigates the presence of trends in annual maximum daily precipitation time series obt...
Abstract. While the specific humidity of the atmosphere is expected to increase as the climate warms...
Trends in precipitation are critical to water resources. Considerable uncertainty remains concerning...
A suite of climate change indices derived from daily temperature and precipitation data, with a prim...
While the IPCC Fifth Assessment Working Group I report assessed observed changes in extreme precipit...
Precipitation extremes are expected to increase in a warming climate, thus it is essential to charac...
© 2015 Dr. Andrea Jennifer DittusUnderstanding how climate extremes have changed in the recent past ...
We analyze the past (1900–2015) temperature and precipitation changes in nine separate US climate re...
A growing field of research aims to characterise the contribution of anthropogenic emissions to the ...
Changes in the characteristics of daily precipitation in response to global warming may have serious...
Knowledge about long-term changes in climate extremes is vital to better understand multidecadal cli...