Deep water circulation in the Luzon Strait, which connects the Pacific deep circulation with the South China Sea throughflow, is investigated using a set of oceanographic observations combined with results from three numerical experiments. Both the in situ observations and the model show a deep water...
The cold dense water from the Pacific sinks to the deep SCS after crossing the Luzon Strait (Wyrtki, 1961), driving a basin-scale cyclonic circulation in the deep SCS (Gan et al., 2016; Lan et al., 2013; Qu, Girton, & Whitehead, 2006; Shu et al., 2014; G. Wang et al., 2011...
Deep water circulation in the Luzon Strait, which Tangdong,Qu,Chun,... - 《Journal of Geophysical Research C Oceans Jgr》 被引量: 61发表: 2014年 Several characteristics of water exchange in the Luzon Strait Using the hydrographic data obtained from two sectional observations crossing the Luzon ...
Li H, Song D, Chen X, Qian H, Mu L, Song J. 2011. Numerical study of M2 internal tide generation and propagation in the Luzon Strait. Acta Oceanol Sin, 30: 23–32 ArticleGoogle Scholar Li L, Qu T. 2006. Thermohaline circulation in the deep South China Sea basin inferred from oxyge...
Cyclonic circulation of the Weddell Gyre Current-meter records Velocity: 24 cm s−1 F. Case study: Gulf of Cadiz (Faugères et al., 1984; Gonthier et al., 1984; Stow and Faugères, 2008) Modern Faro contourite drift 3.5 kHz seismic profiles, sediment cores Discussion of problematic contou...
Lagrangian particle tracking experiments are conducted to investigate the pathways of deep water in the North Pacific Ocean. The flow field is taken from a state-of-the-art deep circulation simulation. An unprecedented number of particles are tracked to quantify the volume transport and residence tim...
Mesoscale eddies, which contribute to long-distance water mass transport and biogeochemical budget in the upper ocean, have recently been taken into assessment of the deep-sea hydrodynamic variability. However, how such eddies influence sediment movement in the deepwater environment has not been ...
Oceanic gateways play a crucial role in controlling global ocean circulation. However, gateway effects on low-latitude deep-water circulation are poorly understood. The South China Sea, located in the western Pacific, was influenced by changes in the equatorial and low-latitude gateways, which record...
in the density difference between two sides of the Luzon Strait, but also by changes in its upstream layer thickness;(3) the deepwater overflow in the Luzon Strait shows a weak semiannual variability;(4) the seasonal mean circulation pattern in the SCS deep basin does not synchronously respond...
The ISWs in the South China Sea are the largest amplitude waves in the world; these waves occur in the tidal period, up to twice a day, and generally in the form of wave packets24. Here, ubiquitous ISWs are believed to generate in the Luzon Strait and propagate in the WNW direction,...