Cyclonic and anticyclonic contributions to atmospheric energetics
Figure 1. Probability of cyclonic and anticyclonic vortices. a–b
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Figure 1. Probability of cyclonic and anticyclonic vortices. a–b, Climatological probability of cyclonic vortices
(colors; with positive curvature) at 300-hPa (a) and 850-hPa (b) over the midwinter (24Jan) North Pacific. The probability of anticyclonic vortices can be obtained as the local residual. Black contours indicate climatological- mean U300 (a) and U850 (b) (m/s). 3 Vol.:(0123456789) Scientific Reports | (2021) 11:13202 | https://doi.org/10.1038/s41598-021-92548-7 www.nature.com/scientificreports/ north of ~ 40°N and the poleward flux to its south. These converging fluxes thus act to accelerate the westerlies to the north and downstream of the prominent jet core around [32°N, 150°E]. The momentum flux diverges northward out of the jet core region, characteristic of a thermally driven subtropical jet 22 , 23 . Lower-tropospheric poleward eddy heat flux (V’T’850) by cyclonic vortices (Fig. 2 e) is more than twice as strong as its anticyclonic counterpart (Fig. 2 f), indicative of the prominent contribution from baroclinic cyclonic vortices to heat transport. The threshold curvature for detecting cyclonic or anticyclonic vortices is not necessarily zero as in Fig. 2 . For comparison, the corresponding climatological-mean probability of cyclonic and anticyclonic vortices is shown in Supplementary Fig. S4, with the threshold curvature equivalent to the radius of curvature of 2500 km. As expected, the probability decreases substantially for the two polarities, but the spatial distribution overall resembles that with the zero threshold. Unlike the case with the zero threshold, however, the probability of anticyclonic vortices is not necessarily a mirror image of its cyclonic counterpart. Along the upper-tropospheric westerly jet, for example, the probability for both cyclonic and anticyclonic vortices is very low. This is probably because the prominent westerly jet, especially in its core region, is likely to flow steadily and barely meanders to form vortices with small radii. Contributions to the Eulerian statistics are qualitatively similar to those with zero curvature threshold, but with more striking distinctions between cyclonic and anticyclonic V’T’850 (Sup- plementary Fig. S5), highlighting the dominant poleward heat flux concentrated around cyclone centers, as inferred from a typical structure of extratropical cyclones 24 . The aforementioned characteristics of the contribution from anticyclonic vortices to the Eulerian statistics revealed with curvature, including comparable or even slightly stronger V’V’300, greater U’V’300, and weaker Yüklə 186,85 Kb. Dostları ilə paylaş:
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