Author(s)

Sohom Mandal^*, Patrick A. Breach, Slobodan P. Simonovic

Facility for Intelligent Decision Support, Department of Civil and Environmental Engineering, Western University, London, ON, Canada.

This study investigates different sources of uncertainty in the assessment of the climate change impacts on total monthly precipitation in the Campbell River basin, British Columbia, Canada. Four global climate models (GCMs), three greenhouse gas emission scenarios (RCPs) and six downscaling methods (DSMs) are used in the assessment. These sources of uncertainty are analyzed separately for two future time periods (2036 to 2065 and 2066 to 2095). An uncertainty metric is calculated based on the variation in simulated precipitation due to choice of GCMs, emission scenarios and downscaling models. The results show that the selection of a downscaling method provides the largest amount of uncertainty when compared to the choice of GCM and/or emission scenario. However, the choice of GCM provides a significant amount of uncertainty if downscaling methods are not considered. This assessment work is conducted at ten different locations in the Campbell River basin.

Climate Change, Downscaling, Multivariate Regression, Uncertainty

Mandal, S. , Breach, P. and Simonovic, S. (2016) Uncertainty in Precipitation Projection under Changing Climate Conditions: A Regional Case Study. American Journal of Climate Change, 5, 116-132. doi: 10.4236/ajcc.2016.51012.