YUAN Yaochu, LOU Ruyun, LIU Yonggang, SU Jilan, WANG Kangshan, CHEN Hong. Currents in the Luzon Strait during the spring of 2002: observation and computation by modified inverse model[J]. Acta Oceanologica Sinica, 2005, (1): 1-13.
Citation:
YUAN Yaochu, LOU Ruyun, LIU Yonggang, SU Jilan, WANG Kangshan, CHEN Hong. Currents in the Luzon Strait during the spring of 2002: observation and computation by modified inverse model[J]. Acta Oceanologica Sinica, 2005, (1): 1-13.
YUAN Yaochu, LOU Ruyun, LIU Yonggang, SU Jilan, WANG Kangshan, CHEN Hong. Currents in the Luzon Strait during the spring of 2002: observation and computation by modified inverse model[J]. Acta Oceanologica Sinica, 2005, (1): 1-13.
Citation:
YUAN Yaochu, LOU Ruyun, LIU Yonggang, SU Jilan, WANG Kangshan, CHEN Hong. Currents in the Luzon Strait during the spring of 2002: observation and computation by modified inverse model[J]. Acta Oceanologica Sinica, 2005, (1): 1-13.
Second Institute of Oceanography, State Oceanic Administration, Hangzhou 310012, China;Key Laboratory of Ocean Dynamic Processes and Satellite Oceanography of State Oceanic Administration, Hangzhou 310012, China
2.
Second Institute of Oceanography, State Oceanic Administration, Hangzhou 310012, China;College of Marine Science, University of South Florida, U.S.A
3.
Second Institute of Oceanography, State Oceanic Administration, Hangzhou 310012, China
On the basis of the current measurements at 200,500 and 800 m from moored current meters with the time series data from March 17 to April 15 at the mooring station (20°49'57"N,120°48' 12"E) and the hydrographic data obtained in the Luzon Strait during the spring of 2002 cruise,the circulation in the investigated area is computed by using the modified inverse method.The major observed results are as follows:(1) the average velocity and the flow direction in the observing days are (47.4 cm/s,346°) at the 200 m level.The aver age velocity in the observing days is (20.3 cm/s,350°) at the 500 m level.These mean that the Kuroshio intrudes into the South Chin Sea to flow northwestward through the Luzon Strait at 200 and 500 m levels.(2) The average velocity in the observing days is (1.2cm/s,35°) at the 800 m level,I.E.,its direction is northeastward.This means that the flow condition at the 800 m level very differs from that at the 200 and 500 m levels.(3) There is the high density and cold water (HDCW) in the middle of western part of in the investigated region,and its center is located near the hydrological station 3 at Section A.(4) There is the lower density and warm water (LDWW) in the southeastern part of investigated region.(5) The currents in April 2002 are stronger than those in March 2002.The major computed results are as follows:(1) The northwestward and southeastward VTs through Section B are 32.48×106 m3/s (inclusive of VT ofanticyclonic eddy) and 3.34×106 m3/s,respectively.The net northwestward VT through Section B in the investigated area is about 29.14×106 m3/s.(2) The eastern and western VTs through Section A are about 16.71×106 and 8.57×106 m3/s,respectively.Thus,the net eastward VT through Section A is about 8.14×106 m3/s.(3) The net northward VT through Section M is about 24.68×106 m3/s.(4) After about 24.68×106 m3/s flows through Section M,most of it,about 16.54×106 m3/s,flows northward through the eastern part of Section C and then flows northward into the region east Taiwan Island.The other part of it,about 8.14×106 m3/s,branches out from the main Kuroshio and then flows meanderingly through the western part of Section C.Thus,the Kuroshio has the two cores of current at Section C.(5) The direction of the computed current near the mooring station M agrees with the direction of the current measurements at 200 and 500 m from moored current meters,i.e.,their directions both are northwestward.(6) About 3.34×106 m3/s of the South Chin Sea water probably flows slowly from the northwest to the southeast in the layer below 550 m at the western part of Section B.