Characteristics of Explosive Cyclones over the Northern Pacific

Zhang, Shuqin; Fu, Gang; Lu, Chungu; Lu, Shanping

doi:10.1175/jamc-d-16-0330.1

Cited by 27 publications

(60 citation statements)

References 70 publications

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“…The EC definition modified by Zhang et al (2017) is used in this study and the deepening rate (DR in Bergeron) of a cyclone SLP can be calculated using the following formula: DR P t−6 − P t+6 12 × sin 45 °sin…”

Section: Definition Of Ecmentioning

confidence: 99%

“…Sanders and Gyakum (1980) defined the explosive cyclone (EC) as the one with the central SLP drops more than 24 hPa within 24 h when adjusted geostrophically to 60 °N. The latitude adjustment is performed to account for the variation of the geostrophic wind with latitude for a given pressure gradient. Given the facts that ECs usually occur in the mid-latitude and that the high-resolution reanalysis data are widely used, Zhang et al (2017) adjusted the latitude to 45 °N and set the pressure fall to 12 hPa/12 h. The one "Bergeron" of a 24 hPa/24 h at 60 °N in Sanders and Gyakum (1980) was modified into a 12 hPa/12 h at 45 °N. In addition, these ECs were classified into four categories using K-means clustering algorithm based on the maximum deepening rate: Super (≥2.30 Bergeron), strong (1.70-2.29 Bergeron), moderate (1.30-1.69 Bergeron) and weak (1.00-1.29 Bergeron).…”

Section: Introductionmentioning

confidence: 99%

“…In the Northern Hemisphere, ECs occurred frequently over the Northwestern Pacific and the Northwestern Atlantic (Rogers and Bosart, 1986;Lim and Simmonds, 2002;Iwao et al, 2012;Zhang et al, 2017;Fu et al, 2020), especially over the Gulf Stream and Kuroshio/Kuroshio Extension regions (Roebber, 1984;Gyakum et al, 1989;Wang and Rogers, 2001;Allen et al, 2010;Zwiers, 2016a, 2016b). The Gulf Stream and Kuroshio/ Kuroshio Extension supply abundant moisture and turbulent (sensible and latent) heat fluxes, which favor the rapid development of ECs through increasing the latent heat release and decreasing atmospheric stability (Nuss and Kamikawa 1990;Kuo et al, 1991b;Reed et al, 1993b;Takayabu et al, 1996;Booth et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

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Physical Process Contributions to the Development of a Super Explosive Cyclone Over the Gulf Stream

Zhang

et al. 2021

Front. Earth Sci.

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Contributions of different physical processes to the development of a super explosive cyclone (SEC) migrating over the Gulf Stream with the maximum deepening rate of 3.45 Bergeron were investigated using the ERA5 atmospheric reanalysis from European Centre for Medium-Range Weather Forecasts (ECMWF). The evolution of the SEC resembled the Shapiro-Keyser model. The moisture transported to the bent-back front by easterlies from Gulf Stream favored precipitation and enhanced the latent heat release. The bent-back front and warm front were dominated by the water vapor convergence in the mid-low troposphere, the cyclonic-vorticity advection in the mid-upper troposphere and the divergence in the upper troposphere. These factors favored the rapid development of the SEC, but their contributions showed significant differences during the explosive-developing stage. The diagnostic results based on the Zwack-Okossi equation suggested that the early explosive development of the SEC was mainly forced by the diabatic heating in the mid-low troposphere. From the early explosive-developing moment to maximum-deepening-rate moment, the diabatic heating, warm-air advection and cyclonic-vorticity advection were all enhanced significantly, their combination forced the most explosive development, and the diabatic heating had the biggest contribution, followed by the warm-air advection and cyclonic-vorticity advection, which is different from the previous studies of ECs over the Northwestern Atlantic. The cross section of these factors suggested that during the rapid development, the cyclonic-vorticity advection was distributed and enhanced significantly in the mid-low troposphere, the warm-air advection was strengthened significantly in the mid-low and upper troposphere, and the diabatic heating was distributed in the middle troposphere.

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Section: Definition Of Ecmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Physical Process Contributions to the Development of a Super Explosive Cyclone Over the Gulf Stream

Zhang

et al. 2021

Front. Earth Sci.

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“…The Sea level pressure (SLP) and geopotential height at the pressure levels from 1,000 to 200 hPa are used to identify ECs. Similar to the region used in Ding et al (1998), Allen et al (2010), and Zhang et al (2017), we focus only on the ECs that form in the Northern Hemisphere within the range of 25 -80 N, 0 -360 . In order to exclude tropical cyclones, all ECs identified in this study were confirmed to form north of 25 N (i.e., they are not generated in tropical regions) and have intense lower-level temperature gradients (i.e., their baroclinity was strong).…”

Section: Datamentioning

confidence: 99%

“…Iwao et al (2012) showed that there was an increasing trend in the numbers of ECs over the northwest Pacific from 1979 to 2010 based on a manually verified objective tracking algorithm using the 6-hourly and 1.25 × 1.25 JRA-25 reanalysis data. Zhang et al (2017) used NCEP-FNL data to analyse ECs over the North Atlantic during a 15-coldseason period, and showed that ECs' occurrence frequency was highly correlated with the intensity of lower-level baroclinity. On the basis of a 34-extended-winter statistical analysis (from 1979 to 2012) using ERA-I reanalysis data, Hart et al (2017) found that ECs were a main cause of cyclone-related strong wind events over the British Isles.…”

Section: Introductionmentioning

confidence: 99%

Surface wind and vertical extent features of the explosive cyclones in the Northern Hemisphere based on the ERA‐I reanalysis data

Jiang

Sun

et al. 2021

Intl Journal of Climatology

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Although explosive cyclones (ECs) have long been a focus of research, there remains a lack of knowledge of the statistical characteristics of their associated maximum surface winds and vertical extents. This study fills this gap by conducting a targeted statistical analysis of ECs in the Northern Hemisphere using the ERA-I reanalysis data during a 40-year period. Some new findings are obtained: (a) The average location of formation of ECs undergoes a notable westward and equatorward shift from September to April in the next year which is consistent with the location variations of sea surface temperature's strong gradients in subtropical regions. (b) Extreme ECs with a deepening rate more than 2.0 Bergeron or with a longer lifespan more than 10 days tend to have a larger occurrence number over the Northern Atlantic Ocean than over the Northern Pacific. (c) The maximum surface wind associated with an EC tends to appear between the EC reaching its maximum deepening rate and reaching its minimum central pressure. (d) The northeastern quadrant of ECs accounts for the highest proportion of maximum surface wind and strongest wind speed, as the baroclinic energy conversion is generally strongest in this quadrant. (e) Over 60% of ECs belong to a type of vertically deep cyclone (ECs' top levels show close relationship to ascending motions within their central regions), and they tend to reach their maximum vertical extent around the time when they reach their minimum central pressures. (f ) The highest top levels of ECs exhibit an overall upward extending trend as their minimum central pressure decreases or their maximum deepening rate increases.

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A 38-Year Climatology of Explosive Cyclones over the Northern Hemisphere

Sun

et al. 2020

Adv. Atmos. Sci.

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Characteristics of Explosive Cyclones over the Northern Pacific

Cited by 27 publications

References 70 publications

Physical Process Contributions to the Development of a Super Explosive Cyclone Over the Gulf Stream

Physical Process Contributions to the Development of a Super Explosive Cyclone Over the Gulf Stream

Surface wind and vertical extent features of the explosive cyclones in the Northern Hemisphere based on the ERA‐I reanalysis data

A 38-Year Climatology of Explosive Cyclones over the Northern Hemisphere

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