H13I-1705
Past and future hydro-climatic change and the 2015 drought in the interior of western Canada

Monday, 14 December 2015
Poster Hall (Moscone South)
Chris M DeBeer1, Howard S. Wheater2, John W Pomeroy3, Ronald E Stewart4, Kit Szeto5, Julian Brimelow6, Kwok Pan Chun1, Mohammad Badrul Masud1 and Barrie R Bonsal7, (1)University of Saskatchewan, Saskatoon, SK, Canada, (2)University of Saskatchewan, Global Institute for Water Security, Saskatoon, SK, Canada, (3)University of Saskatchewan, Centre for Hydrology, Saskatoon, SK, Canada, (4)University of Manitoba, Winnipeg, MB, Canada, (5)Environment Canada, Downsview, ON, Canada, (6)Environment Canada Edmonton, Edmonton, AB, Canada, (7)Environment Canada Saskatoon, Saskatoon, SK, Canada
Abstract:
The interior of western Canada has experienced rapid and severe hydro-climatic change in recent decades. This is projected to continue in future. Since 1950, mean annual air temperature has increased by 2 °C (4 °C increase in winter daily means) with associated changes in cryospheric regime. Changes in precipitation have varied regionally; in the Prairies there has been a decrease in winter precipitation, shift from snowfall to rainfall, and increased clustering of summer rainfall events into multiple day storms. Regionally, river discharge indicates an earlier spring freshet and increased incidence of rain-on-snow peak flow events, but otherwise mixed responses due to multiple process interactions. In winter/spring 2015, persistent anomalous ridging conditions developed over western North America causing widespread drought. This produced abnormally warm and dry conditions over the Rocky Mountain headwaters of the Mackenzie and Saskatchewan Rivers, resulting in low spring snowpacks that melted earlier than normal and were followed by an atypical lack of spring rainfall. By summer 2015, most of western Canada was subject to extreme drought conditions leading to record dry soil moisture conditions in parts of the Prairies during a key crop growth time, streamflows that were greatly diminished, and extensive wildfires across the Boreal Forest. The importance of the warmer winter to this drought and the contextual trend for increasing winter warmth provide new insight into the impact of climate warming on droughts in cold regions. This talk will discuss efforts by the Changing Cold Regions Network (CCRN; www.ccrnetwork.ca) to understand and diagnose the 2015 drought, its potential linkages with the concurrent California drought and other continental events, and its relevance in the context of historical and predicted future climate change.