Hostname: page-component-586b7cd67f-rcrh6 Total loading time: 0 Render date: 2024-11-29T03:37:34.305Z Has data issue: false hasContentIssue false

Sandwaves in the Southern North Sea and in the Persian Gulf

Published online by Cambridge University Press:  18 January 2010

R. L. Cloet
Affiliation:
(Civil Hydrographic Officer, Admiralty)

Extract

In 1935, Van Veen, Chief Engineer of the Dutch Waterstaat, wrote about some giant sandwaves which he had recorded on the Varne Bank and the Falls in the Straits of Dover. They were up to 40 feet high from trough to crest, and were found at either end of the banks. Although these dimensions seemed somewhat unusual at the time, such waves had been known to exist since the end of the last century, when Osborne Reynolds, experimenting in a model tank, discovered in 1899 that tidal streams could produce what he called ‘very large current ripples, possibly 7 or 8 feet high and 80 to 100 feet apart.’ In 1901, Vaughan Cornish described having seen giant ripples of that order in several localities, among them the North Goodwin Sands.

Giant waves are by no means rare. Early in 1953, H.M.S. Challenger obtained a trace on the Cross Sands, east of Lowestoft, on which several waves between 25 and 30 feet high were recorded in about 20 fathoms of water. During the summer of 1953, one of H.M. survey vessels recorded waves up to 50 feet high in a depth of water above the crests of about 12 fathoms on a sandbank north of Perim Island in the Red Sea.

Type
Research Article
Copyright
Copyright © The Royal Institute of Navigation 1954

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

1Veen, J. Van (1931). Sandwaves in the North Sea. Hydrogr. Rev., 12, 21.Google Scholar
2Johnson, D. W. (1919). Shore processes and shoreline development. New York.Google Scholar
3Cornish, V. (1901). On sandwaves in tidal currents. Geogr. J., 18, 170.CrossRefGoogle Scholar
4Carruthers, J. N., Lawford, A. L., and Veley, V. F. C. (1951). Water movement at the North Goodwin lightvessel. Mar. Obs., 21, 36.Google Scholar
5Cloet, R. L. (1954). A hydrographic analysis of the Goodwin Sands and Brake Geogr. J. 120, 203,CrossRefGoogle Scholar
6Veen, J. Van (1936). Onderzoekingen in de Hoofden in verband met de gesteldheid der Nederlandsche Kust. Den Haag.Google Scholar
7Veen, J. Van (1950). Eb- en Vloedschaar systemen in de Nederlandsch getijwateren. Tijdschr. ned. aardrijksk. Genoot., Waddensymposium, pp. 4265.Google Scholar
8Straaten, L. M. J. U. Van (1950). Giant ripples in tidal channels. Tijdschr. ned. aardrijksk. Genoot., Waddensymposium, pp. 7681.Google Scholar
9Muller, J. E. (1941). Experimenten over her onsstaan van stroomribbels. Geol. en Mijnb, Jaarg. 3, pp. 1823.Google Scholar
10Straaten, L. M. J. U. Van (1953). Megaripples in the Dutch Waddensea and in the Basin of Arcachon. Geol. en Mijnb. N. serie 1, pp. 111.Google Scholar
11Tidal Streams of the waters surrounding the British Islands, Hydrogr. Dept. Admiralty, London, 1948.Google Scholar
12Persian Gulf Pilot (9th Edition). Hydrogr. Dept. Admiralty, London, 1942, p. 210.Google Scholar
13Twenhofel, W. H. (1950). Principles of Sedimentation, New York, p. 206.Google Scholar