1. Using Observational and Reanalysis Data to Explore the Southern Gulf of California Boundary Layer During the North American Monsoon Onset.
- Author
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Fonseca‐Hernandez, Mariam, Turrent, Cuauhtémoc, Mayor, Yandy G., and Tereshchenko, Iryna
- Subjects
ATMOSPHERIC boundary layer ,NORTH American Monsoons ,CIRCADIAN rhythms ,TURBULENCE ,RAINFALL - Abstract
This paper uses rawinsondes and pilot balloon data from the 2004 North American Monsoon (NAM) Experiment, as well as satellite‐based products and reanalysis datasets that span 1982–2018, to analyze the mixing mechanisms responsible for the temporal and spatial variations of the Gulf of California (GoC) boundary layer during the NAM onset in the core monsoon region. We show that the regional diurnal cycle is strongly affected by low‐level convergence and divergence associated with local land‐sea breezes and by the presence of a thermal inversion over the gulf. Earlier starting monsoons have less moisture available for precipitation than those starting later in the calendar year. Therefore, early onset monsoons have less rainfall during their first month, which is a result that is in contrast with previous studies that have analyzed the timing of the NAM but only reported seasonal precipitation totals. The GoC boundary layer height at the time of monsoon onset, found to be controlled by the gulf's surface temperature, has a significant impact on the precipitation over Sonora, Sinaloa, and southern Arizona. After the erosion of the thermal inversion over the GoC that coincides with the NAM onset, wind shear produced by the region's unique geographic and topographic features is the largest source of turbulence for the mixing of the boundary layer. Our results suggest that a numerical model used to forecast or analyze NAM precipitation must have enough spatial resolution to adequately reproduce the effects that the GoC's features have on its complex diurnal circulation systems. Key Points: Earlier starting monsoons are associated with drier starts and late onsets to wetter startsMonsoon precipitation over Sonora, Sinaloa, and southern Arizona is closely related to variations of the Gulf of California boundary layerAfter monsoon onset, wind shear is the largest source of turbulence for the mixing of the Gulf of California boundary layer [ABSTRACT FROM AUTHOR]
- Published
- 2021
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