File list
This special page shows all uploaded files.
Date | Name | Thumbnail | Size | Description | Versions |
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22:51, 30 October 2024 | WaveTransmissionLCB.jpg (file) | 99 KB | Wave transmission over a low-crested breakwater and mathematical symbols. | 1 | |
22:46, 30 October 2024 | WaveTransmission.jpg (file) | 99 KB | Wave transmission over a low-crested breakwater and mathematical symbols. | 1 | |
17:42, 30 October 2024 | WaveTransmissionEasternScheldtOysterReef.jpg (file) | 70 KB | Comparison of Eq. (1) (red dashed line) with the wave transmission coefficient measured (blue/green/yellow dots[10]) on an oyster reef in the Eastern Scheldt (Netherlands). Insert: Average cross-shore shape of the oyster reef. | 2 | |
17:07, 30 October 2024 | WaveReefTransmission.jpg (file) | 47 KB | Wave transmission over an oyster reef and mathematical symbols. The freeboard <math>R_c</math> is negative when the reef crest is below the still water level <math>SWL</math>. | 1 | |
09:30, 15 October 2024 | SkewWaveTransport.jpg (file) | 106 KB | Horizontal wave orbital velocity <math>U</math> and sediment transport <math>Q</math> averaged over the ripple length for acceleration-skewed waves, velocity-skewed waves and acceleration+velocity-skewed waves. Adapted from Salimi-Tarazouj, A., Tian-Ji... | 1 | |
15:53, 13 October 2024 | SandwavesNorthSea.jpg (file) | 85 KB | Sand waves in the southern North Sea (insert upper left corner, black dot, depth 35-40 m), imaged by multibeam sonar. An indication of the order of magnitude of the wavelength of the sand waves (ca. 100 m) is given by the shipwreck of the freighter Tim... | 1 | |
19:12, 12 October 2024 | RotationDamp.jpg (file) | 46 KB | Variation of the ratio <math>|\Psi^+/\Psi^|</math> over the vertical, showing that the anticyclonic velocity component <math>\Psi^-</math> is more strongly damped than the cyclonic component <math>\Psi^+<\math>. | 1 | |
10:14, 7 October 2024 | SeawaterIntrusion3.jpg (file) | 200 KB | Schematic representation of seawater intrusion into a multi-aquifer system. | 1 | |
10:11, 1 October 2024 | WindTurbinePileDriving.jpg (file) | 79 KB | Pile driving for the installation of an offshore wind turbine. Source https://www.deingenieur.nl/ | 2 | |
10:46, 21 September 2024 | PCB.jpg (file) | 18 KB | Molecular structure polychlorinated biphenyl (PCB). | 2 | |
10:44, 21 September 2024 | Tributyltin.jpg (file) | 5 KB | Molecular structure tributyltin (TBT). | 1 | |
10:10, 21 September 2024 | EutrophicationZostera.jpg (file) | 93 KB | Overgrown Zostera in the Baltic Sea. Photo credit Metsähallitus. Creative Commons Licence CC BY-SA 2.0 | 1 | |
15:16, 14 September 2024 | Exchange fluxes mixing.jpg (file) | 64 KB | Exchange fluxes mixed salt-fresh interface | 1 | |
12:55, 14 September 2024 | GroundwaterTracer.jpg (file) | 50 KB | Determination of submarine groundwater discharge by measuring tracer concentrations <math>c(x)</math>. | 1 | |
19:16, 10 September 2024 | TurtlePlasticIngest.jpg (file) | 68 KB | Sea turtle eating a plastic bag. Image from https://tontoton.com/how-does-ocean-plastic-affect-marine-wildlife/# | 1 | |
18:46, 10 September 2024 | PlasticGarbageBeach.jpg (file) | 200 KB | Beach covered with plastic garbage. Photo credit: Mel D Cole/World Bank | 1 | |
18:45, 10 September 2024 | EntangledTurtle.jpg (file) | 73 KB | A green sea turtle is entangled in an abandoned fishing net. Image courtesy of Doug Helton, NOAA. Wikimedia commons | 1 | |
21:14, 5 September 2024 | TankerSpillStats23.jpg (file) | 53 KB | Quantities of oil spilled from tanker incidents 1970-2023. From ITOPF website https://www.itopf.org/knowledge-resources/data-statistics/statistics/ | 1 | |
09:08, 31 August 2024 | SeabedRipples.jpg (file) | 377 KB | Seabed ripples. Photo credit Julia Harwood. | 1 | |
12:31, 30 August 2024 | PhaseLead.jpg (file) | 35 KB | The phase lead angle <math>\phi</math> of the bed shear stress relative to the bed perturbation as a function of <math>k \, d_{50}</math>. Figure adapted from Charru et al. (2013<ref name=C13/>). | 2 | |
19:02, 22 August 2024 | Bedform7.jpg (file) | 37 KB | If oscillating flow is assumed to be equivalent to successive periods of steady flow from the right and from the left, then the net resulting flow pattern consists of circulation cells that move sediment grains from the troughs to the crests. | 1 | |
19:00, 22 August 2024 | Bedform6.jpg (file) | 82 KB | Flow pattern adjusted to a bed perturbation similar as in Fig. 5, but with the flow direction reversed. | 1 | |
18:58, 22 August 2024 | Bedform5.jpg (file) | 90 KB | The negative vorticity balance on the upstream side of the ripple drives a counterclockwise circulation, while the positive balance on the downstream side drives a clockwise circulation. | 1 | |
18:29, 22 August 2024 | Bedform4.jpg (file) | 78 KB | Transport of vorticity (rotational component of velocity) at the ripple trough and ripple crest. | 1 | |
18:29, 22 August 2024 | Bedform3.jpg (file) | 60 KB | The velocity profiles at the ripple trough and the ripple crest corresponding to the contraction-divergence of the streamlines. | 1 | |
18:27, 22 August 2024 | Bedform2.jpg (file) | 63 KB | The emerging ripple is eroded where the shear stress increases due to contraction of the streamline toward the sediment bed. Accretion occurs where streamlines diverge from the sediment bed. The erosion-accretion boundary is shifted by the saturation l... | 1 | |
18:26, 22 August 2024 | Bedform1.jpg (file) | 52 KB | Steady flow streamlines over an emerging bed ripple in a vertical longitudinal section. | 1 | |
10:17, 12 August 2024 | WaveAngles.jpg (file) | 105 KB | Wave incidence angles in a 1-line model where the breaker contour line is parallel to the shoreline. | 2 | |
10:18, 9 August 2024 | BumpheadParrotfish JennyHuang.jpg (file) | 120 KB | Bumphead parrotfish. Parrotfish contribute to bioerosion by rasping algae from coral and other rocky substrates with their teeth tightly packed on the external surface of their jaw bones. For example, parrotfish grazing accounted for the production of... | 1 | |
19:39, 3 August 2024 | NileDeltaDuneFences.jpg (file) | 270 KB | Dune development with sand fences for coastal protection (Egypt, 2022). Green Climate Fund project “Enhancing Climate Change Adaptation in the North Coast and Nile Delta Regions”. | 1 | |
16:00, 3 August 2024 | ChadwickFig2a.jpg (file) | 175 KB | Wave transformations at Bigbury bay, Devon, England. Photograph courtesy of Dr S M White. | 2 | |
19:15, 21 June 2024 | EkmanBottomLayer.jpg (file) | 37 KB | Velocity veering in the Ekman bottom layer. | 1 | |
13:38, 20 June 2024 | EkmanTransport.jpg (file) | 34 KB | EkmanTransport.jpg Alongshore wind (coast at the left in the Northern hemisphere) produces offshore Ekman transport in the upper Ekman layer. This offshore transport is compensated by onshore flow at depth and upwelling. | 1 | |
15:02, 16 June 2024 | MeteotsunamisCiutadella.jpg (file) | 73 KB | Meteo tsunami at Ciutadella (Menorca,Spain) on 15 September 2021. Red curve = atmospheric pressure perturbation, blue curve = harbor oscillation Ciutadella, green curve = mid-troposphese wind speed. Redrawn from Villalonga et al. (2024<ref>Villalonga,... | 1 | |
20:38, 2 June 2024 | WaveOrbits.jpg (file) | 49 KB | Particle displacements for deep and transitional waves. | 1 | |
19:50, 2 June 2024 | DefSinusWave.jpg (file) | 25 KB | Definition sketch for a sinusoidal wave. | 1 | |
15:13, 23 May 2024 | CoveTGroinMorph.jpg (file) | 40 KB | Equilibrium morphology of an artificial cove formed by T-groynes. | 1 | |
21:05, 16 May 2024 | SeabedRipplesBahamas.jpg (file) | 147 KB | Symmetrical ripples in biogenic, aragonitic sand (shallow subtidal seafloor just offshore from Sand Dollar Beach, nw San Salvador Island, eastern Bahamas). Photo credit James St. John. Creative Commons Licence | 1 | |
21:04, 16 May 2024 | RiverBedRipplesKennetcookRiver.jpg (file) | 288 KB | Current-generated linguoid ripples, Kennetcook River, Nova Scotia, Canada. Photo credit J. Waldron https://sites.ualberta.ca/~jwaldron/ | 1 | |
21:03, 16 May 2024 | CurrentRipplesMSM.jpg (file) | 103 KB | Current ripples in a fine-sediment channel bed, Baie du Mont Saint Michel. | 1 | |
21:02, 16 May 2024 | AntidunesWillametteRiver.jpg (file) | 139 KB | Antidunes in the Willamette River (USA). Photo credit Marli Miller. https://geologypics.com/ | 1 | |
16:51, 16 May 2024 | BedformDiagram.jpg (file) | 122 KB | Bedform stability diagram for unidirectional currents. Redrawn after Southard and Boguchwal (1990). | 1 | |
10:52, 16 May 2024 | RippleModels.jpg (file) | 423 KB | Empirical ripple prediction formulas. Left: Predictions of the ripple height. Right: Predictions of the ripple wavelength. | 2 | |
10:39, 10 May 2024 | DAPPScheme.jpg (file) | 81 KB | Steps of the Dynamic Adaptation Policy Pathways approach. From Haasnoot et al. (2013) | 2 | |
16:42, 4 May 2024 | MytilicultureSaintMichel.jpg (file) | 348 KB | Mussel farm in Baie du Mont Saint Michel (France). Mussel cultivating takes place on poles (bouchots) drilled deep into the seabed. For seed collection, a coconut fiber rope is wrapped in a spiral around the post. When time comes for grow-out, a nettin... | 1 | |
15:23, 28 April 2024 | DepositionFluxFlocs.jpg (file) | 74 KB | Deposition flux of flocculated sediment from the San Francisco Bay tested in a flume. Modified from Mehta et al. (2014) | 2 | |
09:14, 28 April 2024 | SettlingvelocityBarataria.jpg (file) | 34 KB | Settling velocity as function of the velocity shear rate measured in Barataria basin (USA Gulf coast). Redrawn after McDonell et al. (2024). | 1 | |
16:02, 27 April 2024 | OsmosisProcess.jpg (file) | 203 KB | Osmosis through a semi-permeable membrane that allows passage of solvent molecules (blue) while blocking the passage of solute molecules (red). | 2 | |
12:23, 22 April 2024 | Lysocline.jpg (file) | 53 KB | Zones of calcite and aragonite dissolution. Redrawn after Harris et al. (2023). | 1 | |
18:55, 15 April 2024 | RippleRegimeTransportCompressed.gif (file) | 1.9 MB | Wave-induced sand transport over a seabed ripple. Courtesy Jebbe van der Werf. | 1 |