Cyclonic and anticyclonic contributions to atmospheric energetics
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- Bu səhifədəki naviqasiya:
- Evaluating eddy feedback forcing.
- FORA-WNP30 reanalysis.
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Scientific Reports
| (2021) 11:13202 | https://doi.org/10.1038/s41598-021-92548-7 www.nature.com/scientificreports/ Whether such second-order statistics are dominated by contributions from the decomposed vorticity terms and those from the “cross terms” are negligible should be verified in future studies. Evaluating eddy feedback forcing. Feedback forcing exerted on quasi-steady background flow by eddies migrating along a storm track is estimated locally as a geopotential height tendency that could be induced through fluxes of heat and vorticity by transient eddies 25 , 52 , 53 , as follows: In Eq. ( 8 ), an overbar denotes a variable for the background flow, which corresponds to the climatological- mean state in our practice. The feedback forcing by high-frequency transient eddies was estimated through the eddy fluxes as evaluated locally from 6-hourly fluctuations through the temporal high-pass filtering. High- frequency transients are always exerting feedback forcing onto the background state in which they are embedded. In the climatological-mean state their feedback forcing must therefore be balanced with other processes. Eddy feedback forcing as acceleration (or deceleration) of westerly winds is estimated by calculating westerly wind tendency from the geopotential tendency by assuming geostrophic balance. FORA-WNP30 reanalysis. We utilized daily zonal and meridional velocities of ocean currents over the western North Pacific obtained from the FORA-WNP30 reanalysis 54 by the Japan Agency for Marine-Earth Science and Technology (JAMSTEC) and Meteorological Research Institute (MRI). The FORA-WNP30 was produced by the MRI Multivariate Ocean Variational Estimation system version of 4-dimensional variational method (MOVE-4DVAR 55 ), and the data assimilation system developed by the JMA/MRI, which uses an eddy- resolving ocean model for the western North Pacific. Its horizontal resolution is 1/10° × 1/10° with 54 vertical levels (0 ~ 6300 m depth). To focus on the structure of oceanic jets and mesoscale eddies, velocity fields have been smoothed by performing a 9-point horizontal smoothing (with weights of 0.5 next to the center point and 0.3 at corners) 15 times for the snapshots plotted in Supplementary Fig. S12. Yüklə 186,85 Kb. Dostları ilə paylaş:
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