Exploring the Predictability of 30-Day Extreme Precipitation Occurrence Using a Global SST–SLP Correlation Network

Lu, Mengqian; Lall, Upmanu; Kawale, Jaya; Liess, Stefan; Kumar, Vipin

doi:10.1175/jcli-d-14-00452.1

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Exploring the Predictability of 30-Day Extreme Precipitation Occurrence Using a Global SST–SLP Correlation Network

2016
By Lu, Mengqian ; Lall, Upmanu ; Kawale, Jaya ; ...
Source: Journal of Climate, 29(3), 1013-1029

[PDF-2.93 MB]

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Journal Title:

Journal of Climate
Personal Author:

Lu, Mengqian ; Lall, Upmanu ; Kawale, Jaya ; Liess, Stefan ; Kumar, Vipin

Lu, Mengqian ; Lall, Upmanu ; Kawale, Jaya ; Liess, Stefan ; Kumar, Vipin Less -
NOAA Program & Office:

OAR (Oceanic and Atmospheric Research)
Description:

Correlation networks identified from financial, genomic, ecological, epidemiological, social, and climatic data are being used to provide useful topological insights into the structure of high-dimensional data. Strong convection over the oceans and the atmospheric moisture transport and flow convergence indicated by atmospheric pressure fields may determine where and when extreme precipitation occurs. Here, the spatiotemporal relationship among sea surface temperature (SST), sea level pressure (SLP), and extreme global precipitation is explored using a graph-based approach that uses the concept of reciprocity to generate cluster pairs of locations with similar spatiotemporal patterns at any time lag. A global time-lagged relationship between pentad SST anomalies and pentad SLP anomalies is investigated to understand the linkages and influence of the slowly changing oceanic boundary conditions on the development of the global atmospheric circulation. This study explores the use of this correlation network to predict extreme precipitation globally over the next 30 days, using a logistic principal component regression on the strong global dipoles found between SST and SLP. Predictive skill under cross validation and blind prediction for the occurrence of 30-day precipitation that is higher than the 90th percentile of days in the wet season is indicated for the selected global regions considered.
Source:

Journal of Climate, 29(3), 1013-1029
DOI:

https://doi.org/10.1175/jcli-d-14-00452.1
ISSN:

0894-8755;1520-0442;
Format:

PDF
Publisher:

American Meteorological Society
Document Type:

Journal Article
Funding:

Grant no. NA10OAR4310137 ; Grant no. NA10OAR4310159 ; Grant no. NA10OAR4320137

Grant no. NA10OAR4310137 ; Grant no. NA10OAR4310159 ; Grant no. NA10OAR4320137 Less -
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urn:sha-512:545f2ce3a8ada3a20c46eb4b0ec4360c89bc87030fabdc86cf52f6e05893fee89bed29c35ab72a356683f6569744075bd83e0181a9781db221001ebd73f86316
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Exploring the Predictability of 30-Day Extreme Precipitation Occurrence Using a Global SST–SLP Correlation Network

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