JOURNAL ARTICLE
Relative importance of global warming, the IPO, and the AMO in surface air temperature and terrestrial precipitation.
Published In: International Journal of Climatology, 2024, v. 44, n. 3. P. 923 1 of 3
Database: Academic Search Ultimate 2 of 3
Authored By: Xu, Chengyu; Tao, Li; Rong, YiNeng; Xu, Chuan 3 of 3
Abstract
The relative importance of oceanic modes to global surface air temperature (SAT) and terrestrial precipitation during 1934–2020 was investigated using a variety of statistical and dynamical system methods. Through singular spectrum analysis, we present the distribution of decadal (10–20‐year), multidecadal (20–50‐year), and secular (>50‐year) variabilities of global SAT and terrestrial precipitation anomalies. Three sea surface temperature modes were identified by singular value decomposition that affect the low‐frequency variabilities of global SAT and terrestrial precipitation anomalies—namely, global warming (GW), the Interdecadal Pacific Oscillation (IPO), and the Atlantic Multidecadal Oscillation (AMO). The relative importance GW, the IPO, and the AMO in SAT and terrestrial precipitation was obtained through a normalized multivariate information flow analysis. Besides a high information flow percentage (60%) from GW to global SAT, especially over the northern Indian Ocean and tropical West Pacific, information flow from the AMO to the northwestern Pacific was also found. In terms of terrestrial precipitation, a large area with a wet trend was found over Eurasia at mid‐to‐high latitudes, and this trend was especially remarkable in the boreal winter half‐year (November–April), as compared with that in the boreal summer half‐year (May–October). By employing artificial neutral networks with a self‐organized map to cluster the key patterns of vertically integrated water vapour flux, we found that the synoptic circulation related to the wet trend is characterized by westerly flow that transports water vapour from the northeastern Atlantic to Eurasia, which is favourable for precipitation there both in the boreal winter and summer half‐year. [ABSTRACT FROM AUTHOR]
Additional Information
- Source:International Journal of Climatology. 2024/03, Vol. 44, Issue 3, p923
- Document Type:Article
- Subject Area:Oceanography
- Publication Date:2024
- ISSN:0899-8418
- DOI:10.1002/joc.8365
- Accession Number:175919486
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