Assessing regional impacts of climate change begins with development of climate projections at relevant temporal and spatial scales. Here, proven statistical downscaling methods are applied to relatively coarse-scale atmosphere—ocean general circulation model (AOGCM) output to improve the simulation and resolution of spatial and temporal variability in temperature and precipitation across the US Great Lakes region. The absolute magnitude of change expected over the coming century depends on the sensitivity of the climate system to human forcing and on the trajectory of anthropogenic greenhouse gas emissions. Annual temperatures in the region are projected to increase 1.4 ± 0.6 °C over the near-term (2010–2039), by 2.0 ± 0.7 °C under lower and 3 ± 1 °C under higher emissions by midcentury (2040–2069), and by 3 ± 1 °C under lower and 5.0 ± 1.2°C under higher emissions by end-of-century (2070–2099), relative to the historical reference period 1961–1990. Simulations also highlight seasonal and geographical differences in warming, consistent with recent trends. Increases in winter and spring precipitation of up to 20% under lower and 30% under higher emissions are projected by end-of-century, while projections for summer and fall remain inconsistent. Competing effects of shifting precipitation and warmer temperatures suggest little change in Great Lake levels over much of the century until the end of the century, when net decreases are expected under higher emissions. Overall, these projections suggest the potential for considerable changes to climate in the US Great Lakes region; changes that could be mitigated by reducing global emissions to follow a lower as opposed to a higher emissions trajectory over the coming century.
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1 July 2010
Regional Climate Change Projections for Chicago and the US Great Lakes
Katharine Hayhoe,
Jeff VanDorn,
Thomas Croley,
Nicole Schlegal,
Donald Wuebbles
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Journal of Great Lakes Research
Vol. 36 • No. sp2
July 2010
Vol. 36 • No. sp2
July 2010
climate change
climate modeling
Great Lakes
Precipitation
temperature