The Arctic climate system is warming faster than in any other part of the world due to anthropogenic processes. Products of a warming climate, such as thawing permafrost, flooding, and increases in precipitation can have a negative impact on the Arctic region. In this study, we compared contemporary and future climates over Alaska using six Global Climate Models (GCMs) from the Coupled Model Intercomparison Project (CMIP5) in order to analyze the evolution of physical processes that produce widespread extreme precipitation events in December, January, and February (DJF). We defined a widespread extreme precipitation event as those at or above the 99.9th percentile of all events and covering 11 or more 1o x 1o grid boxes simultaneously. We c...
The Arctic region is projected to experience amplified warming as well as strongly increasing precip...
The large-scale atmospheric state associated with widespread wintertime warm and cold extremes in so...
ARCTIC DAILY TEMPERATURE AND PRECIPITATION EXTREMES: OBSERVED AND SIMULATED PHYSICAL BEHAVIOR Justin...
The Arctic climate system is warming faster than in any other part of the world due to anthropogenic...
We analyze physical processes leading to daily wintertime (December, January, and February) extreme ...
We analyze daily precipitation extremes from simulations of a polar-optimized version of the Weather...
We analyze daily extremes of precipitation produced by a six-member ensemble of Pan-Arctic Weather R...
AbstractFuture changes in precipitation intensity over the Arctic were calculated based on three-mem...
As the Arctic continues to warm faster than the rest of the planet, evidence mounts that the region...
Future precipitation changes in a warming climate depend regionally upon the response of natural cli...
Decadal mean temperatures show a warming over the past 60 years at individual stations in Alaska. T...
We analyze daily precipitation extremes produced by a six-member ensemble of the Pan-Arctic Weather ...
Arctic precipitation is projected to increase more rapidly than the global mean in warming climates....
Arctic precipitation is projected to increase more rapidly than the global mean in warming climates....
The Arctic region is projected to experience amplified warming as well as strongly increasing precip...
The Arctic region is projected to experience amplified warming as well as strongly increasing precip...
The large-scale atmospheric state associated with widespread wintertime warm and cold extremes in so...
ARCTIC DAILY TEMPERATURE AND PRECIPITATION EXTREMES: OBSERVED AND SIMULATED PHYSICAL BEHAVIOR Justin...
The Arctic climate system is warming faster than in any other part of the world due to anthropogenic...
We analyze physical processes leading to daily wintertime (December, January, and February) extreme ...
We analyze daily precipitation extremes from simulations of a polar-optimized version of the Weather...
We analyze daily extremes of precipitation produced by a six-member ensemble of Pan-Arctic Weather R...
AbstractFuture changes in precipitation intensity over the Arctic were calculated based on three-mem...
As the Arctic continues to warm faster than the rest of the planet, evidence mounts that the region...
Future precipitation changes in a warming climate depend regionally upon the response of natural cli...
Decadal mean temperatures show a warming over the past 60 years at individual stations in Alaska. T...
We analyze daily precipitation extremes produced by a six-member ensemble of the Pan-Arctic Weather ...
Arctic precipitation is projected to increase more rapidly than the global mean in warming climates....
Arctic precipitation is projected to increase more rapidly than the global mean in warming climates....
The Arctic region is projected to experience amplified warming as well as strongly increasing precip...
The Arctic region is projected to experience amplified warming as well as strongly increasing precip...
The large-scale atmospheric state associated with widespread wintertime warm and cold extremes in so...
ARCTIC DAILY TEMPERATURE AND PRECIPITATION EXTREMES: OBSERVED AND SIMULATED PHYSICAL BEHAVIOR Justin...