Abstract
The Red Sea is formed of marginal areas, shallower than 1,000 m, which are separated by a deeper axial zone. The axial zone can be subdivided into three main segments. The southern segment is a relatively simple trough which, north of 16° N, corresponds to an oceanic rift1. The middle segment, from 19°30′ n to 23°50′ N, is characterized by the presence of about 15 closed depressions or axial deeps, ranging from several kilometres to less than a kilometre in length, and containing hot of cold brines underlain by their associated deposits of soft- and fine-grained metalliferous muds1–3 The northern segment of the axial zone is shallower, with depths rarely exceeding 1,500 m, and has a smoother relief than the southern and central segments. In the northern segments, south of the Al Wajh depression at 25°25′ N, the axis strikes north-south (Fig. 1). North of the depression, towards the approaches of the Gulf of Suez, the strike is NNW–SSE. The small, circular (1 km diameter) Oceanographer deep is located4 along the western border of the axial zone of this northernmost segment. The Jean Charcot deep, which we discovered on 3 December 1983 during a cruise of the RV Jean Charcot, lies near 25° 15′ N, 35°22′ E, close to the axis of maximum depth of the same segment. In contrast with the magnetically quiet neighbourhood, a strong dipolar magnetic anomaly typifies this deep, which in spite of intensive international surveys, is the first brine deep to have been discovered in the Red Sea in the past 10 years.
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References
Bäcker, H., Lange, K. & Richter, H. Geol. Jber D 13, 79–123 (1975).
Degens, E. T. & Ross, D. A. (eds) Hot Brines and Recent Heavy Metal Deposits in the Red Sea (Springer, Berlin, 1969).
Bäcker, H. & Schoell, M. Nature phys. Sci. 240, 153–158 (1972).
Pautot, G. Oceanol. Acta 6, 235–244 (1983).
Hartman, M. Deep-Sea Res. 27, 161–171 (1980).
Monin, A. S. & Plakhin, E. A. Deep-Sea Res. 29, 1271–1291 (1982).
Fletcher, A. W. & Mustafa, Z. in National and International Management of Mineral Resources, 3–16 (Institute of Mining and Metallurgy, London, 1980).
Thisse, Y. thesis, Univ. Orléans (1982).
Whitmarsh, R. B. et al. Init. Rep. DSDP leg 23, 1115–1123 (1974).
Bäcker, H. & Richter, H. Geol. Rdsch. 62.3, 697–741 (1973).
Le Terrier, J., Maury, R. C., Thonon, P., Girard, D. & Marchal, M. Earth planet. Sci. Lett. 59, 139–154 (1982).
Hall, S. A., Andreasen, G. E. & Girdler, R. W. Direct. Gen. Miner. Resour. Bull. 22, F 1–F 15 (1977).
Izzeldin, Y. A. thesis, Univ. Strasbourg (1982).
Gerdes, K. D. & Styles, P. Abstr. EGS-ESC Meet., Strasbourg, 81 (1982).
Cochran, J. R. Am. Ass. petrol. Geol. Bull. 67, 41–69 (1983).
Hall, S. A. thesis, Univ. Newcastle-upon-Tyne (1976).
Vine, F. J. Science 154, 1405–1415 (1966).
Roesser, H. A. Geol. Jber. D13, 131–156 (1975).
Chase, R. L. in Hot Brines and Recent Heavy Metal Deposits in the Red Sea (eds Degens, E. T. & Ross, D. A.) 122–128 (Springer, Berlin, 1969).
Coleman, R. G., Fleck, R. J., Hedge, C. E. & Eiment, E. D. Direct. Gen. Miner. Resour. bma 22, D l–D 30 (1977).
Juteau, T. et al. Bull. Centr. Rech. Explor. Prod. Elf-Aquitaine 7.1, 217–231 (1983).
Courtillot, V. Tectonics 1, 239–250 (1982).
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Pautot, G., Guennoc, P., Coutelle, A. et al. Discovery of a large brine deep in the northern Red Sea. Nature 310, 133–136 (1984). https://doi.org/10.1038/310133a0
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DOI: https://doi.org/10.1038/310133a0
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