Mesoscale-eddy-induced variability of flow through the Kerama Gap between the East China Sea and the western North Pacific

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2016 PICES Annual Meeting November 8, 2016 San Diego, CA, USA Mesoscale-eddy-induced variability of flow through the Kerama Gap between the East China Sea and the western North Pacific Hanna Na 1, Jae-Hun Park 2, Mark Wimbush 3, Hirohiko Namakuma 4, Ayako Nishina 4, and Xiao-Hua Zhu 5 1 Korea Institute of Ocean Science and Technology (KIOST), Korea 2 Inha University, Korea, 3 University of Rhode Island, USA 4 Kagoshima University, Japan, 5 Second Institute of Oceanography, China

A frequent PICES meeting attendee as a graduate student 14 th in Vladivostok, Russia (2005); my first international conference 16 th in Victoria, BC, Canada (2007) 18 th in Jeju, Korea (2009) 19 th in Portland, OR, USA (2010) 20 th in Khabarovsk, Russia (2011) 25 th in San Diego, CA, USA (2016)

2016 PICES Annual Meeting November 8, 2016 San Diego, CA, USA Mesoscale-eddy-induced variability of flow through the Kerama Gap between the East China Sea and the western North Pacific Hanna Na 1, Jae-Hun Park 2, Mark Wimbush 3, Hirohiko Namakuma 4, Ayako Nishina 4, and Xiao-Hua Zhu 5 1 Korea Institute of Ocean Science and Technology (KIOST), Korea 2 Inha University, Korea, 3 University of Rhode Island, USA 4 Kagoshima University, Japan, 5 Second Institute of Oceanography, China

Number of eddies (lifetime >= 16 weeks) western North Pacific abundant mesoscale eddies in the midlatitude ocean Chelton s new version of the eddy dataset from the new 22-year AVISO daily SSHa (January 1993 - April 2015) http://wombat.coas.oregonstate.edu/eddies/

Mesoscale eddy variability in the western North Pacific upstream Kuroshio & Ryukyu Current 40 150 day Eddy Kinetic Energy (EKE) from AVISO 7-day interval gridded geostrophic velocity anomalies http://www.aviso.altimetry.fr/en/data/products.html

Outline Large mesoscale eddy variability in the western North Pacific Review of observation-based studies east of Taiwan east of Ryukyu Islands inside the East China Sea Observation at the Kerama Gap 5

Eddy influence on the Kuroshio east of Taiwan 100-day Kuroshio transport & mesoscale eddies current meter array mooring between September 1994 and May 1996 west westward propagation of anticyclonic eddies east On the 100-day timescale, the Kuroshio transport entering the East China Sea is strongly related to meandering of the Kuroshio, which in turn is caused by westward propagating anticyclonic eddies from the interior ocean, the North Pacific Zhang et al. 2001, JPO

Eddy-Kuroshio interaction east of Taiwan dynamical link between variations in pycnocline depth and propagating SSHa; eddy influence is weakened across the Kuroshio PIES mooring from November 2012 to October 2014 lagged correlation between the acoustic travel time and SSHa Tsai et al. 2015, GRL

Eddy influence on the Ryukyu Current PIES and ADCP mooring during November 2000 to August 2001 correlation coefficients between the transport and the SSHA Zhu et al. 2003, GRL; Zhu et al. 2004, JO

Eddy-Ryukyu Current-Kuroshio lag correlation between the Kuroshio and Ryukyu Current C-line: CPIES and ADCP mooring during December 2002 until November 2004 the effect of mesoscale eddies is transmitted to the ECS via the Kerama Gap southwest of Okinawa Andres et al. 2008, JO

Outline Large mesoscale eddy variability in the western North Pacific Review of observation-based studies east of Taiwan east of Ryukyu Islands inside the East China Sea Observation at the Kerama Gap 10

Kerama Gap width: 5o km sill depth: 1050 m, the deepest channel along the Ryukyu Ridgeline SW NE Miyakojima Okinawa Osumi St. East Taiwan Channel Kerama Gap Tokara St.

Mean transports of the Kuroshio/Ryukyu Current System East of Taiwan ECS-Kuroshio (PN-line) Tokara Strait Ryukyu Current Kerama Gap N Kerama Gap:? Andres et al., 2008 E

2-year (June 2009 June 2011) observation across the Kerama Gap Looking into the ECS from the western North Pacific blue: Current Meter (CM) red & magenta: CPIES first direct and continuous observation of the Kerama Gap transport T/V Kagoshima-maru Year 1: Jun 2009 Jun 2010 Year 2: Jun 2010 Jun 2011 red: CPIES (ES1, ES4), 2-year blue: CM (CM1, CM2, CM3), Year 1 (left), Year 2 (right) The University of Rhode Island group was supported by the U.S. Office of Naval Research grant. The Kagoshima University group was supported by JSPS KAKENHI grants.

Mean currents and standard deviation ellipses from Current Meter (CM) measurements Year 1 Year 2 Top ( 500 m) Middle ( 700 m) Bottom ( 1000 m) into the ECS and stronger toward the northeastern side of the Kerama Gap

Time series of volume transport (VT) through the Kerama Gap for 2 years mean: 2.0±0.7 Sv (+: into the ECS) sub-inertial standard deviation: 3.2 Sv (large temporal variability) spectral peak: about 100-day (mesoscale-eddy related)

Composite maps of Sea Level Anomalies (SLA) from satellite altimetry for the 2-year observation period green dots: Kerama Gap high VT (inflow into the ECS): negative sea level anomalies (cyclonic eddies) low VT: positive sea level anomalies (anticyclonic eddies)

2-year observation composites During times of high transport into the ECS currents at 160, 500, and 700 m are all into the ECS.

Lag correlations between Kerama Gap transport and sea level anomalies for the 2-year observation period eddies propagating from the east cyclonic/ anticyclonic eddies Ryukyu VT Kerama Gap VT SLA in the ECS ECS- Kuroshio VT

20-year time series of the Kerama Gap transport [Sv] 20 years 2-year observation period mean 1.5 ±0.2 2.1 ±0.5 standard deviation (7- day interval) 2.6 2.5 near 100-day variance on the mesoscale-eddy related period (40 200 day) exhibits strong interannual to decadal variability

Positive and negative composites of SLA and geostrophic currents (20-year) positive composite negative composite negative sea level anomalies & cyclonic eddies positive sea level anomalies & anticyclonic eddies Although the mesoscale variability exhibits strong interannual to decadal variability, the relationship between the Kerama Gap transport and the eddies is consistent throughout the 20 years.

Outline Large mesoscale eddy variability in the western North Pacific Review of observation-based studies east of Taiwan east of Ryukyu Islands inside the East China Sea Observation at the Kerama Gap 21

Joint Kuroshio and Ryukyu Current System Study (JKRYCSS) Kerama Gap Miyakojima Karoghima-maru cruise mooring arrays of PIES, CPIES, current meters and ADCP to measure the ECS- Kuroshio and the Ryukyu Current simultaneously (June 2015 June 2017)

2016 PICES Annual Meeting November 8, 2016 San Diego, CA, USA Thank you! hanna@kiost.ac.kr; http://hanna-ocean.net Hanna Na 1, Jae-Hun Park 2, Mark Wimbush 3, Hirohiko Namakuma 4, Ayako Nishina 4, and Xiao-Hua Zhu 5 1 Korea Institute of Ocean Science and Technology (KIOST), Korea 2 Inha University, Korea, 3 University of Rhode Island, USA 4 Kagoshima University, Japan, 5 Second Institute of Oceanography, China

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