Seasonal Abundance of Zooplankton at Mangrove and Sandy Shore Habitat at Almarjan Zone, Jazan
Atmospheric and Oceanic Sciences
Volume 2, Issue 4, August 2017, Pages: 102-108
Received: May 21, 2017;
Accepted: May 31, 2017;
Published: Jul. 14, 2017
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AbdAllah Tharwat AbdAllah, Department of Biology, Faculty of Science, Jazan University, Jazan, Saudi Arabia
Adel Alhababy, Department of Biology, Faculty of Science, Jazan University, Jazan, Saudi Arabia
Mohammad Javed Kamal Shamsi, Department of Biology, Faculty of Science, Jazan University, Jazan, Saudi Arabia
Sahar Hassan Haroun, Department of Biology, Faculty of Science, Jazan University, Jazan, Saudi Arabia
Mohammed Salah AbdelDayem, Department of Biology, Faculty of Science, Jazan University, Jazan, Saudi Arabia
Zooplankton abundance was poorly studied at Jazan coastal area. The present study dealt with identification of zooplankton at sandy shore and mangrove coast at AlMarjan zone. Species richness and population density at different seasons will be determined at both studied areas between May 2016-April 2017. PH, conductivity, water temperature and salinity will be determined. Regression analysis between water criteria and zooplankton abundance will be calculated at different seasons. Ciliates, rotifers, nauplius larva, Gammarus, veliger larva, nematodes, Planaria, copepods and Kinorhyncha were identified at both studied areas. Highest species richness and abundance was recorded during summer season for Almarjan sandy shore and mangrove sites. At sandy shore; ciliates were the highest abundant zooplankton, while Kinorhyncha showed the least abundance. Nematode was the highest abundant at Almarjan mangrove, while Gnathostomulida were the least abundant zooplankton. Conductivity, salinity and water temperature showed significantly correlation relationship (P < 0.05) with zooplankton abundance. Data were discussed to highlight the role of zooplankton abundance in the mangrove and sandy shore ecosystem.
AbdAllah Tharwat AbdAllah,
Mohammad Javed Kamal Shamsi,
Sahar Hassan Haroun,
Mohammed Salah AbdelDayem,
Seasonal Abundance of Zooplankton at Mangrove and Sandy Shore Habitat at Almarjan Zone, Jazan, Atmospheric and Oceanic Sciences.
Vol. 2, No. 4,
2017, pp. 102-108.
Castro, P. and Huber, M. (2012) Marine Biology. ninth Edition. McGraw Hill publishers. FAO, (2006) Mangrove, description, Saudi Arabia. www.FAO.org
Lee, G. and Stokes, J. (2006) Marine Science. An illustrated guide to Science. Chelsea House publishers.
Nybakken, J. W. (1997) Marine Biology an Ecological Approach. Addison-Wesley Educational Publishers Inc., 4th Ed. 481 pp.
Farasan islands protected area master management plan (2000) National Commission for Wildlife Conservation and Development, Riyadh, 11575.
Abuzinada, A. H. (2001) First Saudi Arabian National Report on the Convention on Biological Diversity. The National Commission for Wildlife Conservation and Development.
Bakhsh, A. A. (1994) The biology of thread bream Nemipterus japonicas (Bloch) from the Jizan region of the Red Sea. J. KAU. Mar. Sci, 7: 179-189.
ObuidAllah, A. H., AbdAllah, A. T., Abu-Eldahab, H. M., Abdul-Rahman, N. S. and Mahdy, A. A. (2005) Impact of heavy metal contamination on seasonal abundance of planktonic copepods inhabiting mangrove area in Safaga, Red Sea, Egypt. Egyptian Journal of Experimental Biology (zool.), 1: 57-66.
Abdul Azis, P. K., Al- Tisan, I. A., Daili, M. A., Green, T. N., Dalvi, A. G. I. and Javeed, M. A. (2003) Chlorophyll and plankton of the gulf coastal waters of Saudi Arabia bordering a desalination plant. Desalination, 154; 291-302.
Bradford-Grieve, j. M.; Haakonsen, L. and Jillett, J. B. (1983) The marine fauna of New Zealand: pelagic calanoid copepods: Families Euchaetidae, Phaemidae, Scolecithricidae, Diaixidae and Tharybidae. Memoirs. N. Z. Oceanographic Institute 90: 1-150.
Heron, G. A. and Bradford-Grieve, J. M. (1995) The marine fauna of New Zealand: Pelagic Copepoda: Poecilostomatoida: Oncaeidae. Memoirs. N. Z. Oceanographic Institute 104: 1-57.
Hickman, C. P., Roberts, L. S., Keen, S. L., Larson, A., l'Anson, H. and Eisenhour, D. J. (2011) Integrated Principles of Zoology. 15th edition. Mc-Graw Hills Higher Education Publishers. Boston, Madrid
Jost, L. (2006) Entropy and diversity. Oikos, 113, 363–375.
Tuomisto, H. (2010) A diversity of beta diversities: straightening up a concept gone awry. Part 1. Defining beta diversity as a function of alpha and gamma diversity. Ecography, 33, 2-22.
Paul, S., Wooldridge, T. and Perissinotto, R. (2016) Evaluation of abiotic stresses of temperate estuaries by using resident zooplankton: A community vs. population approach. Estuarine, Coastal and Shelf Science, 170: 102-111.
Mahdy, A. A. (2005) Taxonomical and Ecological studies on Marine Zooplankton of the Red Sea, Egypt. Msc. Thesis, AlAzhar University, Assiut, Egypt.
Al-Asgah, N. A. and Bedawi, R. M. (1988) Some observations on water quality and aquatic fauna of the Gizan Reservoir in Saudi Arabia. J. Coll. Agric., King Saud Univ., Vol. 10, No.2, pp. 357-362.
Gaughan, D, Potter, C. (1995) Composition, Distribution and Seasonal Abundance of Zooplankton in a Shallow, Seasonally Closed Estuary in Temperate Australia. Estuarine, Coastal and Shelf Science Vol. 41 (2): 117-135.
Rombouts, I., Beaugrand, G., Artigas, L. F., Dauvin, J. C., Gevaert, F, Goberville, E., Kopp, D., Lefebvre, S., Luczak. C., Spilmont, N., Travers-Trolet, M., Villanueva, M. C., Kirby, R. R. (2013) Evaluating marine ecosystem health: Case studies of indicators using direct observations and modelling methods. Ecological indicators. 353-365.