Multidecadal Covariability of North Atlantic Sea Surface Temperature, African Dust, Sahel Rainfall, and Atlantic Hurricanes

Most studies of African dust and North Atlantic climate have been limited to the short time period since the satellite era (1980 onward), precluding the examination of their relationship on longer time scales. Here a new dust dataset with the record extending back to the 1950s is used to show a mult...

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Published inJournal of climate Vol. 25; no. 15; pp. 5404 - 5415
Main Authors Wang, Chunzai, Dong, Shenfu, Evan, Amato T., Foltz, Gregory R., Lee, Sang-Ki
Format Journal Article
LanguageEnglish
Published Boston American Meteorological Society 01.08.2012
Subjects
20th century
Aerosols
Atmospheric particulates
Atmospherics
Climate
Climate change
Climate models
Climate variability
Cold
Datasets
Drought
Dust
Feedback
Hurricanes
Meteorological satellites
Meteorology
Oceans
Positive feedback
Precipitation
Rain
Rainfall
Sahel
Sea surface
Sea surface temperature
Surface temperature
Time
Time series
Tropical regions
Variability
Vertical wind shear
Wind shear
Wind velocity
Barbados
United States > US
Atlantic Ocean
Africa
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Summary:Most studies of African dust and North Atlantic climate have been limited to the short time period since the satellite era (1980 onward), precluding the examination of their relationship on longer time scales. Here a new dust dataset with the record extending back to the 1950s is used to show a multidecadal covariability of North Atlantic SST and aerosol, Sahel rainfall, and Atlantic hurricanes. When the North Atlantic Ocean was cold from the late 1960s to the early 1990s, the Sahel received less rainfall and the tropical North Atlantic experienced a high concentration of dust. The opposite was true when the North Atlantic Ocean was warm before the late 1960s and after the early 1990s. This suggests a novel mechanism for North Atlantic SST variability—a positive feedback between North Atlantic SST, African dust, and Sahel rainfall on multidecadal time scales. That is, a warm (cold) North Atlantic Ocean produces a wet (dry) condition in the Sahel and thus leads to low (high) concentration of dust in the tropical North Atlantic, which in turn warms (cools) the North Atlantic Ocean. An implication of this study is that coupled climate models need to be able to simulate this aerosol-related feedback in order to correctly simulate climate variability in the North Atlantic. Additionally, it is found that dust in the tropical North Atlantic varies inversely with the number of Atlantic hurricanes on multidecadal time scales because of the multidecadal variability of both direct and indirect influences of dust on vertical wind shear in the hurricane main development region.
ISSN:0894-8755
1520-0442
DOI:10.1175/jcli-d-11-00413.1