Abstract
Consistent with the northward migration of the annual mean latitude of tropical cyclone (TC) lifetime maximum intensity (LMI), the basin-wide mean location of TC formation shifted northward in the western North Pacific (WNP) basin over the past four decades. Whether such a shift was related to the anthropogenic influence is important to understanding the response of TC activity to climate change. Instead of detecting the effects of individual environmental factors on this shift, here we focus on the interdecadal variability of the monsoon trough (MT), within which most TCs in the WNP basin occur, and its roles in the shift of the basin-wide mean location of TC formation using 60-year reanalysis data. Interdecadal variations of the MT exhibit two main modes: one associated with the Pacific decadal oscillation (PDO) and the other associated with the interdecadal Pacific oscillation (IPO). In addition, the north–south shift of the mean latitude of TC formation is accompanied by east–west extension of the tropical upper tropospheric trough (TUTT) and the tropical eastern Pacific cold tongue indicated by the east–west contrast of sea surface temperature (SST) anomalies. The poleward shift of the mean TC formation latitude is closely associated with the IPO mode of the MT. The westward retreat of the northwest-to-southeast-oriented MT and the accompanied westward extension of the TUTT reduced TC formation in the eastern part of the WNP basin when the cold tongue shifted westward. It is indicated that the observed poleward shift of TC formation was mainly attributed to natural variability in recent decades.
Highlights
Previous studies found that the basin-wide mean latitude of the lifetime maximum intensity (LMI) of tropical cyclones (TCs) in the western North Pacific (WNP) has shifted northward since the early 1980s (Kossin et al 2014, 2016; Moon et al 2015; Zhan and Wang 2017)
Since most tropical cyclogenesis events occur within the monsoon trough (MT) over the WNP, the two interdecadal modes of the MT and their roles in the shift of the basin-wide mean location of TC formation are examined over the past 60 years, instead of examining individual environmental factors
While there is no significant long-term trend in the mean latitude of TC formation, the poleward shift of the mean TC formation latitude is closely associated with the interdecadal Pacific oscillation (IPO) mode of the MT
Summary
Previous studies found that the basin-wide mean latitude of the lifetime maximum intensity (LMI) of tropical cyclones (TCs) in the western North Pacific (WNP) has shifted northward since the early 1980s (Kossin et al 2014, 2016; Moon et al 2015; Zhan and Wang 2017). Since the zonal position of the TUTT is related to the diversity of SST patterns in the tropical Pacific, the relatively weak (strong) SST warming in the east tropical Pacific favors a westward (eastward) shift of the TUTT (Wang and Wu 2018) This suggests that the tropical eastern Pacific SST variability is an essential factor in the zonal shift of the basin-wide mean location of TC formation through modulating tropospheric large-scale circulations. The linkage of the MT and the TUTT with the relative SST changes over the tropical Pacific is examined to reveal the roles of interdecadal variability in the observed northward shift of TC formation in recent decades
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