An Abrupt Decrease in the Late-Season Typhoon Activity over the Western North Pacific*

Hsu, Pang‐Chi; Chu, Pao‐Shin; Murakami, Hiroyuki; Zhao, Xin

doi:10.1175/jcli-d-13-00417.1

Cited by 100 publications

(117 citation statements)

References 55 publications

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“…1 of Hsu et al 2014 or He et al 2015). However, the percentage of TC intensification into typhoon during the late TC season (i.e., autumn) is higher than that in the peak TC season (i.e., summer) (Hsu et al 2014), especially in September (He et al 2017). For example, many super-typhoons such as Tip (October 1979), Maemi (September 2003), Megi (October 2010), Haiyan (early-November 2013), and Bopha (late-November 2012) were all generated during the late TC season.…”

Section: Introductionmentioning

confidence: 91%

“…Because the warming due to greenhouse gases will not only lead to more frequent extreme ENSO (Cai et al 2014(Cai et al , 2015a and ENSO diversity (e.g., Hu et al 2016a, b;Chen et al 2015), but also fewer-but-stronger TCs (e.g., Knutson et al 2010) since the negative contributions from the reduced TC frequency and its genesis location-related duration tend to offset the positive contribution from the increasing TC intensity (Lin and Chan 2015). In other words, changes in TCLs and ENSO in the context of global warming may primarily contribute to the change in the frequency of intense typhoons (e.g., Wu and Wang 2008;Wang et al 2013, Hsu et al 2014. That is, TCL shift often affects TC intensity via changing the durations over the ocean (i.e., TC has more or less time and distance over the WNP warm pool for developing) (e.g., Wang and Chan 2002;Camargo and Sobel 2005;Wu and Wang 2008;Zhao et al 2011Zhao et al , 2014bWang et al 2013;Zhao and Wu 2014).…”

Section: Introductionmentioning

confidence: 98%

“…Meanwhile, the western North Pacific (WNP) tropical cyclones (TCs) experience an active to less-active transition (see Fig. 1 of Hsu et al 2014 or He et al 2015). However, the percentage of TC intensification into typhoon during the late TC season (i.e., autumn) is higher than that in the peak TC season (i.e., summer) (Hsu et al 2014), especially in September (He et al 2017).…”

Section: Introductionmentioning

confidence: 99%

“…It also should be noted that the mean latitude of WNP tropical cyclogenesis locations (TCLs) was clearly further to the north in summer than in autumn (not shown), mainly due to the distinctly different seasonal climatic backgrounds (e.g., warm pool, monsoon flows, etc.). Thus, we emphasize that it is important to separately study the WNP TC activity during autumn (e.g., Hsu et al 2014;Zhao et al 2014a;Zhao and Wang 2016;Choi et al 2017) and that in summer.…”

Section: Introductionmentioning

confidence: 99%

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Perspective on the northwestward shift of autumn tropical cyclogenesis locations over the western North Pacific from shifting ENSO

Zhang

Yang

et al. 2017

Clim Dyn

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During the recent decades of satellite era, more tropical cyclogenesis locations (TCLs) were observed over the northwestern part of the western North Pacific (WNP), relative to the southeastern part, during the boreal autumn. This increase in TCLs over the northwestern WNP is largely attributed to the synergy of shifting El Niño-Southern Oscillation (ENSO) and the 1998 Pacific climate regime shift. Both central Pacific (CP) La Niña and CP El Niño have occurred more frequently since 1998, with only one eastern Pacific El Niño observed in autumn 2015. The change in the mean longitude of TCLs is closely linked to the ENSO diversity, whereas the change in the mean latitude is dominated by the warming of the WNP induced by an interdecadal tendency of CP La Niña-like events. The physical mechanisms responsible for this shifting ENSO-TCL linkage can be potentially explained by the tacit-and-mutual configurations between tropical upper-tropospheric trough and monsoon trough, on both interannual and interdecadal timescales, which is mainly due to the ENSO-related large-scale environment changes in ocean and atmosphere that modulate the WNP TCL.

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Section: Introductionmentioning

confidence: 91%

Section: Introductionmentioning

confidence: 98%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Perspective on the northwestward shift of autumn tropical cyclogenesis locations over the western North Pacific from shifting ENSO

Zhang

Yang

et al. 2017

Clim Dyn

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“…Hsu et al (2014) discussed the recent changes in the number of Western Pacific catastrophic TCs that have occurred in the late season. Shifts in seasonal occurrence may be yet another mechanism through which future global change factors modify the destructive potential of TCs.…”

Section: Text Box 1 | Anthropogenic Global Change and Tropical Cyclonesmentioning

confidence: 99%

Pacific island tropical cyclones are more frequent and globally relevant, yet less studied

Marler

2014

Front. Environ. Sci.

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Typhoon Haiyan devastated the Philippines in 2013 and illuminates the fact that the majority of tropical cyclone (TC) research has focused on the Atlantic Basin, continental socio-ecological systems, affluent regions where the resilience attributes of the human element differ from that of the of majority the world's population, and organized countries where research and relief capacities are among the best worldwide. I contend that this collective international bias minimizes the usefulness of global TC research in light of global change forecasts, which predict increased frequency of intense TCs. Moreover, paleoecological studies indicate ecosystem resilience following a TC is greatly increased within habitats that experienced a prior history of frequent TCs. When these retrospective and future visions are connected, science-based analysis of the influences of climate change on TC disturbance argues for an increase in contemporary research on TCs of developing island nations in the western Pacific where TCs are already relatively frequent. Otherwise the current research trajectory may further widen the disconnect between best available science and future management decisions.

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Exploratory analysis of extremely low tropical cyclone activity during the late‐season of 2010 and 1998 over the western North Pacific and the South China Sea

Zhao

Chu

Hsu

et al. 2014

J Adv Model Earth Syst

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This study attempts to understand why the tropical cyclone (TC) frequency over the western North Pacific and the South China Sea was so low in 2010 and 1998 even though a strong La Niña signal occurred in both years. We found that the TC frequency during the late-season (October to December), not in the peak season (July to September), makes 2010 a record low year; the next lowest year is 1998. Specifically, four TCs were observed over the South China Sea (SCS) in the late-season of 1998, but no TCs occurred over the SCS in the same season during 2010. The genesis potential index is used to help diagnose changes in environmental conditions for TC genesis frequency. Results indicate that the decreased low-level vorticity makes the largest contribution to the decreased TC formation over the SCS. The second largest contribution comes from the enhanced vertical wind shear, with relatively small contributions from the negative anomaly in potential intensity and reduction in midlevel relative humidity. These observational results are consistent with numerical simulations using a state of the art model from the Meteorological Research Institute (MRI-AGCM 3.2 Model). Numerical experiments show that the unfavorable conditions for sharply decreased TC formation during the late-season over the SCS in 2010 mainly results from the sea surface temperature anomaly over the western North Pacific basin. This effect is partly offset by the sea surface temperature anomaly in the South Indian Ocean and Northern Indian Ocean basins.

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An Abrupt Decrease in the Late-Season Typhoon Activity over the Western North Pacific*

Cited by 100 publications

References 55 publications

Perspective on the northwestward shift of autumn tropical cyclogenesis locations over the western North Pacific from shifting ENSO

Perspective on the northwestward shift of autumn tropical cyclogenesis locations over the western North Pacific from shifting ENSO

Pacific island tropical cyclones are more frequent and globally relevant, yet less studied

Exploratory analysis of extremely low tropical cyclone activity during the late‐season of 2010 and 1998 over the western North Pacific and the South China Sea

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