Ocean–Atmosphere Influences on Low-Frequency Warm-Season Drought Variability in the Gulf Coast and Southeastern United States
From the 344 state climate divisions in the conterminous United States, nine distinct regions of warm-season drought variability are identified using principal component analysis. The drought metric used is the Palmer hydrological drought index for the period 1895–2008. The focus of this paper is mu...
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ftunivnorthcag:oai:libres.uncg.edu/21465 2024-02-11T10:06:17+01:00 Ocean–Atmosphere Influences on Low-Frequency Warm-Season Drought Variability in the Gulf Coast and Southeastern United States NC DOCKS at Appalachian State University Soule', Peter T. 2011 http://libres.uncg.edu/ir/asu/f/Soule_Peter_2011_Ocean_atmosphere_influence_orig.pdf English eng http://libres.uncg.edu/ir/asu/f/Soule_Peter_2011_Ocean_atmosphere_influence_orig.pdf 2011 ftunivnorthcag 2024-01-27T23:46:09Z From the 344 state climate divisions in the conterminous United States, nine distinct regions of warm-season drought variability are identified using principal component analysis. The drought metric used is the Palmer hydrological drought index for the period 1895–2008. The focus of this paper is multi-decadal drought variability in the Southeast (SEUS) and eastern Gulf South (EGS) regions of the United States, areas in which the low-frequency forcing mechanisms of warm-season drought are still poorly understood. Low-frequency drought variability in the SEUS and EGS is associated with smoothed indexed time series of major ocean–atmosphere circulation features, including two indices of spatiotemporal variability in the North Atlantic subtropical anticyclone (Bermuda high). Long-term warm-season drought conditions are significantly out of phase between the two regions. Multi-decadal regimes of above- and below-average moisture in the SEUS and EGS are closely associated with slow variability in sea surface temperatures in the North Atlantic Ocean and with the summer mean position and mean strength of the Bermuda high. Multivariate linear regression indicates that 82%–92% of the low-frequency variability in warm-season moisture is explained by two of the three leading principal components of low-frequency variability in the climate indices. The findings are important for water resource managers and water-intensive industries in the SEUS and EGS. The associations identified in the paper are valuable for enhanced drought preparedness and forecasting in the study area and potentially for global models of coupled ocean–atmosphere variability. Other/Unknown Material North Atlantic University of North Carolina: NC DOCKS (Digital Online Collection of Knowledge and Scholarship) |
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Open Polar |
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University of North Carolina: NC DOCKS (Digital Online Collection of Knowledge and Scholarship) |
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ftunivnorthcag |
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English |
| description |
From the 344 state climate divisions in the conterminous United States, nine distinct regions of warm-season drought variability are identified using principal component analysis. The drought metric used is the Palmer hydrological drought index for the period 1895–2008. The focus of this paper is multi-decadal drought variability in the Southeast (SEUS) and eastern Gulf South (EGS) regions of the United States, areas in which the low-frequency forcing mechanisms of warm-season drought are still poorly understood. Low-frequency drought variability in the SEUS and EGS is associated with smoothed indexed time series of major ocean–atmosphere circulation features, including two indices of spatiotemporal variability in the North Atlantic subtropical anticyclone (Bermuda high). Long-term warm-season drought conditions are significantly out of phase between the two regions. Multi-decadal regimes of above- and below-average moisture in the SEUS and EGS are closely associated with slow variability in sea surface temperatures in the North Atlantic Ocean and with the summer mean position and mean strength of the Bermuda high. Multivariate linear regression indicates that 82%–92% of the low-frequency variability in warm-season moisture is explained by two of the three leading principal components of low-frequency variability in the climate indices. The findings are important for water resource managers and water-intensive industries in the SEUS and EGS. The associations identified in the paper are valuable for enhanced drought preparedness and forecasting in the study area and potentially for global models of coupled ocean–atmosphere variability. |
| author |
NC DOCKS at Appalachian State University Soule', Peter T. |
| spellingShingle |
NC DOCKS at Appalachian State University Soule', Peter T. Ocean–Atmosphere Influences on Low-Frequency Warm-Season Drought Variability in the Gulf Coast and Southeastern United States |
| author_facet |
NC DOCKS at Appalachian State University Soule', Peter T. |
| author_sort |
NC DOCKS at Appalachian State University |
| title |
Ocean–Atmosphere Influences on Low-Frequency Warm-Season Drought Variability in the Gulf Coast and Southeastern United States |
| title_short |
Ocean–Atmosphere Influences on Low-Frequency Warm-Season Drought Variability in the Gulf Coast and Southeastern United States |
| title_full |
Ocean–Atmosphere Influences on Low-Frequency Warm-Season Drought Variability in the Gulf Coast and Southeastern United States |
| title_fullStr |
Ocean–Atmosphere Influences on Low-Frequency Warm-Season Drought Variability in the Gulf Coast and Southeastern United States |
| title_full_unstemmed |
Ocean–Atmosphere Influences on Low-Frequency Warm-Season Drought Variability in the Gulf Coast and Southeastern United States |
| title_sort |
ocean–atmosphere influences on low-frequency warm-season drought variability in the gulf coast and southeastern united states |
| publishDate |
2011 |
| url |
http://libres.uncg.edu/ir/asu/f/Soule_Peter_2011_Ocean_atmosphere_influence_orig.pdf |
| genre |
North Atlantic |
| genre_facet |
North Atlantic |
| op_relation |
http://libres.uncg.edu/ir/asu/f/Soule_Peter_2011_Ocean_atmosphere_influence_orig.pdf |
| _version_ |
1790603915305156608 |