Litcius/Paper detail

Rapid Increase of Explosive Cyclone Activity over the Midwinter North Pacific in the Late 1980s

Akira Kuwano‐Yoshida, Satoru Okajima, Hisashi Nakamura

2021Journal of Climate21 citationsDOIOpen Access PDF

Abstract

Abstract Long-term changes in the activity of explosively developing “bomb” cyclones over the wintertime North Pacific are investigated by using a particular version of a global atmospheric reanalysis dataset into which only conventional observations have been assimilated. Bomb cyclones in January are found to increase rapidly around 1987 in the midlatitude central North Pacific. Some of the increased bomb cyclones formed over the East China Sea and then moved along the southern coast of Japan before developing explosively in the central North Pacific. The enhanced cyclone activity is found to be concomitant with rapid warming and moistening over the subtropical western Pacific and the South and East China Seas under the weakened monsoonal northerlies, leading to the enhancement of the lower-tropospheric Eady growth rate and equivalent potential temperature gradient, setting a condition favorable for cyclone formation in the area upstream of the North Pacific storm track. Along the storm track, poleward moisture transport in the warm sector of a cyclone and associated precipitation along the warm and cold fronts tended to increase and thereby enhance its explosive development. After the transition around 1987, a bomb cyclone has become more likely to develop without a strong upper-level cyclonic vortex propagating from Eurasia than in the earlier period. The increased bomb cyclone activity in January is found to contribute to the diminished midwinter minimum of the North Pacific storm track activity after the mid-1980s.

Topics & Concepts

ClimatologyCyclone (programming language)Extratropical cycloneMiddle latitudesEnvironmental scienceStormTropical cyclone scalesStorm trackCyclogenesisTropical cycloneWesterliesPrecipitationTroposphereSubtropical ridgeEast AsiaOceanographyGeologyChinaGeographyMeteorologyField-programmable gate arrayArchaeologyComputer hardwareComputer scienceClimate variability and modelsTropical and Extratropical Cyclones ResearchMeteorological Phenomena and Simulations