Longshore water-current velocity and the potential for transport of contaminants—A pilot study in Lake Erie from Walnut Creek to Presque Isle State Park beaches, Erie, Pennsylvania, June and August 2015

Coral reefs are subjected to physical changes in their surroundings including wind velocity, water temperature, and water currents that can affect ecological processes on different spatial and temporal scales. However, the dynamics of these physical variables in coral reef ecosystems are poorly understood. In this context, Tayrona National Natural Park (TNNP) in the Colombian Caribbean is an ideal study location because it contains coral reefs and is exposed to seasonal upwelling that strongly changes all key physical factors mentioned above. This study therefore investigated wind velocity and water temperature over two years, as well as water current velocity and direction for representative months of each season at a windand wave-exposed and a sheltered coral reef site in one exemplary bay of TNNP using meteorological data, temperature loggers, and an Acoustic Doppler Current Profiler (ADCP) in order to describe the spatiotemporal variations of the physical environment. Findings revealed that water temperatures (28.7 ± 0.8 °C and maximal 30.3 °C during non-upwelling; 25.1 ± 1.7 °C and minimal 20.3 °C during upwelling) exhibited no significant differences between sites and were negatively correlated with wind velocities (0.4 ± 0.3 m s-1 during non-upwelling and 1.8 ± 1.0 m s-1 with a maximum of 4.1 m s-1 during upwelling). Water current velocity was significantly higher at the exposed compared to the sheltered site during non-upwelling periods at a water depth of 8-10 m. During upwelling, water current velocities were also higher at the exposed site (6.4 cm s-1 exposed and 5.9 cm s-1 sheltered), but when wind speed surpassed 1.7 m s-1, no spatial differences occurred. Water currents showed a clockwise circulation during upwelling following the wind fields, but no clear circulation pattern during non-upwelling. Significant positive correlation between wind and water current velocity was detected at the sheltered, but not at the exposed site. Wind-stress at the exposed site affected water currents throughout the entire water column (at least 10 m deep) during both seasons, but reached only until 3-4 m water depth at the sheltered site during non-upwelling and down to 10 m during upwelling. Consequently, organisms at the exposed site experience constantly high water current exposure throughout the year. This may explain the pronounced site-specific reef community composition differences as water current velocity and circulation control distribution of invertebrate larvae and supply with plankton and essential nutrients.

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The morphological plastic response to water current velocity varies with age and sexual state in juvenile Atlantic salmon,Salmo salar

Freshwater Biology ◽

10.1111/j.1365-2427.2008.01989.x ◽

2008 ◽

Vol 53 (8) ◽

pp. 1544-1554 ◽

Cited By ~ 17

Author(s):

DAVID JAMES PEZ ◽

RICHARD HEDGER ◽

LOUIS BERNATCHEZ ◽

JULIAN J. DODSON

Keyword(s):

Atlantic Salmon ◽

Salmo Salar ◽

Current Velocity ◽

Water Current ◽

Plastic Response ◽

Atlantic Salmon Salmo Salar ◽

Juvenile Atlantic Salmon ◽

Water Current Velocity ◽

Sexual State ◽

Response To Water

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KESESUAIAN LAHAN PANTAI UNTUK WISATA DAN BERENANG DI KABUPATEN LOMBOK TIMUR

10.31219/osf.io/de4zc ◽

2018 ◽

Author(s):

Indra Agus Riyanto ◽

Muh Aris Marfai ◽

Ahmad Cahyadi

Keyword(s):

Current Velocity ◽

Initial Study ◽

Land Suitability ◽

Water Current ◽

The North ◽

Water Current Velocity ◽

Beach Width ◽

Preliminary Study ◽

Coastal Land ◽

Water Bottom

East Lombok Regency has different beach variations from the north, middle, and south in terms of its constituentmaterial. The beauty of the beach in East Lombok District has not been well managed and developed so that it is lessdeveloped than the other beaches in Lombok Regency. Therefore, a preliminary study is needed in the developmentof coastal tourism in East Lombok Regency. The initial study that needs to be done is the land suitability of coastalfor tourism and swimming in East Lombok Regency. Parameters used for land suitabiliy coastal for swimmingconsist of 10 parameters, coastal typology, beach width, depth of water, bottom of water, current velocity, beachslope, water brightness, land cover, hazardous biota, the depth material of the waters, and availability of fresh water.Parameters for land suitability of coastal for tourism consisting of 8 parameters, the depth of the waters, the type ofbeach, the width of the beach, the depth material of the waters, current velocity, brightness of the waters, dangerousbiota and availability of freshwater. The land suitability class is divided into four classifications, namely highlysuitable (S1), moderately suitable (S2), marginally suitable (S3), and not suitable (N). The beaches studied areLabuan Haji, Pink, Gili Kondo, Gili Petagan, Gili Kapal, Surga, Rambang, Lampu, and Gili Bidara. The results of thestudy of coastal land suitability for tourism and swimming are expected to be the basis for the development ofcoastal tourism in East Lombok Regency. The results of land suitability for tourism in Labuan Haji Beach areincluded in S1, Rambang Beach S2, Pink Beach S1, Lampu Beach S1, Surga Beach S2, Gili Petagan S2, Gili Bidara S1,Gili Kapal S2, and Gili Kondo S1. The land suitability for swimming in Labuan Haji Beach includes S1, Rambang BeachN, Pink Beach S1, Lampu Beach S1, Surga Beach N, Gili Petagan S2, Gili Bidara S1, Gili Kapal S2, and Gili Kondo S1.

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Tank Model Testing on the Fish Cage Installed in Variable Depths in Current and Waves

Volume 3: Materials Technology; Ocean Space Utilization ◽

10.1115/omae2013-11239 ◽

2013 ◽

Cited By ~ 2

Author(s):

Daisuke Kitazawa ◽

Hiroki Shimizu ◽

Yoichi Mizukami

Keyword(s):

Experimental Data ◽

Numerical Model ◽

Current Velocity ◽

Angle Of Attack ◽

Hydrodynamic Forces ◽

Water Current ◽

Mooring System ◽

Water Tank ◽

Tank Model ◽

Water Current Velocity

A fish cage should be submerged to reduce hydrodynamic forces from high waves if the fish cage is installed in an exposed sea area. Usually, the submergible fish cage is suspended from the framework at a fixed depth. The framework is set by floats and anchors at the middle position between water surface and the top surface of the submergible fish cage. The submergible fish cage will be used not only for reduction of hydrodynamic forces but for the other purposes such as choosing the best environment for cultured fishes in the vertical direction, and escaping from the flood with high-level nitrogen or turbidity, harmful algal blooming, and floating ices. In such cases, it is useful for the fish cage to be installed in variable depths. The purpose of the present study is to examine the safety of the fish cage installed in variable depths in current and waves by means of tank model testing. The mooring system consists of a fish cage and four floats. The vertical position of the fish cage is variable by adjusting the buoyancy of these floats. First, the drag of the fish cage was examined by towing test, and the results were compared with the drag estimated by the existing studies. The effects of interaction among twines, the angle of attack, wake, and the top and bottom nets were discussed. Then the fish cage was moored in the water tank, which has the length of 50 m and the width of 10 m. The tank model has a scale of 1/100 of the full-scale model of the fish cage used for tuna farming. The model was made according to Tauti’s similarity law. The water depth was set at 0.68 m by adjusting the position of the variable floor. The motion of the fish cage and four floats, and the tension of the mooring lines between the fish cage, floats, and anchors were measured by the underwater video camera and load cells, respectively. As a result, the drag of the fish cage could be estimated from the experimental results of the drag of a plane net since the results include the effect of interaction among twines. The effects of the angle of attack and the reduction in water current velocity inside the cage were also taken into account. The drag of the fish cage could be estimated well by the above method, while it was underestimated by 10% in comparison with the experimental data. In the water tank testing of the mooring system, the tension of the mooring line increased rapidly with the increase in water current velocity since the drag of the fish cage was proportional to the 1.8th power of water current velocity and increased due to the inclination of the fish cage. The increase in the tension due to wave-induced forces to the fish cage could be negligible when the fish cage was submerged. The safety and the design guideline of the mooring system should be assessed by the simulations using a numerical model, which is being developed by the authors. The experimental data obtained in the present study will be useful for the validation of the numerical model.

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Water current velocity as an environmental factor regulating the distribution of amphipod species in Gamo lagoon, Japan

Limnology ◽

10.1007/s10201-001-8034-4 ◽

2001 ◽

Vol 2 (3) ◽

pp. 185-191 ◽

Cited By ~ 2

Author(s):

S. Aikins ◽

E. Kikuchi

Keyword(s):

Environmental Factor ◽

Current Velocity ◽

Water Current ◽

Amphipod Species ◽

Water Current Velocity

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CO2 uptake patterns depend on water current velocity and shoot morphology in submerged stream macrophytes

Freshwater Biology ◽

10.1111/j.1365-2427.2006.01573.x ◽

2006 ◽

Vol 51 (7) ◽

pp. 1331-1340 ◽

Cited By ~ 7

Author(s):

HANNE DALSGAARD NIELSEN ◽

SOREN LAURENTIUS NIELSEN ◽

TOM VINDBAEK MADSEN

Keyword(s):

Current Velocity ◽

Water Current ◽

Co2 Uptake ◽

Shoot Morphology ◽

Water Current Velocity

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A STUDY OF CHANNEL WATER CURRENT VELOCITY METER WITH HORIZONTAL AND VERTICAL AXIS PROPELLER TYPE

Potensi : Jurnal Sipil Politeknik ◽

10.35313/potensi.v17i1.516 ◽

2015 ◽

Vol 17 (1) ◽

Author(s):

Rahmat Permana ◽

Bambang Agus Kironoto ◽

Istiarto .

Keyword(s):

Current Velocity ◽

Vertical Axis ◽

Water Current ◽

Channel Water ◽

Water Current Velocity

Current meter adalah salah satu alat ukur kecepatan air. Pada umumnya current meter yang ada di pasaran dibuat oleh pabrik-pabrik di luar negeri dan dalam negeri. Pada rancang bangun ini dibuat alat ukur kecepatan air di saluran dengan tipe propeller poros horisontal dan vertikal terbuat dari bahan resin yang diperkuat dengan bahan fiberglass, sensor putaran menggunakan read switch, pencatat putaran (counter) menggunakan panel meter dengan 7 segmen yang menampilkan 4 angka dan dilengkapi dengan pewaktu yaitu berupa timer switch dengan durasi maksimum 5 menit. Berdasarkan hasil yang didapat dengan penerapan berbagai bahan dan modul yang digunakan dalam rancang bangun ini dapat terintegrasi dengan baik. Current meter tipe propeller poros horisontal dapat beroperasi pada kisaran kecepatan 0,040 – 2,500 m/s dan tipe propeller poros vertikal dapat beroperasi pada kisaran kecepatan 0,100 – 1,250 m/s.

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Habitat use by caridean shrimps in lowland rivers

Marine and Freshwater Research ◽

10.1071/mf05160 ◽

2006 ◽

Vol 57 (7) ◽

pp. 695 ◽

Cited By ~ 11

Author(s):

A. J. Richardson ◽

R. A. Cook

Keyword(s):

Habitat Use ◽

Larval Development ◽

Current Velocity ◽

River Regulation ◽

Water Current ◽

Lowland Rivers ◽

Juvenile Recruitment ◽

Water Current Velocity ◽

Eastern Australia ◽

Paratya Australiensis

Caridean shrimps are an important component of lowland river ecosystems and their distributions may be affected by river regulation. We studied the mesoscale distributions of Paratya australiensis, Caridina mccullochi and Macrobrachium australiense in five lowland rivers of the Murray–Darling Basin, south-eastern Australia. We distinguished habitat patches according to water-current velocity and channel location – still littoral (SL), slow-current-velocity littoral (SCVL) and moderate-current-velocity channel (MCVC) – and investigated ontogenetic shifts in habitat use. We sampled seven reaches for shrimp in March 2003 and December 2003 using a modified backpack electrofisher. Paratya australiensis occurred in all habitats but was mostly associated with SL. All life stages of C. mccullochi utilised SL and SCVL, and only a few adults were collected from areas with greater than slow current velocity. The habitat preference of M. australiense changed with development: larvae only occurred in SL, but adults and berried females strongly preferred MCVC. Low flows and slow water currents are characteristic of lowland rivers in southern Australia during summer and autumn (December–April), the period during which shrimps’ larval development and juvenile recruitment occurs. Caridina mccullochi and M. australiense may rely on still and slow-current-velocity habitats during larval development and juvenile recruitment and to facilitate upstream movements.

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