Search Results

1 - 10 of 119 items :

Clear All

-gravimetric anomalies. Geophysics, 22 , 359-383. Ben-Avraham Z., Almagar G., Garfunkel Z., 1979: Sediments and structure of the Gulf of Elat (Aqaba), northern Red Sea. Sediment. Geol., 23 , 239-267. Ben-Avraham Z., 1985: Structural framework of the Gulf of Elat (Aqaba), Northern Red Sea. Geophysical Research, 90 , 703-726. Ben-Menahem A., Nur A., Vered M., 1976: Tectonics, seismicity and structure of the Afro-Eurasian junction - the breaking of an incoherent plate. Phys. Earth Planet. Inter., 12 , 1-50. Blank H. R., Jr., 1977: Aeromagnetic and geologic study of tertiary dikes and

. E. (2002). Impacts of intensive recreational diving on reef corals at Eilat, northern Red Sea. Biol. Conserv. 105, 179–187.

, 3854, 301. 7. Elazari-Volcani B., 1944 ‒ A ciliate from the Dead Sea, Nature, 3906, 335. 8. Elevi Bardavid R., Mana L. and Oren A., 2007 a ‒ Haloplanus natans gen. nov., sp. nov., an extremely halophilic, gas-vacuolated archaeon isolated from Dead Sea-Red Sea water mixtures in experimental outdoor ponds, International Journal of Systematic and Evolutionary Microbiology, 57, 780-783. 9. Elevi Bardavid R., Ionescu D., Oren A., Rainey F. A., Hollen B. J., Bagaley D. R., Small A. M. and McKay C., 2007 b ‒ Selective enrichment, isolation, and molecular detection of

Mediterranean and Red Seas Tectonics. Ph.D. Thesis, Ain Shams Univ., Egypt. Abou Elenean K., 2007: Focal mechanisms of small and moderate size earthquakes recorded by the Egyptian National Seismic Network (ENSN), Egypt. NRIAG Journal of Geophysics, 6 , 1, 117–151. Abu El-Ata A. S. A., 1987: The potential of the seismic interpretation in delineating the shearing deformations and their tectonic implications along the western coast of the Gulf of Suez, Egypt, E.G.S. Proc. of 5 th Annual. Meeting, Cairo, Egypt, March 1987, 369–385. Al-Damegh K., Sandvol E., Barazangi M., 2005

: 243-251. Dawood, M.A.O., Koshio, S., Ishikawa, M., Yokoyama, S. (2015). Effects of heat killed Lactobacillus plantarum (LP20) supplemental diets on growth performance, stress resistance and immune response of red sea bream, Pagrus major . Aquaculture, 442: 29-36. Dawood, M.A.O., Koshio, S., Abdel-Daim, M.M., Van Doan, H. (2019b). Probiotic application for sustainable aquaculture. Reviews in Aquac., 11: 907-924. Dawood, M.A.O., Eweedah, N.M., Moustafa Moustafa, E., Shahin, M.G. (2019c). Effects of feeding regimen of dietary Aspergillus oryzae on the growth

References Byerlee J., 1978: Friction of rocks. Pure Appl. Geophys., 16 , 1, 615–626. Carter N. L., Tsenn M. C., 1987: Flow properties of continental lithosphere. Tectono-physics, 136 , 27–63. Dérerová J., Zeyen H., Bielik M., Salman K., 2006: Application of integrated geophysical modeling for determination of the continental lithospheric thermal structure in the eastern Carpathians. Tectonics, 25 , 3, TC3009, doi: 10.1029/2005TC001883. Radwan A. H. A., Issawy E. A.-A., Dérerová J., Bielik M., Kohút I., 2006: Integrated lithospheric modelling in the Red Sea

naturelles de Pseudochetsoma salmonicola R. Ph. Dollfus 1951 (famille Steganodermatidae nov.). Emendation de la superfamille Haploporoidea W. Nicoll 1935. Arch. Inst. Pasteur du Maroc 4, 369–386 [7] Froese, R., Pauly, D. (2006): FishBase. World Wide Web electronic publication, www.fishbase.org, version 06/2006 [8] Hassanine, R. M. El-S. (2005): Trematodes from Red Sea fishes: Gibsonius aegyptensis gen. nov., sp. nov. (Lepocreadiidae Odhner, 1905) and Helicometra interrupta sp. nov. (Opecoelidae Ozaki, 1925). Acta Parasitol., 50: 276–280 [9] Hassanine, R. M. El-S. (2006a

Abstract

Larval populations of Clunio sp.1 are reported for the first time from marine fouling samples obtained in Hurghada during November 2015. This is a new record for the Egyptian Red Sea fauna. A full structural description of the larva is provided and its local distribution is discussed.

Introduction The gilt-head sea bream, Sparus aurata ( Sparidae ), is one of the most popular food fishes from the Red Sea, which makes it attractive for aquaculture ( 21 ). For successful aquaculture, the effective control of parasitic diseases infecting fish should be carefully attended to, not least also because parasites can be spread from farmed fish to the wild population ( 23 ). Due to their direct life cycles, monogenean parasites constitute one of the most dangerous parasites infecting cultured fish ( 22 , 23 ). Microcotylidae ( 24 ) represent the

: 1041–1060 http://dx.doi.org/10.1016/S0020-7519(97)00072-6 [3] Cribb, T. H., Bray, R. A., Barker, S. C., Adlard, R. D., Anderson, G. R. (1994): Ecology and diversity of digenean trematodes of reef and inshore fishes of Queensland. Int. J. Parasitol. 24: 851–860 http://dx.doi.org/10.1016/0020-7519(94)90011-6 [4] Diamant, A., Paperna, I. (1986): The parasites of wild Red-Sea rabbitfish (Siganus spp.) (Teleostei: Perciformis) as potential pathogens in mariculture. Pathol. Mar. Aquacult. European Aquaculture Society, Special Publication 9:71–83 [5] Diamant, A. (1989