International Journal of Marine Science 2016, Vol.6, No.37, 1-5
5
Harvey J.T., Loughlin T.R., M. A. Perez M.A. and Oxman D.S., 2000, Relationship between fish size and otolith length for 63 species of fishes from the eastern
North Pacific Ocean. NOAA Technical report NMFS, 150, pp. 35.
Jawad L. A., 2001, Preliminary asymmetry analysis of some morphological characters of Tilapia zilli (Pisces: Cichlidae) collected from three localities in Libya.
Bolletino del Museo Regionale di Scienze Naturali Torino 18, 251-257.
Jawad L. A., 2003, Asymmetry in some morphological characters of four sparid fishes from Benghazi, Libya. Oceanological and Hydrobiological Studies 32,
83-88.
Jawad L. A., 2004, Asymmetry analysis in the mullet, Liza abu collected from Shatt al-Arab River, Basrah, Iraq. Bolletino del Museo Regionale di Scienze
Naturali Torino 21, 145-150.
Jawad L. A., Z. Sadighzadeh Z. and Al-Mamry D., 2012, Preliminary study on the asymmetry in some morphological characters Lutjanus ehrenbergii (Peter,
1869) (family: Lutjanidae) collected from Bender Abbas, Persian Gulf. Natura Montenegrina 11, 463-472.
Jawad L. A., 2013, On the asymmetry of some morphological characters of the silver-cheeked toadfish Lagocephalus sceleratus (Gmelin, 1789) collected from
the Sea of Oman. Water Research Management 3, 25-30.
Leary A. and Allendroff F.W., 1989, Fluctuating asymmetry as an indicator of stress: implications for conservation biology. Trend in Evolution 4, 214-217.
Madkour H.A. and Dar M.A., 2007, The anthropogenic effluents of the human activities on the Red Sea coast at Hurghada Harbour (Case study). Egyptian
Journal of Aquatic Research 33, 43–58.
Madkour H.A., Ahmed A.A., and Mohamed A.W., 2006, Coastal sediments and their polluting metals of El- Hamrawein Harbour, Egyptian Red Sea coast:
Clues for monitoring environmental hazards. Sedimentology of Egypt 14, 155–131.
Madkour H.A., A. W. Mohamed A.W. and Ahmed N.A., 2008, The impact of anthropogenic activities on the physical and chemical characteristics of surface
sediments in some coastal lagoons along the Egyptian red sea coast. Egyptian Journal of Aquatic Research 34, 53 – 68.
Mansour A.M., Nawar A.H. and Madkour H.A., 2005, Metals concentration of recent invertebrates along the Red Sea Coast of Egypt: A Tool for monitoring
environmental hazards. Sedimentology of Egypt 13, 171–185.
Mansour A.M., Nawar A.H. and Mohamed A.W., 2000, Geochemistry of coastal marine sediments and their contaminant metals, Red Sea, Egypt: A legacy for
the future and a tracer to modern sediment dynamics. Sedimentology of Egypt 8, 231–242.
Mansour A.M., Nawar A.H. and Madkour H.A., 2011, Metal pollution in marine sediments of selected harbours and industrial areas along the Red Sea coast of
Egypt. Annalen des Naturhistorischen Museums in Wien Series A 113, 225–244.
Somarakis S., Kostikas I. and Tsimenides N., 1997, Fluctuating asymmetry in the otoliths of larval fish as an indicator of condition: conceptual and
methodological aspects. Journal of Fish Biology 51, 30-38.
Valentine D. W., Soule M.E. and Samollow P., 1973, Asymmetry in fishes: a possible statistical indicator of environmental stress. Fishery Bulletin 71, 357-370.
Van Vallen L., 1962, A study of fluctuating asymmetry. Evolution 16, 125-142.
Zakharov V. M.., 1992, Population phenogenetics: analysis of developmental stability in natural populations. Acta Zoologica Fennica 191, 7-30.
