Abstract
A high resolution regional climate model (RCM) is used to simulate climate of the recent past and to project future climate change across the northeastern US. Different types of uncertainties in climate simulations are examined by driving the RCM with different boundary data, applying different emissions scenarios, and running an ensemble of simulations with different initial conditions. Empirical orthogonal functions analysis and K-means clustering analysis are applied to divide the northeastern US region into four climatologically different zones based on the surface air temperature (SAT) and precipitation variability. The RCM simulations tend to overestimate SAT, especially over the northern part of the domain in winter and over the western part in summer. Statistically significant increases in seasonal SAT under both higher and lower emissions scenarios over the whole RCM domain suggest the robustness of future warming. Most parts of the northeastern US region will experience increasing winter precipitation and decreasing summer precipitation, though the changes are not statistically significant. The greater magnitude of the projected temperature increase by the end of the twenty-first century under the higher emissions scenario emphasizes the essential role of emissions choices in determining the potential future climate change.
Highlights
Global and regional climates are changing with the accelerating consumption of fossil fuel, and the profound impacts of climate change on humans and the natural environment have already been experienced across the northeastern US
While statistical downscaling estimates the corresponding regional characteristics based on the established statistical relationships between the large-scale and local variables (Hewitson and Crane 2006; Ning et al 2012), regional climate modeling applies sophisticated regional climate models (RCMs) consistent with their driving global climate model (GCM) in the large-scale features to directly simulate the dynamics of the regional climate
The North American Regional Climate Change Assessment Program (NARCCAP) (Mearns et al 2009, 2012) archived outputs from multiple RCM simulations driven by different GCMs to provide high resolution climate scenarios over North America
Summary
Global and regional climates are changing with the accelerating consumption of fossil fuel, and the profound impacts of climate change on humans and the natural environment have already been experienced across the northeastern US. The North American Regional Climate Change Assessment Program (NARCCAP) (Mearns et al 2009, 2012) archived outputs from multiple RCM simulations driven by different GCMs to provide high resolution climate scenarios over North America. The ‘‘emissions scenario uncertainty’’ was examined by projecting future climate change under both higher and lower emissions scenarios. This RCM has already been applied in many previous studies to evaluate the sensitivity of simulations to domain size (Jones et al 1995; Bhaskaran et al 1996) and to project greenhouse gas induced climate change in various regions (Urrutia and Vuille 2009; Karmalkar et al 2011; McCarthy et al 2011)
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