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- Title
The Critical Role of Non-Normality in Partitioning Tropical and Extratropical Contributions to PNA Growth.
- Authors
HENDERSON, STEPHANIE A.; VIMONT, DANIEL J.; NEWMAN, MATTHEW
- Abstract
The Pacific–North American (PNA) teleconnection pattern has been linked both to tropical phenomena, including the Madden–Julian oscillation (MJO) and El Niño–Southern Oscillation (ENSO), and to internal extratropical processes, including interactions with the zonally varying basic state and synoptic eddies. Many questions remain, however, concerning how these various relationships act, both separately and together, to yield observed PNA variability. Using linear inverse modeling (LIM), this study finds that the development and amplification of PNA anomalies largely results from the interference of modes strongly coupled to sea surface temperatures (SST), such as ENSO, and modes internal to the atmosphere, including the MJO. These SST-coupled and ‘‘internal atmospheric’’ modes form subspaces that are not orthogonal, and PNA growth is shown to occur via non-normal interactions. An internal atmospheric space LIM is developed to examine growth beyond this interference by removing the SST-coupled modes, effectively removing ENSO and retaining MJO variability. Optimal PNA growth in the internal atmospheric space LIM is driven by MJO heating, particularly over the Indian Ocean, and a retrograding northeast Pacific streamfunction anomaly. Additionally, the individual contributions of tropical heating and the extratropical circulation on PNAgrowth are investigated. The non-normal PNA growth is an important result, demonstrating the difficulty in partitioning PNA variance into contributions from different phenomena. This cautionary result is likely applicable to many geophysical phenomena and should be considered in attribution studies.
- Subjects
SOUTHERN oscillation; OCEAN temperature; TELECONNECTIONS (Climatology); EL Nino
- Publication
Journal of Climate, 2020, Vol 33, Issue 14, p6273
- ISSN
0894-8755
- Publication type
Article
- DOI
10.1175/JCLI-D-19-0555.1