Seasonal prediction of North American wintertime cold extremes in the GFDL SPEAR forecast system

Jia, Liwei; Delworth, Thomas L.; Yang, Xiaosong; Cooke, William; Johnson, Nathaniel C.; McHugh, Colleen; Lu, Feiyu

doi:10.1007/s00382-022-06655-w

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The NOAA IR serves as an archival repository of NOAA-published products including scientific findings, journal articles, guidelines, recommendations, or other information authored or co-authored by NOAA or funded partners. As a repository, the NOAA IR retains documents in their original published format to ensure public access to scientific information.

i

Seasonal prediction of North American wintertime cold extremes in the GFDL SPEAR forecast system

2023
By Jia, Liwei ; Delworth, Thomas L. ; Yang, Xiaosong ; ...
Source: Climate Dynamics, 61(3-4), 1769-1781

[PDF-2.29 MB]

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Journal Title:

Climate Dynamics
Personal Author:

Jia, Liwei ; Delworth, Thomas L. ; Yang, Xiaosong ; Cooke, William ; Johnson, Nathaniel C. ; ... More +

Jia, Liwei ; Delworth, Thomas L. ; Yang, Xiaosong ; Cooke, William ; Johnson, Nathaniel C. ; McHugh, Colleen ; Lu, Feiyu Less -
NOAA Program & Office:

OAR (Oceanic and Atmospheric Research) ; GFDL (Geophysical Fluid Dynamics Laboratory)

OAR (Oceanic and Atmospheric Research) ; GFDL (Geophysical Fluid Dynamics Laboratory) Less -
Description:

Skillful prediction of wintertime cold extremes on seasonal time scales is beneficial for multiple sectors. This study demonstrates that North American cold extremes, measured by the frequency of cold days in winter, are predictable several months in advance in the Geophysical Fluid Dynamics Laboratory’s SPEAR (Seamless system for Prediction and EArth system Research) seasonal forecast system. Three predictable components of cold extremes over the North American continent are found to be skillfully predicted on seasonal scales. One is a trend-like component, which shows a continent-wide decrease in the frequency of cold extremes and is primarily attributable to external radiative forcing. This trend-like component is predictable at least 9 months ahead. The second predictable component displays a dipole structure over North America, with negative signs in the northwest and positive signs in the southeast. This dipole component is predictable with significant correlation skill for 2 months and is a response to the central Pacific ENSO (El Niño-Southern Oscillation) as revealed from SPEAR AMIP-style simulations. The third component with the largest loadings over Canada and the northern US shows significant correlations with snow anomalies over mid-to-high latitudes of the North American continent. Predictions using only the three predictable components yield higher/comparable skill relative to the SPEAR raw forecasts.
Source:

Climate Dynamics, 61(3-4), 1769-1781
DOI:

https://doi.org/10.1007/s00382-022-06655-w
ISSN:

0930-7575;1432-0894;
Format:

PDF
Publisher:

Springer Science and Business Media LLC
Document Type:

Journal Article
Funding:

Grant no. NA21OAR4310383
Rights Information:

Accepted Manuscript
Compliance:

Submitted
Main Document Checksum:

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urn:sha-512:9947076c80962a2eac6727408e9df0e3e0f95b081086a9ee8fd42b71bfb9fb6afa55acc184679702a7faf1fd3f4dc34a04518585c507f0ba00f186252c29a7eb
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https://repository.library.noaa.gov/view/noaa/66066/noaa_66066_DS1.pdf
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Seasonal prediction of North American wintertime cold extremes in the GFDL SPEAR forecast system

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