Browse > Article
http://dx.doi.org/10.5657/fas.2002.5.3.219

Eddy Kinetic Energy in the East Sea Estimated from Topex/Poseidon Altimeter Measurements  

Cho Kwangwoo (Environmental Impact Assessment Division, Korea Environment Institute)
Cho Kyu-Dae (Department of Oceanography, Pukyong National University)
Publication Information
Fisheries and Aquatic Sciences / v.5, no.3, 2002 , pp. 219-228 More about this Journal
Abstract
Based on the five-year (October 1992 through September 1997) Topex/Poseidon altimeter measurements, we describe the statistical characteristics of the eddy variability in the East Sea in terms of sea surface height anomaly, slope variability, and eddy kinetic energy (EKE). The sea surface height anomalies in the East Sea are produced with standard corrections from Topex/Poseidon measurements. In order to eliminate the high frequency noise in the sea surface height anomaly data, the alongtrack height anomaly data was filtered by about 40 km low-pass Lanczos filter based on Strub et al. (1997) and Kelly et a1. (1998). We find that there exists a distinct spatial contrast of high eddy variability in the south and low eddy energy in the north, bordering the Polar Front. In the northwestern area $(north\;of\;39^{\circ}N\;and\;west\;of\;133^{\circ}E)$ from the Polar Front where the eddies frequently appear, the EKE is also considerabel. The high kinetic energy in the southern East Sea reveals a close connection with the paths of the Tsushima Warm Current, suggesting that the high variability in the south is mainly generated by the baroclinic instability process of the Tsushima Warm Current. This finding is supported by other studies (Fu and Zlontnicki, 1989; Stammer, 1997) wh.ch have shown the strong eddy energy coupled in the major current system. The monthly variation of the EKE in both areas of high and low eddy variability shows a strong seasonality of a high eddy kinetic energy from October to February and a relatively low one from March to September. The sequential pattern of wind stress curl shows resemblance with those of monthly and seasonal EKE and the two sequences have a correlation of 0.82 and 0.67, respectively, providing an evidence that wind stress curl can be the possible forcing for the monthly and seasonal variation of the EKE in the East Sea. The seasonality of the EKE also seems to correlate with the seasonality of the Tsushima Warm Current. There also exists the large spatial and interannual variabilities in the EKE.
Keywords
Eddy kinetic energy; Mesoscale eddy; Oceanic variability; Altimeter application; East Sea;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Treguier, A.M. and B.L Hua. 1988. Influence of bottom topography on stratified quasi-geostrophic turbulence in the ocean. J. Astrophys. Fluid Dyn., 43, 265-305   DOI   ScienceOn
2 Wunsch, C. and D. Stammer. 1995. The global frequency-wavenumber spectrum of oceanic variability estimated from Topex/Poseidon altimeter measurements. J. Geophys. Res., 100, 24895-24910   DOI
3 Wyrti, K., L. Magaard and J. Hager. 1976. Eddy energy in the oceans. J. Geophys. Res., 81, 2641-2646   DOI
4 Gasper, P. and F. Ogor. 1996. Estimation and analysis of the sea state bias of the new ERS-l and ERS-2 altimetric data. Technical Report. IFREMER/CLS
5 Isoda, Y. 1994. Warm eddy movements in the eastern Japan Sea. J. Oceanogr., 50, 1-15   DOI
6 Isoda, Y. and S.I. Saitoh. 1993. The northward intruding eddy along the east coast of Korea. J. Oceanogr., 49, 443-458   DOI
7 Jacobs, G.A., PJ. Hogan and K.R. Whitmer. 1999. Effects of eddy variability on the circulation of the Japan/East Sea. J. Oceanogr., 55, 247-256   DOI   ScienceOn
8 Lie, H.J., S.K, Byun, I. Bang and C.H. Cho. 1995. Physical structure of eddies in the southwestern East Sea. J. Korean Soc. Oceanogr., 30, 170-183
9 Kelly, KA., R.C.'Beardsley, R. Limeburner and K.H. Brink. 1998. Variability of the near-surface eddy kinetic energy in the California Current based on altimetric, drifter, and moored current meter. J. Geophys. Res., 103, 13067- 13083   DOI
10 McWilliams, J.C. 1983. The local dynamics of eddies in the western North Atlantic: Eddies in Marine Science. Sprihger-Verlag, 609pp
11 Muller, P. and C. Frankignoul. 1981. Direct atmospheric forcing of geostrophic eddies. J. Phys. Oceanogr., 11, 287-308   DOI
12 PO.DAAC. 1997. Merged GDR B (Topex/Poseidon) User's Handbook, JPL, USA, 124pp
13 Richardson, P.L. 1983. Eddy kinetic energy in the North Atlantic from surface drifters. J. Geophys. Res., 88, 4355-4367   DOI
14 Richman, J.G., C. Wunsch and N.G. Hogg. 1977. Space and time scales and mesoscale motion in the sea. Rev. Geophys., 15, 385-420   DOI
15 AVISO. 1997. AVISO-Handbook Sea Level Anomalies AVI-NT-011-312-CN, Edition 3.0, CLS, France, 24pp
16 Cartwright, D.E. and R.J. Tayler. 1971. New computations of the tide-generating potential. Geophys. J. R. Astr. Soc., 33, 253-264
17 Chelton, D.B. 1988. WOCE/NASA altimeter Algorithm Workshop, U.S. WOCE Technical Report Number 2, U.S. Planning Office for WOCE, College Station, TX, USA, 70 pp
18 Eanes, R.J. and S.V. Bettadpur. 1995. The CSR 3.0 global ocean tide model. CSR-TM-95-06. Center for Space research, Univ. of Texas at Austin
19 Fu,L.-L., E.J. Christensen, C.A. Yamarone, M. Lefebvre, Y. Menard, M. Dorrer and P. Escudier. 1994. Topex/Poseidon mission overview. J. Geophys. Res., 99, 24369-24382   DOI
20 Fu,L.-L. and R.A. Davidson. 1995. A note on the barotropic response of sea level to time-dependent wind forcing. J. Geophys. Res., 100, 24955-24964   DOI
21 Fu, L.-L. and V. Zlontnicki. 1989. Observing ocean mesoscale eddies from Geosat altimetry: Preliminary results. Geophys. Res. Lett., 16, 457-460   DOI
22 Strub, P.T., T.K. Chereskin, P.P. Niiler, C. James and M.D. Levine. 1997. Altimeter-derived variability of surface velocities in the California Current System, 1, Evaluation of Topex altimeter velocity resolution. J. Geophys. Res., 102, 12727-12748   DOI
23 Zlontnicki, V., L.-L. Fu and W. Patzert 1989. Seasonal variability in global sea level observed with Geosat altimetry. J. Geophys. Res., 94, 17959-17969   DOI
24 Robinson, A.R. 1993. Eddies in Marine Science. Springer-Verlag, 609pp
25 Shin, H.R., S.K. Byun, C. Dim, S. Hwang and C.W. Shin. 1995. The characteristics of structure of warm eddy observed to the northwest of Ullung in 1992. J. Korean Soc. Oceanogr., 30, 39-56
26 Stammer, D. 1997. Global characteristics of ocean variability estimated from regional Topex/Poseidon altimeter measurements. J. Phys. Oceanogr., 27, 1743-1769   DOI   ScienceOn
27 Stammer, D. and C. Wunsch. 1994. Preliminary assessment of the accuracy and precision of Topex/Poseidon altimeter data with respect to the large scale ocean circulation. J. Geophys. Res., 99, 24584-24604   DOI
28 Toba, Y., H. Kawamura, F. Yamashita and K. Hanawa. 1984. Structure of horizontal turbulence in the Japan Sea. pp. 317-332. In Ocean Hydrodynamics of the Japan and East China Seas, ed. by T. Ichiye, Elsevier, Amsterdam