Response of Volume Transport through the Taiwan and Tsushima Straits to the Wind Fields in the East China Sea

Takeshi Matsuno1, Cho-Teng Liu2, Kenichi Fukudome3, Hsien-Wen Chen4, Kaoru Ichikawa5, Dong-Jiing Doong6 and Tomoharu Senjyu5, (1)Kyushu University, Fukuoka, Japan, (2)Natl Taiwan Univ, Taipei, Taiwan, (3)Japan Sea National Fishseries Research Institute, Niigata, Japan, (4)Central Police Univ, Taoyuan County, Taiwan, (5)Kyushu Univ, Kasuga, Japan, (6)National Cheng Kung University, Tainan, Taiwan
Abstract:
Circulation in the shelf region of the East China Sea is strongly controlled by the volume transport (VT) through the Taiwan Strait (TwS). It is well known that the VT through TwS has a significant seasonal variation, large in summer and small in winter. Based on a time series of the current field obtained by ADCP installed on a ferry boat crossing the TwS, from Keelung to Matsu Island in Taiwan, it had been investigated that the seasonal variations have a good correlation with the local wind around the TwS. The VT through the TwS had been compared with that through Tsushima Strait (TsS), and the results using the data from 2009 to 2012 were presented in the last OSM. In this study the monitoring data were extended further to 2014 and the difference of VTs between TwS and TsS was compared with wind fields and Ekman transport for not only seasonal variation but also shorter time scale variations. Ekman transport across the shelf break with time scales shorter than one month has a good correlation with the difference of VTs between TwS and TsS, that is, net transport across the shelf break of the East China Sea. The correlation is much better with VT through TwS rather than through TsS. Onshoreward net transport due to the Ekman transport may decrease the VT through TwS, which means that the VT through TwS is not only related to the local wind but also wind field over the East China Sea.