Your search keyword '"Dunxin Hu"' showing total 28 results

1. The North Equatorial Current/Undercurrent volume transport and its 40-day variability from a mooring array along 130°E

Author

Junqiao Feng, Dunxin Hu, Xin Yuan, and Qingye Wang

Subjects

Current (stream), Volume (thermodynamics), Anomaly (natural sciences), Wind field, Madden–Julian oscillation, Oceanography, Mooring, Observation data, Atmospheric sciences, Geology, Geostrophic wind, Water Science and Technology

Abstract

Traditionally, the estimated volume transport of the North Equatorial Current/Undercurrent (NEC/NEUC) is based on geostrophic equations and/or model results; however, direct observational evidence has not been acquired. We focused on one-year mooring observation data collected along 130°E and calculated the NEC/NEUC volume transport and explore its variability. Results show that the mean NEC and NEUC volume transports calculated from the mean velocity structures in the upper 950 m are 39 Sv and 6 Sv, respectively. Analysis of daily mooring data indicated that the volume transport of the NEC is approximately 52 (±14) Sv and the volume transport of the NEUC is approximately 18 (±13) Sv. A significant 40-day variation existed for the volume transport of both the NEC and NEUC. Overall, the intraseasonal variability (ISV) of the NEC is vertically coherent with that of the NEUC. Observations indicated that the NEUC has three cores centered at approximately 8.5°N (∼500 m), 12.5°N (∼700 m), and 17.5°N (∼900 m), of which the middle core (12.5°N) is the strongest. The 40-day variability of the NEC and NEUC is related to the variability of local wind stress curl anomalies among various Madden-Julian Oscillation (MJO) phases. When local wind field generates a negative (positive) wind stress curl anomaly, a weaker NEC (NEUC) and stronger NEUC (NEC) would occur.

Published

2021

2. Spatial distribution of the seasonal variability of the North Equatorial Current

Author

Dunxin Hu, Linlin Zhang, Junqiao Feng, Shijian Hu, Fujun Wang, and Qingye Wang

Subjects

Current (stream), Climatology, Anomaly (natural sciences), Rossby wave, Zonal and meridional, Sea-surface height, Aquatic Science, Oceanography, Mooring, Spatial distribution, Geology, Latitude

Abstract

The seasonal variability of the North Equatorial Current (NEC) is investigated with four moorings at 10.5°N, 13°N, 15.5°N, and 18°N along 130°E from September 2014 to September 2015 and five moorings at 8.5°N, 11°N, 12.5°N, 15°N and 17.5°N along 130°E collected during 2016 and 2017 cruises. Generally, the mooring data shows that the NEC is strongest during boreal spring and summer and weakest in autumn for the stations located at 8.5°N, 10.5°N, 11°N, 12.5°N, 13°N, 17.5°N and 18°N, but the seasonal phase is almost reversed at 15°N and 15.5°N. In the area east of 140°E and north of 10°N, as the seasonal cycle of the wind stress curl anomaly is almost identical at different latitudes, the Rossby waves play a dominant role in the spatial distribution of the seasonal NEC. As the latitude increases, the rate of decrease in the propagation speed of Rossby waves becomes slower, resulting that the delay of the seasonal sea surface height anomaly (SSHa) tends to be smaller. In the area east of 140°E and between 5°N and 10°N, the seasonal phase of SSHa is delayed more rapidly than that in the south of 5°N, which is the result of local wind and Rossby waves. In the area west of 140°E and from 7°N to 15°N, the seasonal phase of the wind stress curl anomaly advances sharply with increasing latitude, corresponding well to the meridional phase advance of the seasonal SSHa and surface NEC, suggesting that the local wind plays a dominant role.

Published

2019

3. Decadal variations of the transport and bifurcation of the Pacific North Equatorial Current

Author

Fangguo Zhai, Dunxin Hu, and Peiliang Li

Subjects

Tropical pacific, 010504 meteorology & atmospheric sciences, 010505 oceanography, Anomaly (natural sciences), Sea-surface height, Oceanography, 01 natural sciences, Latitude, Current (stream), Climatology, Cyclonic gyre, Bifurcation, Pacific decadal oscillation, Geology, 0105 earth and related environmental sciences

Abstract

Decadal variations of the transport and bifurcation latitude of the North Equatorial Current (NEC) in the northwestern tropical Pacific Ocean over 1959–2011 are investigated using outputs of the Ocean Analysis/Reanalysis System 3 prepared by the European Centre for Medium-Range Weather Forecasts. The results indicate that the NEC transports at different longitudes have different decadal fluctuations, which are strongest around 139°E. The NEC bifurcation latitude (NBL) has its largest decadal variations around 150 m. Extremes of the decadal NEC transport and NBL before 1975 correspond to different circulation anomalies from those after 1975. The regression map against decadal NBL exhibits negative sea surface height (SSH) anomalies and a cyclonic gyre anomaly over the northwestern tropical Pacific Ocean, while that against the decadal NEC transport exhibits a dipole structure, with positive/negative SSH anomalies to the north/south of about 13°N. Furthermore, decadal variations of the NEC transport and NBL over the whole period have different correlations with Pacific Decadal Oscillation (PDO) and Tropical Pacific Decadal Variability (TPDV). Generally, the decadal NEC transport shows higher correlations with PDO than with TPDV, while the NBL has higher correlations with TPDV than with PDO. The high correlation of decadal NEC transport with PDO mainly comes from that of its northern branch with PDO, while its southern branch shows higher correlation with TPDV.

Published

2017

4. The vertical structure and variability of the western boundary currents east of the Philippines: case study from in situ observations from December 2010 to August 2014

Author

Fangguo Zhai, Dunxin Hu, Shijian Hu, Fujun Wang, Linlin Zhang, and Qingye Wang

Subjects

010504 meteorology & atmospheric sciences, 010505 oceanography, Baroclinity, Zonal and meridional, Oceanography, Mooring, 01 natural sciences, Boundary current, Current (stream), Amplitude, Acoustic Doppler current profiler, Climatology, Altimeter, Geology, 0105 earth and related environmental sciences

Abstract

In this work, the vertical structure and variability along the western boundary of the Philippines are investigated using direct observations from acoustic Doppler current profiler (ADCP), Doppler volume sampler (DVS) and Aanderaa Seaguard instruments, which are mounted on a subsurface mooring deployed at 8°N, 127°3′E. In climatology, the southward Mindanao Current (MC) and northward Mindanao Undercurrent (MUC) play a dominant role in the upper layer. The mean currents at 1200 and 3500 m flow northward, whereas those at 2500 and 5600 m flow equatorward. The power spectral density (PSD) shows that an intraseasonal signal of 60–80 days is common from the sea surface to the bottom. The semiannual signals are strongest in the MUC layer, and the amplitude then decreases with depth to 3500 m. The seasonal variability at 2500 and 5600 m is similar between the two depths, suggesting a southward current in winter and northward flow in autumn. The current at 3500 m exhibits a northward direction in spring and southward flow in winter. In addition, the linear correlations between mooring data and altimetry products indicate that the variations in surface meridional currents along the western boundary of the Pacific Ocean can reach the bottom via low-frequency processes. The vertical-mode decomposition for observations indicates that the first four modes can effectively capture the original data. The relative contributions of different modes exhibit seasonal variability. The first baroclinic mode plays a dominant role in spring and autumn. In winter and summer, its contribution decreases and becomes comparable to that of the other modes.

Published

2017

5. Semiannually alternating exchange of intermediate waters east of the Philippines

Author

Pengfei Lin, Yuanlong Li, Dongxiao Zhang, Guang Yang, Chuanyu Liu, Jun Zhao, Xinyuan Diao, Jianing Wang, Fan Wang, Dunxin Hu, and Lina Song

Subjects

Tropical pacific, 010504 meteorology & atmospheric sciences, 010505 oceanography, Mooring system, Ocean general circulation model, Water exchange, 01 natural sciences, Boundary current, Salinity, Current (stream), Geophysics, Oceanography, Meridional flow, Climatology, General Earth and Planetary Sciences, Geology, 0105 earth and related environmental sciences

Abstract

Intermediate water exchange in the northwest tropical Pacific is explored with the temperature, salinity, and current measurements of a mooring system deployed at 8 degrees N, 127.05 degrees E during 2010-2014. For the first time, prominent semiannual variability (SAV; with the maximum power at similar to 187days) of subthermocline meridional flow along the Mindanao coast is revealed. A significant correlation between meridional flow and salinity is found at intermediate depths. This provides direct evidence for the alternating transports of South Pacific and North Pacific Intermediate Waters by northward and southward undercurrents, respectively. Further analysis with an eddy-resolving ocean general circulation model demonstrates that the SAV is generated locally near the western boundary, manifesting as large-scale subthermocline recirculation and leading to alternating northward and southward flows near the Mindanao coast, which plays an efficient role in the intermediate water exchange of the northwest tropical Pacific. Mechanisms underlying the observed SAV are discussed.

Published

2016

6. Seasonal variability of the Mindanao Current determined using mooring observations from 2010 to 2014

Author

Fangguo Zhai, Shijian Hu, Fujun Wang, Dunxin Hu, and Qingye Wang

Subjects

010504 meteorology & atmospheric sciences, 010505 oceanography, Anomaly (natural sciences), Rossby wave, Seasonality, Oceanography, Mooring, medicine.disease, 01 natural sciences, Current (stream), Acoustic Doppler current profiler, Meridional flow, Climatology, medicine, East Asian Monsoon, Geology, 0105 earth and related environmental sciences

Abstract

A mooring was deployed east of Mindanao Island at 8°N, 127°3′E from December 2010 to August 2014 to collect direct measurements of the Mindanao Current (MC). The Acoustic Doppler Current Profiler (ADCP) fixed on the main float shows that the MC is a strong and stable southward flow with a standard deviation less than 21 cm/s in the upper 500 m. The core flows between depths of 50 and 100 m with a maximum mean speed of 78 cm/s at 100 m. The seasonal variability of MC varies interannually and is depth-dependent. Although it takes a double-peak structure in the upper 200 m with two maxima in April and June and one minimum in October, the MC velocity has its maximum during boreal summer (June) and a minimum in autumn (September) when a 100-day low-pass filter is applied to remove intraseasonal signals. The semiannual signals are mainly limited between 200 and 350 m. The Asian monsoon intensifies the wind-driven sea-surface height anomaly (SSHA) east of Mindanao Island, and the resulting sharp slope induces meridional flow with large variability. Rossby waves and the boundary effect weaken the contribution of wind, stabilizing the flow of MC. The MC is determined by the zonal gradient of the SSHA rather than the SSHA itself, suggesting a possible inconsistency in seasonality between the Mindanao Eddy (ME) and MC. The semiannual ME signal plays an important role in the seasonal variability of MC.

Published

2016

7. Interannual Variability of the Mindanao Current/Undercurrent in Direct Observations and Numerical Simulations

Author

Fan Wang, Cong Guan, Fujun Wang, Shijian Hu, Qingye Wang, Dunxin Hu, and Linlin Zhang

Subjects

010504 meteorology & atmospheric sciences, 010505 oceanography, Anomaly (natural sciences), Rossby wave, Oceanography, Mooring, 01 natural sciences, Pacific ocean, Boundary current, Current (stream), Acoustic Doppler current profiler, Climatology, Ekman transport, Geology, 0105 earth and related environmental sciences

Abstract

The interannual variability of the boundary currents east of the Mindanao Island, including the Mindanao Current/Undercurrent (MC/MUC), is investigated using moored acoustic Doppler current profiler (ADCP) measurements combined with a series of numerical experiments. The ADCP mooring system was deployed east of the Mindanao Island at 7 degrees 59 ' N, 127 degrees 3 ' E during December 2010-August 2014. Depth-dependent interannual variability is detected in the two western boundary currents: strong and lower-frequency variability dominates the upper-layer MC, while weaker and higher-frequency fluctuation controls the subsurface MUC. Throughout the duration of mooring measurements, the weakest MC was observed in June 2012, in contrast to the maximum peaks in December 2010 and June 2014, while in the deeper layer the MUC shows speed peaks circa December 2010, January 2011, April 2013, and July 2014 and valleys circa June 2011, August 2012, and November 2013. Diagnostic analysis and numerical sensitivity experiments using a 2.5-layer reduced-gravity model indicate that wind forcing in the western Pacific Ocean is a driving agent in conditioning the interannual variability of MC and MUC. Results suggest that westward-propagating Rossby waves that generate in the western Pacific Ocean (roughly 150 degrees-180 degrees E) are of much significance in the interannual variability of the two boundary currents. Fluctuation of Ekman pumping due to local wind stress curl anomaly in the far western Pacific Ocean (roughly 120 degrees-150 degrees E) also plays a role in the interannual variability of the MC. The relationship between the MC/MUC and El Nino is discussed.

Published

2016

8. Interannual variations of North Equatorial Current transport in the Pacific Ocean during two types of El Niño

Author

Guoli Wu, Dunxin Hu, and Fangguo Zhai

Subjects

geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, 010505 oceanography, Anomaly (natural sciences), Rossby wave, Sea-surface height, Oceanography, 01 natural sciences, Current (stream), El Niño, Ocean gyre, Climatology, Ekman transport, Upwelling, Geology, 0105 earth and related environmental sciences, Water Science and Technology

Abstract

Interannual variations of Pacific North Equatorial Current (NEC) transport during eastern-Pacific El Ninos (EP-El Ninos) and central-Pacific El Ninos (CP-El Ninos) are investigated by composite analysis with European Centre for Medium-Range Weather Forecast Ocean Analysis/Reanalysis System 3. During EP-El Nino, NEC transport shows significant positive anomalies from the developing to decay phases, with the largest anomalies around the mature phase. During CP-El Nino, however, the NEC transport only shows positive anomalies before the mature phase, with much weaker anomalies than those during EP-El Nino. The NEC transport variations are strongly associated with variations of the tropical gyre and wind forcing in the tropical North Pacific. During EP-El Nino, strong westerly wind anomalies and positive wind stress curl anomalies in the tropical North Pacific induce local upward Ekman pumping and westward-propagating upwelling Rossby waves in the ocean, lowering the sea surface height and generating a cyclonic gyre anomaly in the western tropical Pacific. During CP-El Nino, however, strength of the wind and associated Ekman pumping velocity are very weak. Negative sea surface height and cyclonic flow anomalies are slightly north of those during EP El Nino.

Published

2015

9. Strengthening <scp>K</scp> uroshio observed at its origin during <scp>N</scp> ovember 2010 to <scp>O</scp> ctober 2012

Author

Zhaohui Chen, Bo Qiu, Fan Jia, Lei Li, Lixin Wu, Xi Liang, Dunxin Hu, and Chengyan Liu

Subjects

Isopycnal, Reduced Gravity, Ocean current, Sea-surface height, Oceanography, Observational period, Current (stream), Salinity, Geophysics, Space and Planetary Science, Geochemistry and Petrology, Climatology, Earth and Planetary Sciences (miscellaneous), Geology, Wind forcing

Abstract

Direct measurements of Kuroshio at its origin (18 degrees N, east of the Luzon Island) are conducted from November 2010 to October 2012. It is found that the depth-averaged Kuroshio between 200 and 700 m has increased over 15 cm s(-1) during the 2 year observational period and it is accompanied by the pronounced southward shift of the North Equatorial Current (NEC) bifurcation. Further analysis indicates that the Kuroshio's strengthening is confined to the upstream segment east of the Luzon Island while the Kuroshio decreased as it passed the Luzon Strait due to a dipole-like sea surface height (SSH) trend between 15 degrees N and 23 degrees N. It is demonstrated that the 2 year strengthening of the Kuroshio, as well as the dipole-like SSH trend can be adequately reproduced by a 1.5 layer nonlinear reduced gravity model, suggesting an important role of upper ocean response to low-frequency wind forcing in the western Pacific. Salinity at 500 m depth is also found to increase during the concurrent 2 years. This subthermocline salinity increase is a combined outcome of vertical (basin-scale isopycnal surface movement) and horizontal advections (i.e., strengthened Kuroshio) due to changes in the large-scale wind-driven ocean circulation.

Published

2015

10. Structure and Variability of the North Equatorial Current/Undercurrent from Mooring Measurements at 130°E in the Western Pacific

Author

Dunxin Hu, Fan Wang, Linlin Zhang, Shijian Hu, Fujun Wang, and Qingye Wang

Subjects

Current (stream), Multidisciplinary, Oceanography, 010504 meteorology & atmospheric sciences, 010505 oceanography, Mooring, 01 natural sciences, Geology, Article, 0105 earth and related environmental sciences, Latitude

Abstract

The mean structure and variability of the North Equatorial Current/Undercurrent (NEC/NEUC) are investigated with one-year Acoustic Doppler Current Profilers measurements from 4 subsurface moorings deployed at 10.5°N, 13°N, 15.5°N, and 18°N along 130°E in the western Pacific. The strong westward flowing NEC ranges from the sea surface down to 400 m, and the mean zonal velocity of the NEC at 10.5°N is around −30 cm/s at the depth of 70 m. Eastward flowing NEUC jets are detected below the NEC at 10.5°N and 13°N, and the depth of the NEUC could reach at least 900 m. The mean velocity of the NEUC is around 4.2 cm/s at 800 m. No eastward undercurrents are observed at 15°N and 18°N. The mooring measurements also reveal a strong intraseasonal variability of the currents at all 4 mooring sites, and the period is around 70–120 days. The vertical structure of this intraseasonal variability varies at different latitudes. The variability of the NEUC jets at 10.5°N and 13°N appears to be dominated by subthermocline signals, while the variability of the currents at 15.5°N and 18°N is dominated by surface-intensified signals.

Published

2017

11. Intraseasonal variability of the subthermocline current east of Mindanao

Author

Fujun Wang, Fangguo Zhai, Dunxin Hu, and Qingye Wang

Subjects

New guinea, Zonal and meridional, Oceanography, Mooring, Boundary current, Latitude, Current (stream), Geophysics, Eddy, Space and Planetary Science, Geochemistry and Petrology, Climatology, Earth and Planetary Sciences (miscellaneous), Thermocline, Geology

Abstract

The intraseasonal variability (ISV) of the subthermocline current east of Mindanao was characterized and shown to be caused by the activity of subthermocline eddies using mooring observations at 8 degrees N, 127.03 degrees E and a high-resolution numerical model. The ISV of the observed current east of Mindanao is vertically coherent in the upper 940 m but is significantly intensified below the thermocline. The ISV amplitude (8 cm s(-1)) of zonal subthermocline current is comparable with that (11 cm s(-1)) of the meridional current, revealing the nature of active eddies. The ISV of the subthermocline current was caused by the subthermocline eddies from three different pathways. The subthermocline eddies propagating along approximately 10 degrees N-11 degrees N contributed more to the ISV of the subthermocline current east of Mindanao than did those eddies propagating westward along 8 degrees N or northwestward from the New Guinea coast. Subthermocline eddies mainly exist south of the bifurcation latitude of the North Equatorial Current in the western tropical Pacific, and their generation and propagation mechanisms are briefly discussed.

Published

2014

12. Variability of the Pacific North Equatorial Current from repeated shipboard acoustic Doppler current profiler measurements

Author

Dunxin Hu and Shijian Hu

Subjects

Current (stream), La Niña, Ekman layer, Acoustic Doppler current profiler, El Niño Southern Oscillation, Correlation coefficient, Oscillation, Climatology, Wind stress, Oceanography, Geology

Abstract

Interannual variability and 16-year trend of the Pacific North Equatorial Current (NEC) are examined using repeated shipboard acoustic Doppler current profiler (SAD-CP) measurements in the upper 200-mlayer along 137 degrees E from 1993 until 2008 and compared with previous results inferred from hydrological and satellite data. Interannual variability of the NEC is prominent and tied to the Nino 3.4 index but lags the latter by 6 months. We find that the average NEC transport under El Nino conditions is 68 Sv and greater than that under La Nina conditions (59 Sv). Their relationship, however, involves decadal difference: the correlation coefficient is statistically significant between 2000 and 2008, but non-significant during 1993-1999. Composite analysis suggests that the change of wind response to El Nino-Southern Oscillation (ENSO) from the 1990s to 2000s might account for the difference in NEC-ENSO relationships between the past two decades. We also find that the NEC transport has intensified in the past 16 years and present the vertical structure of the NEC trend. But it is shown that the NEC enhancement is slightly canceled by the anomalous eastward Ekman current in the Ekman layer due to the strengthened northward wind stress above the NEC. Possible uncertainties related to the resolution of the data are discussed.

Published

2014

13. Observation of the abyssal western boundary current in the Philippine Sea

Author

Qingye Wang, Dunxin Hu, Fangguo Zhai, and Xiaogang Guo

Subjects

Zonal and meridional, Seasonality, Oceanography, Mooring, medicine.disease, Boundary current, Abyssal zone, Current (stream), medicine, Mean flow, Clockwise, Geology, Water Science and Technology

Abstract

Mooring observations were conducted from July 16, 2011 to March 30, 2012 east of Mindanao, Philippines (127A degrees 2.8'E, 8A degrees 0.3'N) to observe the abyssal current at about 5 600 m deep and 500 m above the ocean bottom. Several features were revealed: 1) the observed abyssal current was highly variable with standard deviations of 57.3 mm/s and 34.0 mm/s, larger than the mean values of -31.9 and 16.6 mm/s for the zonal and meridional components, respectively; 2) low-frequency current longer than 6 days exhibited strong seasonal variation, flowing southeastward (mean flow direction of 119.0A degrees clockwise from north) before about October 1, 2011 and northwestward (mean flow direction of 60.5A degrees counter-clockwise from north) thereafter; 3) the high-frequency flow bands were dominated by tidal currents O-1, K-1, M-2, and S-2, and near-inertial currents, whose frequencies were higher than the local inertial frequency. The two diurnal tidal constituents were much stronger than the two semidiurnal ones. This study provides for the first time an observational insight into the abyssal western boundary current east of Mindanao based on long-term observations at one site. It is meaningful for further research into the deep and abyssal circulation over the whole Philippine Sea and the 3D structure of the western boundary current system in this region. More observational and high-resolution model studies are needed to examine the spatial structure and temporal variation of the abyssal current over a much larger space and longer period, their relation to the upper-layer circulation, and the underlying dynamics.

Published

2014

14. Variations of Luzon Undercurrent from observations and numerical model simulations

Author

Qingye Wang, Fangguo Zhai, and Dunxin Hu

Subjects

East coast, Ocean current, Seasonality, Oceanography, medicine.disease, Current (stream), Geophysics, Eddy, Boreal, Space and Planetary Science, Geochemistry and Petrology, Anticyclone, Climatology, Earth and Planetary Sciences (miscellaneous), medicine, Geology, Kuroshio current

Abstract

Significant intraseasonal variability (ISV) of about 45-80 days and seasonal variation of the Luzon Undercurrent (LUC) at 18 degrees N are studied using direct current measurements and a high-resolution global Hybrid Coordinate Ocean Model. The variations of the LUC are vertically coherent with those of Kuroshio Current both on intraseasonal and seasonal time scales. The ISV of the LUC is dominated by eddies with diameters of about 200-300 km and extending from sea surface to intermediate layer east of Luzon Island. The LUC becomes strong (weak) when cyclonic (anticyclonic) eddies occur. The eddies east of Luzon Island mainly originate from the bifurcation point (similar to 13 degrees N) of the North Equatorial Current. These eddies propagate northwestward at a typical propagation speed of about 0.16 m s(-1) along the east coast of Philippines, gradually strengthen and pass the Luzon coast, and continue northward to Luzon strait. On seasonal time scale, the LUC is strong (weak) in boreal winter (summer), and this variation is related to the seasonal evolution of large-scale ocean circulation east of Philippines mainly controlled by local wind forcing.

Published

2014

15. Mindanao Current/Undercurrent measured by a subsurface mooring

Author

Fan Wang, Fujun Wang, Dunxin Hu, Dongliang Yuan, Linlin Zhang, and Shijian Hu

Subjects

Oceanography, Mooring, Standard deviation, Current (stream), Geophysics, Water column, Eddy, Space and Planetary Science, Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous), Mean flow, Hydrography, Geology

Abstract

The mean structure and variability of the currents east of Mindanao are investigated through 2 year mooring observations at about 8 degrees N, 127 degrees 3' E from December 2010 to December 2012. The strong southward Mindanao Current (MC) exists in the upper 600 m with a maximum mean velocity of 73 cm/s and a standard deviation of 17 cm/s at 100 m. A northward mean flow is observed below 600 m to the depth deeper than 1000 m, which has been called the Mindanao Undercurrent (MUC) with a maximum mean velocity of about 10 cm/s at 950 m and a standard deviation of 19 cm/s. Further analysis with hydrographic data and an eddy-resolving model outputs also suggests this northward mean current to be the MUC. Intraseasonal variability with a period of 60-80 days is revealed through the whole water column from 200 m down to about 900 m. This intraseasonal variability appears to be closely related to subthermocline eddies, which translate westward and intensify near the Mindanao coast.

Published

2014

16. Long-term trend of Pacific South Equatorial Current bifurcation over 1950-2010

Author

Fangguo Zhai, Dunxin Hu, Qingye Wang, and Fujun Wang

Subjects

Current (stream), Geophysics, Reduced Gravity, Long term trend, Oceanography, Simple Ocean Data Assimilation, Climatology, Coral sea, General Earth and Planetary Sciences, Magnitude (mathematics), Bifurcation, Geology, Latitude

Abstract

This study investigates the long-term change of the Pacific South Equatorial Current (SEC) bifurcation latitude (SBL) over 1950-2010 with Simple Ocean Data Assimilation version 2.2.4. Results indicate that the SBL averaged within upper 200 m has migrated southward at 0.020 degrees S yr(-1), comparable in magnitude with -0.024 degrees N yr(-1) for the North Equatorial Current bifurcation latitude (NBL). The SEC transport into the Coral Sea has increased. Due to the southward SBL migration, most of the increased SEC water was transported equatorward, contributing to the Equatorial Undercurrent intensification. Experiments with a nonlinear 1.5 layer reduced gravity model indicate that the southward migration of SBL is mainly caused by positive Ekman flux divergence trend in the eastern tropical South Pacific, while that of NBL is caused by negative Ekman flux divergence trend in the western tropical North Pacific.

Published

2014

17. Seasonal variability of the North Equatorial Current transport in the western Pacific Ocean

Author

Fangguo Zhai, Qingxun Yan, and Dunxin Hu

Subjects

Current (stream), Vorticity equation, Climatology, Ekman transport, Rossby wave, Magnitude (mathematics), Oceanography, Annual cycle, Maxima, Geostrophic wind, Geology, Water Science and Technology

Abstract

Seasonal variability of the North Equatorial Current (NEC) transport in the western Pacific Ocean is investigated with ECMWF Ocean Analysis/Reanalysis System 3 (ORA-S3). The result shows that NEC transport (NT) across different longitudes in the research area shows a similar double-peak structure, with two maxima (in summer and winter), and two minima (in spring and autumn). This kind of structure can also be found in NEC geostrophic transport (NGT), but in a different magnitude and phase. These differences are attributable to Ekman transport induced by the local meridional wind and transport caused by nonzero velocity at the reference level, which is assumed to be zero in the NGT calculation. In the present work, a linear vorticity equation governing a 1.5-layer reduced gravity model is adopted to examine the dynamics of the seasonal variability of NGT. It is found that the annual cycle of NGT is mainly controlled by Ekman pumping induced by local wind, and westward-propagating Rossby waves induced by remote wind. Further research demonstrates that the maximum in winter and minimum in spring are mostly attributed to wind east of the dateline, whilst the maximum in summer and minimum in autumn are largely attributed to that west of the dateline.

Published

2013

18. Direct Measurements of the Luzon Undercurrent

Author

Lixin Wu, Linlin Zhang, Dongliang Yuan, Lei Li, Dunxin Hu, Xinyuan Diao, Yuanlong Li, Fan Wang, Zhaohui Chen, and Shijian Hu

Subjects

Ocean current, Seasonality, Oceanography, medicine.disease, Mooring, Current (stream), Acoustic Doppler current profiler, Eddy, Climatology, medicine, Hydrography, Geology, Geostrophic wind

Abstract

The Luzon Undercurrent (LUC) was discovered about 20 years ago by geostrophic calculation from conductivity–temperature–depth (CTD) data. But it was not directly measured until 2010. From November 2010 to July 2011, the LUC was first directly measured by acoustic Doppler current profiler (ADCP) from a subsurface mooring at 18.0°N, 122.7°E to the east of Luzon Island. A number of new features of the LUC were identified from the measurements of the current. Its depth covers a range from 400 m to deeper than 700 m. The observed maximum velocity of the LUC, centered at about 650 m, could exceed 27.5 cm s−1, four times stronger than the one derived from previous geostrophic calculation with hydrographic data. According to the time series available, the seasonality of the LUC strength is in winter > summer > spring. Significant intraseasonal variability (ISV; 70–80 days) of the LUC is exposed. Evidence exists to suggest that a large portion of the intraseasonal variability in the LUC is related to the westward propagation of mesoscale eddies from the east of the mooring site.

Published

2013

19. A time-dependent baroclinic model on NEC bifurcation

Author

Dunxin Hu and Fujun Wang

Subjects

Current (stream), Position (vector), Climatology, Barotropic fluid, Baroclinity, Physics::Space Physics, Oceanography, Physics::Atmospheric and Oceanic Physics, Geology, Bifurcation, Physics::Geophysics, Water Science and Technology, Latitude

Abstract

As it is well-known, the North Equatorial Current (NEC) bifurcates into the Kuroshio flowing northward and the equatorward Mindanao Current, which is well depicted by Munk’s theory in 1950 in terms of its climatology. However, Munk’s theory is unable to tell the NEC bifurcation variability with time. In the present paper, a time-dependent baroclinic model forced by wind, in which temporal and baroclinic terms are added to Munk’s equation, is proposed to examine the seasonal variability of the NEC bifurcation latitude. An analytical solution is obtained, with which the seasonal variability can be well described: NEC bifurcation reaches its northernmost position in December and its southernmost position in June with a range of about 1° in latitude, consistent with previous results with observations. The present solution will degenerate to Munk’s one in the case of steady and barotropic state.

Published

2012

20. Interannual variability of transport and bifurcation of the North Equatorial Current in the tropical North Pacific Ocean

Author

Dunxin Hu and Fangguo Zhai

Subjects

geography, geography.geographical_feature_category, Anomaly (natural sciences), Sea-surface height, Oceanography, Latitude, Current (stream), Geostrophic current, La Niña, Ocean gyre, Anticyclone, Climatology, Geology, Water Science and Technology

Abstract

The relationship of the interannual variability of the transport and bifurcation latitude of the North Equatorial Current (NEC) to the El Nino-Southern Oscillation (ENSO) is investigated. This is done through composite analysis of sea surface height (SSH) observed by satellite altimeter during October 1992–July 2009, and correspondingly derived sea surface geostrophic currents. During El Nino/La Nina years, the SSH in the tropical North Pacific Ocean falls/rises, with maximum changes in the region 0–15°N, 130°E–160°E. The decrease/increase in SSH induces a cyclonic/anticyclonic anomaly in the western tropical gyre. The cyclonic/anticyclonic anomaly in the gyre results in an increase/decrease of NEC transport, and a northward/southward shift of the NEC bifurcation latitude near the Philippine coast. The variations are mainly in response to anomalous wind forcing in the west-central tropical North Pacific Ocean, related to ENSO events.

Published

2012

21. A quasi-synoptic interpretation of water mass distribution and circulation in the western North Pacific II: Circulation

Author

Dunxin Hu, Fan Wang, Jiwei Tian, and Lingling Xie

Subjects

Current (stream), Water mass, Oceanography, Circulation (fluid dynamics), Cyclonic eddies, Deep sea, Geology, Water Science and Technology, Boundary current

Abstract

Using the data of conductivity-temperature-depth (CTD) intensive observations conducted during Oct.-Nov. 2005, this study provides the first three-dimension quasi-synoptic description of the circulation in the western North Pacific. Several novel phenomena are revealed, especially in the deep ocean where earlier observations were very sparse. During the observations, the North Equatorial Current (NEC) splits at about 12A degrees N near the sea surface. This bifurcation shifts northward with depth, reaching about 20A degrees N at 1 000 m, and then remains nearly unchanged to as deep as 2 000 m. The Luzon Undercurrent (LUC), emerging below the Kuroshio from about 21A degrees N, intensifies southward, with its upper boundary surfacing around 12A degrees N. From there, part of the LUC separates from the coast, while the rest continues southward to join the Mindanao Current (MC). The MC extends to 2 000 m near the coast, and appears to be closely related to the subsurface cyclonic eddies which overlap low-salinity water from the North Pacific. The Mindanao Undercurrent (MUC), carrying waters from the South Pacific, shifts eastward upon approaching the Mindanao coast and eventually becomes part of the eastward undercurrent between 10A degrees N and 12A degrees N at 130A degrees E. In the upper 2 000 dbar, the total westward transport across 130A degrees E between 7.5A degrees N and 18A degrees N reaches 65.4 Sv (1 Sv = 10(-6) m(3)s(-1)), the northward transport across 18A degrees N from Luzon coast to 130A degrees E is up to 35.0 Sv, and the southward transport across 7.5A degrees N from Mindanao coast to 130A degrees E is 27.9 Sv.

Published

2009

22. Bifurcation of Pacific North Equatorial Current at the surface

Author

Qingye Wang, Shuwen Zhang, RuiXue Cao, and Dunxin Hu

Subjects

Current (stream), Amplitude, Wind stress curl, Climatology, General Earth and Planetary Sciences, Empirical orthogonal functions, Altimeter, Variation (astronomy), Geology, Bifurcation, Latitude

Abstract

The grid altimetry data between 1993 and 2006 near the Philippines were analyzed by the method of Empirical Orthogonal Function (EOF) to study the variation of bifurcation of the North Equatorial Current at the surface of the Pacific. The relatively short-term signals with periods of about 6 months, 4 months, 3 months and 2 months are found besides seasonal and interannual variations mentioned in previous studies. Local wind stress curl plays an important role in controlling variation of bifurcation latitude except in the interannual timescale. The bifurcation latitude is about 13.3°N in annual mean state and it lies at the northernmost position (14.0°N) in January, at the southernmost position (12.5°N) in July. The amplitude of variation of bifurcation latitude in a year is 1.5°, which can mainly be explained as the contributions of the signals with periods of about 1 year (1.2°) and 0.5 year (0.3°).

Published

2009

23. Tidal current observation in the southern Yellow Sea in the summers of 2001 and 2003

Author

Zhiliang Liu, Dunxin Hu, and Xiaohui Tang

Subjects

Current (stream), Waves and shallow water, Oceanography, Amplitude, Trawling, Direct current, Mooring, Tidal current, Geology, Sea level, Water Science and Technology

Abstract

Direct current observations in the Yellow Sea interior are very scarce due to intense fishing and trawling activities. Most previous studies on tides in the area were based on coastal measurements or satellite altimeter sea levels and have not been rigorously compared with direct measurements. In this paper, tidal currents are studied with current profiles from three bottom-moored Sontek Acoustic Doppler Profilers (ADPs) deployed in the southern Yellow Sea in summer of 2001 and 2003. The measured current series were dominated by tidal currents. Maximum velocities are between 40–80 cm/s at the mooring stations. M2 current is the most dominant primary tidal constituent, while MS4 and M4 are the most significant shallow water tides with much smaller amplitudes than the primary tides.

Published

2008

24. Observation of currents in the southern Yellow Sea in the summers of 2001 and 2003

Author

Zhiliang Liu, Zhongxin Chu, and Dunxin Hu

Subjects

Trawling, Direct current, Ocean Engineering, Oceanography, Mooring, Current (stream), Waves and shallow water, symbols.namesake, Amplitude, Circulation (fluid dynamics), symbols, Doppler effect, Geology

Abstract

Long term current observations in the southern Yellow Sea are very scarce because of the intense fishing and trawling activities. Most of the previous studies on tides and circulation were not rigorously validated with direct current measurements. In this study, tidal and sub-tidal currents were examined using current profiles from three bottom-moored Sontek Acoustic Doppler Profilers (ADPs) deployed in the southern Yellow Sea in the summers of 2001 and 2003. The measured current time series were dominated by tidal currents. The maximum velocities were between 40–80 cm s−1 at the mooring stations. The M2 current was the dominant primary tidal constituent, while the MS4 and M4 components produced the most significant shallow water tidal currents with much weaker amplitudes. The measured mean sub-tidal velocities were less than 5 cm s−1. The mean flows in the lower layer implied that an anti-cyclonic circulation pattern might exist in the deeper central Yellow Sea. However, the previously expected cyclonic circulation pattern in the upper layer was not clearly shown by the observations.

Published

2008

25. Bifurcation of the North Equatorial Current Derived from Altimetry in the Pacific Ocean

Author

Dunxin Hu and Qingye Wang

Subjects

Mechanical Engineering, Sea-surface height, Condensed Matter Physics, Pacific ocean, Latitude, Current (stream), Oceanography, El Niño Southern Oscillation, Mechanics of Materials, Modeling and Simulation, Climatology, Altimeter, Geostrophic wind, Bifurcation, Geology

Abstract

The gridded (1/3°*1/3°) altimetry data from October 1992 through December 2004 were analyzed to study the seasonal and interannual variabilities of the bifurcation of the North Equatorial Current (NEC) at the surface in the western North Pacific Ocean. Calculations show that on annual average the bifurcation occurs at about 13.4°N at the surface. The geostrophic flow derived from Sea Surface Height (SSH) data shows that the southernmost latitude of the NEC bifurcation at the surface is about 12.9°N in June and the northernmost latitude is about 14.1°N in December. Correlation analyses between the bifurcation latitude and the Southern Oscillation Index (SOI) suggest that the bifurcation latitude is highly correlated with the El Nino/Southern Oscillation (ENSO) events. During the El Nino years the bifurcation of the NEC takes place at higher latitudes and vice versa.

Published

2006

26. Mindanao Current/Undercurrent in an eddy-resolving GCM

Author

Tangdong Qu, Pierre Dutrieux, Tzu Ling Chiang, Chau Ron Wu, and Dunxin Hu

Subjects

Atmospheric Science, 010504 meteorology & atmospheric sciences, Soil Science, Flux, Empirical orthogonal functions, Aquatic Science, Oceanography, 01 natural sciences, Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous), Mean flow, 14. Life underwater, 0105 earth and related environmental sciences, Earth-Surface Processes, Water Science and Technology, Antarctic Intermediate Water, Ecology, 010505 oceanography, Paleontology, Forestry, Boundary current, Current (stream), Geophysics, 13. Climate action, Space and Planetary Science, Submarine pipeline, Geology, Geostrophic wind

Abstract

Analysis of results from an eddy-resolving general circulation model showed two subsurface velocity cores in the mean within the depth range between 400 and 1000 m below the Mindanao Current (MC). One is confined to the inshore edge at about 126.8 degrees E and connected with the Sulawesi Sea. The other takes place somewhat offshore around 127.7 degrees E, being closely related to the intrusion of South Pacific water. Both cores are referred to as the Mindanao Undercurrent (MUC). The MC/MUC is approximately a geostrophic flow, except on the inshore edge of the MUC where up to 50% of the mean flow can be explained by ageostrophic dynamics. In contrast with the well-defined southward flowing MC, the MUC is of high velocity variance relative to the mean. Empirical orthogonal function (EOF) analysis shows that approximately 60% of the total velocity variance is associated with two meandering modes, with their major signatures in the subthermocline. The dominant time scale of variability is 50-100 days. An ensemble of these meso-scale fluctuations provides a northward freshwater flux on the offshore edge of the Philippine coast, which to a certain extent explains why water of South Pacific origin appears to extend farther northward than the mean MUC. In the offshore velocity core of the MUC, for example, eddy induced freshwater flux is equivalent to a mean flow of about 0.3 m s(-1) in the density range between 26.9 and 27.3 kg m(-3), which is greater than the mean current by a factor of 6.

Published

2012

27. Origin and pathway of the Luzon Undercurrent identified by a simulated adjoint tracer

Author

Dunxin Hu, Tangdong Qu, and Shan Gao

Subjects

Atmospheric Science, geography, geography.geographical_feature_category, Ecology, Mixed layer, Qualitative evidence, Paleontology, Soil Science, Forestry, Subtropics, Aquatic Science, Oceanography, Boundary current, Current (stream), Geophysics, Space and Planetary Science, Geochemistry and Petrology, Ocean gyre, TRACER, General Circulation Model, Earth and Planetary Sciences (miscellaneous), Geology, Earth-Surface Processes, Water Science and Technology

Abstract

The origin and pathway of Luzon Undercurrent (LUC) water are investigated using a simulated adjoint tracer, based on circulation estimates of a global general circulation model. The results demonstrate that most of the LUC water comes from the subtropical North Pacific, confirming the earlier hypothesis on its relation to the northward shift of the North Equatorial Current (NEC) bifurcation at subsurface. Of the total volume of initially tracer-tagged LUC water, approximately 41% is traced back to the winter mixed layer in the Kuroshio extension after 50 years of integration, coinciding with the formation of subtropical mode waters, while the rest is trapped in the northern subtropical gyre with its density >26.8 kg m(-3), indicative of a significant South Pacific origin. As these waters move toward the western boundary, they get mixed and finally reach the density range of the LUC water. This result provides quantitative evidence for the dramatic impact of mixing on the route of subtropical water to becoming the LUC water.

Published

2012

28. Observation of Luzon Strait transport

Author

Lingling Xie, Tangdong Qu, Qingxuan Yang, Dunxin Hu, Jiwei Tian, Fan Wang, and Xinfeng Liang

Subjects

Current (stream), Geophysics, Oceanography, General Earth and Planetary Sciences, High resolution, Far East, Hydrography, Geology

Abstract

Using recently collected current and hydrographic data, we provide a high resolution picture of the subinertial flow and estimate the volume transport through the Luzon Strait. The distribution of the subinertial flow shows a strong westward flow around 100 m in the northern part of the Luzon Strait, while the eastward flow is confined to the deeper layers, mostly at depths around 1000 m. The total volume transport is estimated to be 6 +/- 3 Sv during the period of observations from October 4 to 16, 2005. The observations also confirm that the Luzon Strait transport has a sandwiched vertical structure. The net westward volume transport in the deep (> 1500 m) layer of the Luzon Strait reaches 2 Sv.

Published

2006