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Can dynamically downscaled climate model outputs improve pojections of extreme precipitation events?
Citation:
Wobus, C., L. Reynolds, R. Jones, R. Horton, J. Smith, S. Fries, M. Tryby, T. Spero, AND Chris Nolte. Can dynamically downscaled climate model outputs improve pojections of extreme precipitation events? To be Presented at AGU Fall Meeting, San Francisco, CA, December 14 - 18, 2015.
Impact/Purpose:
The purpose of this research is to develop a methodology to project changes in sub-daily rainfall intensity occurring due to climate change. Anticipating changes in rainfall intensities will help utilities better adapt resilient mitigating strategies.
Description:
Many of the storms that generate damaging floods are caused by locally intense, sub-daily precipitation, yet the spatial and temporal resolution of the most widely available climate model outputs are both too coarse to simulate these events. Thus there is often a disconnect between the nature of the events that cause damaging floods and the models used to project how climate change might influence their magnitude. This could be a particular problem when developing scenarios to inform future stormwater management options under future climate scenarios. In this study we sought to close this gap, using sub-daily outputs from the Weather Research and Forecasting model (WRF) from each of the nine climate regions in the United States. Specifically, we asked 1) whether WRF outputs projected consistent patterns of change for sub-daily and daily precipitation extremes; and 2) whether this dynamically downscaled model projected different magnitudes of change for 3-hourly vs 24-hourly extreme events. We extracted annual maximum values for 3-hour through 24-hour precipitation totals from an 11-year timeseries of hindcast (1995-2005) and mid-century (2045-2055) climate, and calculated the direction and magnitude of change for 3-hour and 24-hour extreme events over this timeframe. The model results project that the magnitude of both 3-hour and 24-hour events will increase over most regions of the United States, but there was no clear or consistent difference in the relative magnitudes of change for sub-daily vs daily events.
