Investigation of asymmetry in the Sagitta of the bartail flathead Platycephalus indicus (Linnaeus, 1758) in the marine waters of Iraq

Authors

  • Audai M. Qasim University of Basrah
  • Faleh M. Al-Zaidy University of Basrah
  • Baradi Waryani University of Sindh
  • Laith A. Jawad Al-Ayen Iraqi University

DOI:

https://doi.org/10.26881/oahs-2025.1.21

Keywords:

Platycephalidae, Actinopterygii, ecological factors, otolith, bartail flathead, contaminations, Arabian Gulf

Abstract

In this study, 76 specimens of Platycephalus indicus collected from the coasts of Iraq were examined, assessing the asymmetric square coefficient of variation (CV2a) among three features: the length, width, and weight of the otolith from both sides of the fish head. In the statistical analysis, the squared coefficient of fluctuating asymmetry (FA) deviation (CV2a) for the three sagitta features based on Valentine et al. (1973) formula was used to assess the values of FA in the three otolith features examined. The feasible source of the FA in the sagitta features considered has been resolved relative to the discrepancy in growing driven by environmental influence accompanying with the incongruence in water temperature, salinity, depth and impurities occurring in the coasts of Iraq. The application of bilateral irregularities in otolith parameters of P. indicus was discussed. Future studies will incorporate the collection of otoliths FA data from additional species in the marine waters of Iraq eventually improving the consistency and exactness of niches stress estimations in this marine waters.

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References

Abbas, M. F., Al-Mayah, S. H., & Khalaf, T. A. (2020). Changes of some environmental factors in the Iraqi Coastal Waters. Medico-legal Update, 20(3), 164–172.

Abdulsamad, S. M. S., Jawad, L. A., Al-Nusser, A. N. B., Waryani, B., & Rutkayová, J. (2020). Asymmetry in the otolith length and width of three Sparid fish species collected from Iraqi waters. Marine Pollution Bulletin, 156, 111177. https://doi.org/10.1016/j.marpolbul.2020.111177.

Ahmadreza Hashemi, S., Taghavimotlagh, S. A., & Eskandary, G. (2012). Some biological aspect of bartail flathead (Platycephalus indicus Linnaeus, 1758) in Northwest of Persian Gulf (Khuzestan Coastal Waters, Iran). WORLD, 4 (2), 185–190. DOI: 10.5829/idosi.wjfms.2012.04.02.61180.

Ahmed, K. S., Hassan, G. D., Salem, M. A., & Mousa, M. A. (2021). Age, growth and mortality of the bartail flathead (Platycephalus indicus) in Bardawil lagoon, North Sinai, Egypt. Egyptian Journal of Aquatic Biology and Fisheries, 25(4), 241–252. https://doi.org/10.21608/ejabf.2021.187867.

Al Abdulazi, B. A., Abbas, M. F., & Al-Imarah, F. J. (2021). Changes in some of heavy elements concentrations and their relationship with some environmental factors in the Iraqi Coastal Water. Basrah Journal of Science, 39(3), 538–547. https://doi.org/10.29072/basjs.2021313.

Al-Rasady, I. H., Jawad, L. A., Al-Mamry, J. M., Al-Mamari, H. M., Al-Yarubi, M. M., & Al-Mamary, D. S. (2010). Fluctuating asymmetry in the otolith length and width of Rhynchorhamphus georgi (Valenciennes, 1846) (Family: Hemiramphidae) collected from the Sea of Oman. Annales Museo Civico di Storia naturale de Ferrara, 13, 85–89.

Clarke, G. M. (1992). Fluctuating asymmetry: A technique for measuring developmental stress of genetic and environmental origin. Acta Zoologica Fennica, 191, 31–35.

El–Mahdy, S. M., Osman, Y. A., Mohammad, A. S., & Mehanna, S. F. (2019). Fluctuating asymmetry in otolith morphology of sabre squirrelfish, Sargocentron spiniferum (Forsskl, 1775) from the Red Sea, Egypt. International Journal of Fisheries and Aquatic Studies, 7, 188–191.

El-Regal, M., Jawad, L., Mehanna, S., & Ahmad, Y. (2016). Fluctuating asymmetry in the otolith of two parrotfish species, Chlorurus sordidus (Forsskål, 1775) and Hipposcarus harid (Forsskål, 1775) from Hurghada, Red Sea coast of Egypt. International Journal of Marine Science, 6(37), 1–5. https://doi.org/10.5376/ijms.2016.06.0037.

Fey, D. P., Greszkiewicz, M., Jakubowska, M., Lejk, A. M., Otremba, Z., Andrulewicz, E., & Urban-Malinga, B. (2020). Otolith fluctuating asymmetry in larval trout, Oncorhynchus mykiss Walbaum, as an indication of organism bilateral instability affected by static and alternating magnetic fields. The Science of the Total Environment, 707, 135489. https://doi.org/10.1016/j.scitotenv.2019.135489.

Fischer, W., Sousa, I., Silva, C., de Freitas, A., Poutiers, J. M., Schneider, W., Borges, T. C., Feral, J. P., & Massinga, A. (1990). FAO species identification sheets for fishing activities. Field guide to the commercial marine and brackish water species of Mozambique. Publication prepared in collaboration with the Research Institute of Mozambique, with funding from the UNDP/FAO MOZ/86/030 Project and NORAD (p. 424). FAO.

Frose, R., & Pauly, D. (2024). FishBase. World Wide Web electronic publication. www.fishbase.org, version (05/2024).

Gagliano, M., Depcznski, M., Simpson, S. D., & Moore, J. A. Y. (2008). Dispersal without errors: Symmetrical ears tune into the right: Frequency for survival. Proceedings of the Royal Society B, 275(1634), 527–534. https://doi.org/10.1098/rspb.2007.1388.

Gao, S., Yi, D., Zhang, S., Fu, G., & Lu, J. (2024). Indicators of environmental pressure in artificial and natural habitats: Analysis of fluctuating asymmetry in otoliths from Cynoglossus joyneri. Estuarine, Coastal and Shelf Science, 298, 108642. https://doi.org/10.1016/j.ecss.2024.

IGFA. (2001). Database of IGFA angling records until 2001. IGFA.

Jawad, L. (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 and Management, 3(1), 25–30.

Jawad, L. A. (2018). Halicampus zavorensis Dawson, 1984 (Syngnathidae): New record for Iraqi marine waters and for the Arabian Gulf area. Cahier de Biologia Marine, 59(1), 121–126. https://doi.org/10.21411/CBM.A.B08AB2A.

Jawad, L. A., Qasim, A. M., & Al-Faiz, N. A. (2021). Bilateral asymmetry in size of otolith 371 of Otolithes ruber (Bloch & Schneider, 1801) collected from the marine waters of Iraq. Marine Pollution Bulletin, 165, 112110. https://doi.org/10.1016/j.marpolbul.2021.112110.

Jawad, L. A., & Sadighzadeh, Z. (2013). Otolith mass asymmetry in the mugilid fish, Liza klunzingeri (day, 1888) collected from Persian Gulf near Bandar Abbas. Anales de Biologia, 35, 105–107. https://doi.org/10.6018/analesbio.0.35.16.

Jawad, L. A., Sadighzadeh, Z., & Al-Mamary, D. (2012). Fluctuating asymmetry in the otolith length, width and thickness in two pelagic fish species collected from the Persian Gulf near Bandar Abbas. Annales, Series Historia Naturalis, 22, 83–88.

Kennedy, B. P., Klaue, A., Blum, J. D., Folt, C. L., & Nislow, K. H. (2002). Reconstructing the lives of fish using Sr isotopes in otoliths. Canadian Journal of Fisheries and Aquatic Sciences, 59(6), 925–929. https://doi.org/10.1139/f02-070.

Knapp, L. W. (1984). Platycephalidae. In W. Fischer & G. Bianchi (Eds.), FAO species identification sheets for fishery purposes. Western Indian Ocean (Fishing Area 51) (Vol. 3). FAO.

Knapp, L. W. (1986). Platycephalidae. In M. M. Smith & P. C. Heemstra (Eds.), Smiths’ sea fishes (pp. 482–486). Springer-Verlag.

Knapp, L. W. (1999). Platycephalidae. Flatheads. In K. E. Carpenter & V. H. Niem (Eds.), FAO species identification guide for fishery purposes. The living marine resources of the Western Central Pacific. Volume 4. Bony fishes part 2 (Mugilidae to Carangidae) (pp. 2385–2421). FAO.

Koeberle, A. L., Arismendi, I., Crittenden, W., Leer, D., & Noakes, D. (2020). Fluctuating asymmetry of adult Chinook salmon (Oncorhynchus tshawytscha) otoliths from wild and hatchery origins. Aquatic Ecology, 54(4), 431–446. https://doi.org/10.1007/s10452-019-09733-0.

Kottelat, M., Whitten, A. J., Kartikasari, S. N., & Wirjoatmodjo, S. (1993). Freshwater fishes of western Indonesia and Sulawesi. Periplus Editions (p. 221).

Kuiter, R. H., & Onozuka, T. (2001). Pictorial guide to Indonesian reef fishes. Part 1. Eels – Snappers, Muraenidae – Lutjanidae (pp. 1–302). Zoonetics.

Lateef, Z. Q., Al-Madhhachi, A. S. T., & Sachit, D. E. (2020). Evaluation of water quality parameters in Shatt Al-Arab, Southern Iraq, using spatial analysis. Hydrology, 7(4), 1–33. https://doi.org/10.3390/hydrology7040079.

Lee, D. H., & Lysak, R. L. (1990). Effects of azimuthal asymmetry on ULF waves in the dipole magnetosphere. Geophysical Research Letters, 17(1), 53–56. https://doi.org/10.1029/GL017i001p00053.

Mabrouk, L., Guarred, T., Hamza, A., Messaoudi, I., & Hellal, A. N. (2014). Fluctuating asymmetry in grass goby Zosterisessor ophiocephalus Pallas, 1811 inhabiting polluted and unpolluted area in Tunisia. Marine Pollution Bulletin, 85(1), 248–251. https://doi.org/10.1016/j.marpolbul.2014.06.015.

Merilä, J., & Bjöklund, M. (1995). Fluctuating asymmetry and measurement error. Systematic Biology, 44(1), 97–101. https://doi.org/10.2307/2413486.

Palmer, A. R. (1994). Fluctuating asymmetry analyses: A premier. In T. A. Markov (Ed.), Developmental instability: Its origin and evolutionary implications (pp. 335–364). Kluwar.

Panfili, J., Durand, J. D., Diop, K., Gourene, B., & Simier, M. (2005). Fluctuating asymmetry in fish otoliths and heterozygosity in stressful estuarine environments (West Africa). Marine and Freshwater Research, 56(5), 505–516. https://doi.org/10.1071/MF04138.

Pannella, G. (1971). Fish otoliths, daily growth layers and periodical patterns. Science, 173(4002), 1124–1127. https://doi.org/10.1126/science.173.4002.11.

Riede, K. (2004). Global register of migratory species – From global to regional scales. Final Report of the R&D-Projekt 808 05 081 (p. 329). Federal Agency for Nature Conservation.

Somarakis, S., Kostikas, I., & 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(sA), 30–38. https://doi.org/10.1111/j.1095-8649.1997.tb06091.x.

Sousa, M. I., & Dias, M. (1981). Catalogo de peixes de Mocambique-zona sul (mais frequentemente desembarcados nos portos pesqueiros de maior importancia do sul de Mocambique: Maputo, Inhaca, Inhambane e Inhassoro). Food and Agriculture Organization of the United Kingdom (Rome) (p. 121). AGRIS – International System for Agricultural Science and Technology.

Valentine, D. W., Soule, M. E., & Samollow, P. (1973). Asymmetry in fishes: A possible statistical indicator of environmental stress. Fishery Bulletin, 71, 357–370.

Wu, B., Fang, C. L., Fu, P. F., Xiong, X. Y., Zhang, Y. P., Zhou, H. M., & Wang, Q. P. (2015). Growth characteristics of Coilia brachygnathus in the Poyang Lake – Yangtze River Waterway. Journal of Hydroecology, 36(3), 51–55. https://doi.org/10.15928/j.1674-3075.2015.03.008.

Zenteno, J. I., Bustos, C. A., & Landaeta, M. F. (2014). Larval growth, condition and fluctuating asymmetry in the otoliths of a mesopelagic fish in an area influenced by a large Patagonian glacier. Marine Biology Research, 10(5), 504–514. https://doi.org/10.1080/17451000.2013.831176.

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Published

2025-12-31

How to Cite

Qasim, A. M., Al-Zaidy, F. M., Waryani, B., & Jawad, L. A. (2025). Investigation of asymmetry in the Sagitta of the bartail flathead Platycephalus indicus (Linnaeus, 1758) in the marine waters of Iraq. Oceanological and Hydrobiological Studies, 54(4), 243–251. https://doi.org/10.26881/oahs-2025.1.21

Issue

Vol. 54 No. 4 (2025)

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