The Atlantic multidecadal oscillation and extreme daily precipitation over the US and Mexico during the hurrican season

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Material Information

Title:: The Atlantic multidecadal oscillation and extreme daily precipitation over the US and Mexico during the hurrican season
Series Title:: Climate Dynamics
Creator:: Curtis, Scott
Affiliation:: East Carolina University -- Department of Geography -- Atmospheric Science Laboratory
Publisher:: Springer
Publication Date:: 2007
Language:: English

Subjects / Keywords:: unknownAtlantic Ocean
Climatic changes
Precipitation (Meteorology)
Hurricanes
Droughts

Abstract:: The tail of the distribution of daily precipitation for August–September–October was examined over the United States and Mexico in relation to the Atlantic Multidecadal Oscillation (AMO). As expected from previous studies linking the AMO to hurricane activity, Florida and the coastal Southeast US showed an increase in precipitation intensity when the Atlantic was in a warm phase (AMO+). Also during AMO+ Northwest Mexico was dry and exhibited a reduction of extreme events and the Mid-Atlantic Appalachian Mountains showed evidence of an increase in heavy precipitation compared to when the Atlantic was cool. It is proposed that the aforementioned decadal variations in extreme rainfall are forced by changes in the large-scale surface winds and air temperature in conjunction with the AMO. Namely, an anomalous cyclonic circulation is observed off the Southeast coast, leading to a reduction of moisture flux into the decaying North American monsoon, and an increase in moisture flux into the Mid-Atlantic. Further, the Mid-Atlantic shows a relatively strong increase in the mid-tropospheric lapse rate. Thus, the unique combination of low-level humidity, potential instability, and elevated topography are consistent with an enhanced risk of intense rainfall during AMO+.

Source Institution:: Florida International University
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