Observational Study on Boundary Layer Moist Static Energy Budget over the Tropical Western Pacific and Its Variability Associated with Boreal Summer Intraseasonal Oscillation

Moist static energy (MSE) in the atmospheric boundary layer (BL) is one of the essential parameters determining convective activity over tropical oceanic areas. It is thus important to quantitatively understand BL MSE budget processes and their variability. Among these processes, only few studies ha...

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Bibliographic Details
Published in:Journal of the atmospheric sciences 2022-03, Vol.79 (3), p.781-792
Main Authors: Yokoi, Satoru, Katsumata, Masaki
Format: Article
Language:English
Subjects:
Approximation
Atmospheric boundary layer
Boundary layers
Convective activity
Downdraft
Energy budget
Entrainment
Fluxes
Humidity
Intraseasonal oscillation
Mass
Mass flux
Mathematical analysis
Meteorological observations
Meteorological radar
Moist static energy
Moisture budget
Moisture effects
Observational studies
Precipitation
Radar
Research vessels
Summer
Tropical climate
Variability
Weather radar
Wind
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Summary:Moist static energy (MSE) in the atmospheric boundary layer (BL) is one of the essential parameters determining convective activity over tropical oceanic areas. It is thus important to quantitatively understand BL MSE budget processes and their variability. Among these processes, only few studies have evaluated contributions of entrainment across the BL top and convective downdraft. This study aims to estimate these contributions by analyzing upper-air and surface meteorological observations obtained using research vessel Mirai over the tropical western Pacific in June 2008. Daily mean downward mass fluxes due to the two processes are calculated using BL dry static energy and moisture budget equations under the BL quasi-equilibrium approximation. Estimated mass fluxes are consistent with convective activity observed by a shipborne weather radar and a ceilometer. This study further examines how the mass fluxes and budget processes are modulated when a convectively active phase of boreal summer intraseasonal oscillation arrives at the observation area in the second half of the month. It is found that, while the contribution of the entrainment does not change significantly, the convective downdraft mass flux and the resultant BL MSE export increase 5 times and 3 times, respectively, in the convectively active period compared with those in the preactive period. Furthermore, ∼1/4 of the increase in the convective downdraft mass flux is attributable to the increase in MSE of convective downdraft air associated with midtropospheric moistening.
ISSN:0022-4928
1520-0469
DOI:10.1175/JAS-D-21-0109.1