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Abstract Atmospheric rivers (ARs) and Santa Ana winds (SAWs) are impactful weather events for California communities. Emergency planning efforts and resource management would benefit from extending lead times of skillful prediction for these and other types of extreme weather patterns. Here we describe a methodology for subseasonal prediction of impactful winter weather in California, including ARs, SAWs and heat extremes. The hybrid approach combines dynamical model and historical information to forecast probabilities of impactful weather outcomes at weeks 1–4 lead. This methodology uses dynamical model information considered most reliable, that is, planetary/synoptic‐scale atmospheric circulation, filters for dynamical model error/uncertainty at longer lead times and increases the sample of likely outcomes by utilizing the full historical record instead of a more limited suite of dynamical forecast model ensemble members. We demonstrate skill above climatology at subseasonal timescales, highlighting potential for use in water, health, land, and fire management decision support.
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Dye, Laura A.; Coulthard, Bethany L.; Hatchett, Benjamin J.; Homfeld, Inga K.; Salazar, Taylor N.; Littell, Jeremy S.; Anchukaitis, Kevin J. (, Water Resources Research)Key Points Decadal low‐snow intervals, particularly during the 19th century, are part of the natural Oregon Cascade snowpack variability Snow “whiplash” events are a common although variable feature of the Oregon Cascades' reconstructed record In our 331‐year record, only one other event matches the severity of the Oregon Cascades 2014–2015 snow droughtmore » « less
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Siirila-Woodburn, Erica R.; Rhoades, Alan M.; Hatchett, Benjamin J.; Huning, Laurie S.; Szinai, Julia; Tague, Christina; Nico, Peter S.; Feldman, Daniel R.; Jones, Andrew D.; Collins, William D.; et al (, Nature Reviews Earth & Environment)
