Cascades of dense water around the world ocean   总被引：1，自引：0，他引：1  

V.V. Ivanov  J.M. Huthnance  P.N. Golovin 《Progress in Oceanography》2004,60(1):47-98

Dense water overflow off continental shelves (cascading) is one of the contributing processes of shelf-deep ocean exchange, and of topical interest to climate studies and nutrient fluxes. Dense water originating from cooling, evaporation, freezing and salinization on a shallow shelf spills over the shelf edge and may develop as near-bottom gravity current or an intermediate-depth intrusion. It is difficult to observe in nature due to its intermittent character.This paper provides an extensive inventory of observed cases of water cascades around the World Ocean, summarises their locations and individual properties, and provides statistics of the identified cases. The search for cascading was carried out using oceanographic databases and a literature review. This study identified 61 confirmed cases world-wide, including 25 cases in the Arctic seas, 12 at mid-latitudes, seven in sub-tropical and tropical regions, and 17 off the Antarctic shelves. Eighteen cascades had not been reported before. We analyze a set of numerical parameters of dense water cascades, allowing us to quantify, compare and contrast the properties of water cascades. The overall average density contrast between the confirmed cascades and ambient water is 0.37 (kg/m³); it can be as much as 2 (kg/m³) on some Arctic shelves. Frequently initiated by strong cooling at the surface, cascades often remain colder through the descent, thus supplying the deep ocean with colder and fresher water. In non-dimensional variables, the data from all climate zones fit well to a unique curve, which represents a relationship between a cascade’s internal structure and the parameters describing its forcing. On average, the down-slope volumetric flux provided by dense water cascades is estimated as 0.05 to 0.08 Sv per 100 km of shelf edge.Regional terms: Arctic, Antarctic, North Atlantic Ocean, Barents Sea, Mediterranean Sea, Skagerrak, Tasman Sea, Sea of Okhotsk  相似文献   

Faroe Bank Channel overflow 1995–2005     

Bogi Hansen  Svein sterhus 《Progress in Oceanography》2007,75(4):817-856

The Faroe Bank Channel (FBC) is the deepest passage across the Greenland–Scotland Ridge and there is continuous overflow of dense water through the channel, which provides a substantial contribution to the global thermohaline circulation. Since November 1995, Acoustic Doppler Current Profilers (ADCPs) have been moored at the sill of the channel continuously, except for short annual servicing periods. In addition to this, CTD sections have regularly been occupied across the channel and instruments, recording temperature and salinity, have been moored for short periods. These observations demonstrate that the channel, due to its small width, can be monitored fairly well with only one ADCP mooring and they allow the generation of a time-series of overflow volume flux for the 1995–2005 period. The kinematic overflow flux, defined solely from the velocity field, was found to have an average value of 2.1 ± 0.2 Sv with a seasonal and with inter-annual variations of approximately 10% amplitude, but with no discernible trend for the whole period. The average flux of water with potential density exceeding 27.8 kg m⁻³ was found to be 1.9 ± 0.3 Sv with average properties: θ = 0.25 °C, S = 34.93, γ_θ = 28.01 kg m⁻³ for this period. No evidence was found for a weakening overflow flux, but the salinity of the FBC-overflow, especially the warmer parts, has increased substantially during the period, which implies an increased average density on the order of 0.01 kg m⁻³. Previous observations of a helical cross-channel circulation are confirmed and may explain the thin pycnocline layer, but shear-instability induces intensive mixing that puts a lower limit on the layer thickness. Critical control at one point of the sill cross-section, rather than friction, seems to govern the overflow dynamics and simple layered models can explain much of the observed features as well as the seasonal variation, but potential vorticity, as defined for a single overflow layer, is not conserved. A previously suggested 1950–2000 weakening of the FBC-overflow, which was partly based on a subset of the data presented here, is not supported by the full dataset.  相似文献   

Numerical study of combined overflow and wave overtopping over a smooth impermeable seawall   总被引：1，自引：0，他引：1  

D.E. Reeve  A. Soliman  P.Z. Lin 《Coastal Engineering》2008

A numerical wave flume is used to investigate the discharge characteristics of combined overflow and wave overtopping of impermeable seawalls. The numerical procedure computes solutions to the Reynolds-averaged Navier–Stokes equations and includes the generation of an irregular train of waves, the simulation of wave breaking and interaction with a sloping, impermeable wall. The numerical model is first tested against published experimental observations, approximate analytical solutions and empirical design formulae for the cases of pure overflow and pure overtopping. A sequence of numerical experiments simulating combined overflow and overtopping are described. The results are used to determine empirical discharge formulae of the form used in current practice.  相似文献   

Yield and overflow from a finite stochastic reservoir     

E. H. Lloyd  D. Warren 《Stochastic Environmental Research and Risk Assessment (SERRA)》1990,4(3):227-240

The paper discusses the overflow (spillage) and yield rates and the total overflow and total yield over a specified time from a finite discrete stochastic reservoir, in which the yieldY _t during the working interval (t,t+1) is a function of the storageZ _t at timet, the inflow sequence {X _t } being IID.The distribution vector of the spillage rate at timet is a telescoped version of the distribution of a certain Markovian variable whose transition matrix is derived. Formulae are given for the distribution of the total spillageW _h given suitable initial conditions, forh=1,2,3; and a simple expression derived forE(W _h ).The distribution of the yield rateY _t is a trivial modification of the storage distribution. As for the total yieldR _t =Y ₁+...+Y _t , it is shown that the bivariate sequence {R _t ,Z _t } is first-order Markovian, whereZ _t is the storage at timet. The transition matrix of this process is obtained and the method of evaluating the marginal distribution of the total yieldR _t is exemplified.  相似文献   

Dense overflow from an Arctic fjord: Mean seasonal cycle,variability and wind influence     

F. Geyer  I. Fer  T. Eldevik 《Continental Shelf Research》2009

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北欧海深层水的研究进展简     

Shao Qiuli  Zhao Jinping 《地球科学进展》2014,29(1):42-55

As a connection region between North Atlantic and Arctic Oceans, the Nordic Sea plays a critical role in global climate system. In the Nordic Seas, surface water converts into intermediate water and deep water after cooling and other effects. These waters transport southward, and enter into North Atlantic as a form of overflow, therefore, they are the main source of the North Atlantic Deep Water(NADW), which play a key role in global ocean conveyor. The causes and processes of the deep water formation in the Nordic Seas are still uncertain. Based on a review of current and historical research results of the deep water in the Nordic Seas, the most important process for deep water formation convection is addressed. Factors and physical processes that may have impact on deep water formation are summarized. The transport of deep water in the Nordic Seas is summed up. Multi year variation of the deep water is described with the aim of giving some instructions and research directions to the readers.  相似文献