RIP - CURRENTS

Edward K. Noda

doi:10.9753/icce.v13.32

RIP CURRENTS AND THEIR CAUSES

Coastal Engineering Proceedings ◽

10.9753/icce.v16.83 ◽

1978 ◽

Vol 1 (16) ◽

pp. 83 ◽

Cited By ~ 2

Author(s):

Robert A. Dalrymple

Keyword(s):

Wave Height ◽

Bottom Topography ◽

High Energy ◽

Rip Current ◽

Rip Currents ◽

Coastal Structures ◽

Submarine Canyons ◽

Set Up ◽

Wave Induced ◽

Made In

"The outworn dogmas of science seem to be particularly concentrated in the discussions of the ocean in geology books". Beginning with this controversial statement, F. P. Shepard in 1936 tried to lay to rest the concept of the undertow, which had been debated in the pages of Science for over a decade. At the same time, he introduced the term, rip current, to describe the rapidly seaward-flowing currents, which were well-known to lifeguards at that time, as these currents were responsible for carrying swimmers offshore at frightening speeds. Subsequent studies by Shepard and his colleagues (Shepard, Emery and LaFond, 1941; Shepard and Inman, 1950a, 1950b) showed that rip currents (1) are caused by longshore variations in incident wave height, (2) are often periodic in both time and in the longshore direction and (3) increase in velocity with increasing wave height. The major reason put forth to explain the variation in wave height was the convergence or divergence of wave rays over offshore bottom topography (such as submarine canyons) or the forced wave height variability caused by coastal structures, such as jetties. McKenzie (1958) and Cooke (1970) in their studies corroborated the findings of the Scripps Institution of Oceanography researchers and also pointed out the persistence of rip currents (once high energy waves in a storm had caused rip channels to be cut into the bottom) after the storm had abated. In fact it appears that on coastlines which are affected by major storms which build offshore bars, that the nearshore circulation may be dominated by the storm-1-induced bottom topography for long afterwards. The researchers up to the late 1960's who attempted to theoretically model rip currents knew the importance of longshore wave height variability and the wave-induced set-up in the formation of rip currents, but it was not until Longuet-Higgins and Stewart (e.g., 1964) codified the wave momentum flux tensor that great strides were made in providing models for rip currents. This paper is intended to categorize and review the more recent theories for rip current generation and to discuss a simple model for rip currents on barred coastlines.

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A FIELD AND NUMERICAL STUDY INTO RIP CURRENTS IN WIND-SEA DOMINATED ENVIRONMENTS

Coastal Engineering Proceedings ◽

10.9753/icce.v33.currents.36 ◽

2012 ◽

Vol 1 (33) ◽

pp. 36

Author(s):

Gundula Winter ◽

Ap Van Dongeren ◽

Matthieu De Schipper ◽

Jaap Van Thiel de Vries

Keyword(s):

Surf Zone ◽

Numerical Study ◽

Warning System ◽

Rip Current ◽

Rip Currents ◽

Mean Flow ◽

Flow Properties ◽

Wind Sea ◽

Wave Induced ◽

Made In

Rip currents are wave-induced and off-shore directed flows which occur frequently in the surf zone and can pose a serious threat to swimmers. While the behaviour of rip currents has been studied in swell-dominated environments, less is known about their characteristics in wind-sea dominated environments. This study aims to improve the knowledge on rip currents in these environments such as the Dutch coast. In a field campaign at Egmond aan Zee (The Netherlands), Lagrangian velocities in the surf zone were measured with drifter floats. An extensive dataset of rip current measurements was collected from which parameters that initiate rip currents and affect their mean flow properties were identified. Numerical simulations with XBeach aided to understand and confirm the observations made in the field. A reduction of the hydrodynamic parameters along with simplification of the bathymetry in the model allowed for identification of the governing rip current parameters, which can be the basis for a warning system.

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HYDRAULIC APPROACH TO SHORELINE CHANGE DUE TO SUBMERGED BREAKWATER

Coastal Engineering Proceedings ◽

10.9753/icce.v36v.sediment.40 ◽

2020 ◽

pp. 40

Author(s):

Inho Kim ◽

Hyungseok Lee ◽

Jinhoon Kim ◽

Sungyeol Chang

Keyword(s):

Numerical Analysis ◽

Shoreline Change ◽

Beach Erosion ◽

Rip Current ◽

Rip Currents ◽

Induced Current ◽

Beach Profile ◽

Submerged Breakwater ◽

Sand Movement ◽

Wave Induced

The items of investigation include wave induced current, wave height, beach profile, shoreline change, etc. The investigation has been performed seasonally. After the construction of submerged breakwaters, a tombolo was generated behind the submerged breakwaters. This caused beach erosion in the nearby areas. Rip currents are mainly generated near submerged breakwaters, which plays a role in the transportation of sand in the offshore direction. In order to analyze the sand movement, numerical analysis was conducted. The analysis indicated that a strong rip current is generated near submerged breakwaters.Recorded Presentation from the vICCE (YouTube Link): https://youtu.be/5p2wiNSMKlM

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Analysis of Rip Current Characteristics Using Dye Tracking Method

Atmosphere ◽

10.3390/atmos12060719 ◽

2021 ◽

Vol 12 (6) ◽

pp. 719

Author(s):

Hyun Dong Kim ◽

Kyu-Han Kim

Keyword(s):

Surf Zone ◽

Breaking Waves ◽

Rip Current ◽

Rip Currents ◽

Induced Current ◽

Tracking Method ◽

Survey Techniques ◽

Current Characteristics ◽

Bed Material ◽

Wave Induced

Rip currents are strong water channels flowing away from the shoreline. They can occur on any shore with breaking waves. Rip currents play a significant role in changing the topography of shallow water regions by transporting large amounts of bed material offshore. Moreover, they pose a significant danger for people living in nearshore zones and surfers and cause hundreds of deaths annually worldwide. Therefore, rip current generation characteristics have been investigated to prevent casualties. In this study, a GPS drifter survey was chosen as the investigation method; however, a few drawbacks were discovered, such as low accuracy due to the GPS drifter becoming trapped in the surf zone. Therefore, drones and dyes were used to overcome the drawbacks of drifter methods. The results of dye tracking and the 3D wave-induced current numerical simulation were compared; the velocity and formation of the rip current were found to be relatively similar. With the technological advancements and invention of new survey equipment, the survey techniques also evolve, and this paper shows that the disadvantages of the GPS-based Lagrangian method can be overcome using a dye-mounted drone, which observes the rip current easily and accurately.

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Effect of the El Niño Decaying Pace on the East Asian Summer Monsoon Circulation Pattern during Post-El Niño Summers

Atmosphere ◽

10.3390/atmos12020140 ◽

2021 ◽

Vol 12 (2) ◽

pp. 140

Author(s):

Wenping Jiang ◽

Gen Li ◽

Gongjie Wang

Keyword(s):

El Niño ◽

Asian Monsoon ◽

East Asian Monsoon ◽

El Nino ◽

East Asian ◽

Circulation Pattern ◽

Northwest Pacific ◽

Monsoon Circulation ◽

Circulation Patterns ◽

Sst Anomalies

El Niño events vary from case to case with different decaying paces. In this study, we demonstrate that the different El Niño decaying paces have distinct impacts on the East Asian monsoon circulation pattern during post-El Niño summers. For fast decaying (FD) El Niño summers, a large-scale anomalous anticyclone dominates over East Asia and the North Pacific from subtropical to mid-latitude; whereas, the East Asian monsoon circulation display a dipole pattern with anomalous northern cyclone and southern anticyclone for slow decaying (SD) El Niño summers. The difference in anomalous East Asian monsoon circulation patterns was closely associated with the sea surface temperature (SST) anomaly patterns in the tropics. In FD El Niño summers, the cold SST anomalies in the tropical central-eastern Pacific and warm SST anomalies in the Maritime Continent induce the anticyclone anomalies over the Northwest Pacific. In contrast, the warm Kelvin wave anchored over the tropical Indian Ocean during SD El Niño summers plays a crucial role in sustaining the anticyclone anomalies over the Northwest Pacific. In particular, the opposite atmospheric circulation anomaly patterns over Northeast Asia and the mid-latitude North Pacific are mainly modulated by the stationary Rossby wave trains triggered by the opposite SST anomalies in the tropical eastern Pacific during FD and SD El Niño summers. Finally, the effect of distinct summer monsoon circulation patterns associated with the El Niño decay pace on the summer climate over East Asia are also discussed.

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Polychaete Diversity Related to Different Mesophotic Bioconstructions along the Southeastern Italian Coast

Diversity ◽

10.3390/d13060239 ◽

2021 ◽

Vol 13 (6) ◽

pp. 239

Author(s):

Maria Flavia Gravina ◽

Cataldo Pierri ◽

Maria Mercurio ◽

Carlotta Nonnis Marzano ◽

Adriana Giangrande

Keyword(s):

Circulation Pattern ◽

High Turnover ◽

The North ◽

Α Diversity ◽

Biological Determinants ◽

High Species Richness ◽

The Mediterranean ◽

Current Circulation ◽

Italian Coast

In the different mesophotic bioconstructions recently found along the Southeastern Italian coast, polychaetes have been proved to show high species richness and diversity, hitherto never investigated. In the present study, the species composition and functional role of polychaete assemblages were analysed; the updated key to identification of the Mediterranean species of genus Eunice was presented and some taxonomic issues were also discussed. On the total of 70 species Serpulidae and Eunicida were the dominant polychaetes. Facing similar levels of α-diversity, the polychaete assemblages showed a high turnover of species along the north-south gradient, clearly according to the current circulation pattern, as well as to the different bioconstructors as biological determinants. Indeed, Serpulidae were dominant on the mesophotic bioconstructions primarily formed by the deep-sea oyster Neopycnodonte cochlear, while the Eunicida prevailed on the mesophotic bioconstructions mainly built by scleractinians. Lastly, the record of Eunice dubitata was the first for the Mediterranean and Italian fauna and proved this species to be characteristic of mesophotic bioconstructions.

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ACOUSTIC THREE-DIMENSIONAL EFFECTS AROUND THE TAIWAN STRAIT: COMPUTATIONAL RESULTS

Journal of Computational Acoustics ◽

10.1142/s0218396x99000035 ◽

1999 ◽

Vol 07 (01) ◽

pp. 15-26 ◽

Cited By ~ 8

Author(s):

CHI-FANG CHEN ◽

JANG-JIA LIN ◽

DING LEE

Keyword(s):

Field Data ◽

Bottom Topography ◽

Three Dimensional ◽

Propagation Model ◽

Computational Results ◽

Submarine Canyons ◽

Offshore Area ◽

Ocean Environment ◽

The Taiwan Strait ◽

Good Agreement

A set of experiments were performed in the offshore area off the coasts of Taiwan and three-dimensional (3-D) measurements recorded. The 3-D effect on underwater propagation due to azimuthal variation of bottom topography is studied for the offshore regions southwest of Taiwan, where submarine canyons exist. A 3-D acoustic propagation model, FOR3D, is used to detect the 3-D effect. Computational results show that the 3-D effect is more prominent along the axis of the canyon than across it. Calculations show a very good agreement with field data, which indicate that the 3-D effect exists in this realistic ocean environment.

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Resonant Periods of Seiches in Semi-Closed Basins with Complex Bottom Topography

Fluids ◽

10.3390/fluids6050181 ◽

2021 ◽

Vol 6 (5) ◽

pp. 181

Author(s):

Ikha Magdalena ◽

Nadhira Karima ◽

Hany Qoshirotur Rif’atin

Keyword(s):

Separation Of Variables ◽

Bottom Topography ◽

Small Error ◽

Staggered Grid ◽

Resonant Wave ◽

Wave Elevation ◽

External Forces ◽

Volume Method ◽

Resonant Period ◽

Wave Induced

Seiches and resonances are two closely related phenomena that can cause damage to coastal areas. Seiches that occur in a basin at a distinct period named the resonant period may generate resonance when a wave induced by external forces enters the basin and has the same period as the seiches. Studying this period has become essential if we want to understand the resonance better. Thus, in this paper, we derive the resonant period in various shapes of semi-closed basin using the shallow water equations. The equations are then solved analytically using the separation of variables method and numerically using the finite volume method on staggered grid to discover the resonant period for each basin. To validate the numerical scheme, we compare its results against the analytical resonant periods, resulting in a very small error for each basin, suggesting that the numerical model is quite reliable in the estimation of the analytical resonant period. Further, resonant wave profiles are also observed. It is revealed that, in the coupled rectangular basin, the maximum wave elevation is disproportionate to the ratio of the length of the basin, while, in the trapezoidal basin, the ratio of the depth of the basin has no significant impact on the maximum wave elevation.

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Rip current rescues on unguarded beaches

Shore & Beach ◽

10.34237/1008935 ◽

2021 ◽

pp. 41-45

Author(s):

Aubrey Litzinger ◽

Stephen Leatherman

Keyword(s):

Young Person ◽

Red Cross ◽

Rip Current ◽

Rip Currents ◽

Water Ring ◽

The U.S

Rip currents are the greatest danger at surf beaches. Professional lifeguards rescue tens of thousands of people every year at U.S. beaches, but only a small percentage of the nation’s beaches are guarded. Oftentimes it is a young person who is caught in a rip current, and a bystander will attempt a rescue without a flotation device. The U.S. Lifesaving Association strongly suggests that this kind of rescue should not be undertaken because too often the rescuer will drown. Some coastal towns such as Cocoa Beach in Florida are now posting ring buoys on their unguarded beaches with the warning to throw, but not to go into the water. Ring buoys of two different weights were tested for efficiency when thrown in terms of distance and accuracy. The participants threw the ring buoys two different ways: one way of their choosing (un-instructed) and second by Red Cross recommendation (instructed). The buoyancy was also tested for each buoy. While these flotation devices have some merit, they clearly have limitations.

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Six-fold increase in historical Northern Hemisphere concurrent large heatwaves driven by warming and changing atmospheric circulations

Journal of Climate ◽

10.1175/jcli-d-21-0200.1 ◽

2021 ◽

pp. 1-39

Author(s):

Cassandra D.W. Rogers ◽

Kai Kornhuber ◽

Sarah E. Perkins-Kirkpatrick ◽

Paul C. Loikith ◽

Deepti Singh

Keyword(s):

Northern Hemisphere ◽

Large Scale ◽

Warm Season ◽

Fold Increase ◽

Circulation Pattern ◽

Positive Influence ◽

Climate Risks ◽

Circulation Patterns ◽

Multiple Regions ◽

Barents And Kara Seas

AbstractSimultaneous heatwaves affecting multiple regions (referred to as concurrent heatwaves), pose compounding threats to various natural and societal systems, including global food chains, emergency response systems, and reinsurance industries. While anthropogenic climate change is increasing heatwave risks across most regions, the interactions between warming and circulation changes that yield concurrent heatwaves remain understudied. Here, we quantify historical (1979-2019) trends in concurrent heatwaves during the warm-season (May-September, MJJAS) across the Northern Hemisphere mid- to high-latitudes. We find a significant increase of ~46% in the mean spatial extent of concurrent heatwaves, ~17% increase in their maximum intensity, and ~6-fold increase in their frequency. Using Self-Organising Maps, we identify large-scale circulation patterns (300 hPa) associated with specific concurrent heatwave configurations across Northern Hemisphere regions. We show that observed changes in the frequency of specific circulation patterns preferentially increase the risk of concurrent heatwaves across particular regions. Patterns linking concurrent heatwaves across eastern North America, eastern and northern Europe, parts of Asia, and the Barents and Kara Seas, show the largest increases in frequency (~5.9 additional days per decade). We also quantify the relative contributions of circulation pattern changes and warming to overall observed concurrent heatwave day frequency trends. While warming has a predominant and positive influence on increasing concurrent heatwaves, circulation pattern changes have a varying influence and account for up to 0.8 additional concurrent heatwave days per decade. Identifying regions with an elevated risk of concurrent heatwaves and understanding their drivers is indispensable for evaluating projected climate risks on interconnected societal systems and fostering regional preparedness in a changing climate.

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