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Variability of foraminifera associations in seagrass ecosystems in shallow water during winter (Kerkennah – Southern Tunisian coasts)

Published online by Cambridge University Press:  09 October 2017

Raida Trabelsi ,
Jannet Elloumi ,
Asma Hamza ,
Najla Ayadi ,
Ihsen Zghal  and
Habib Ayadi
Raida Trabelsi
Affiliation:
Université de Sfax, Faculté des Sciences de Sfax, Département des Sciences de la Vie, Unité de recherche UR/11ES72 Biodiversité et Ecosystèmes Aquatiques, Route Soukra Km 3.5 – BP 1171 – CP 3000 Sfax, Tunisia
Jannet Elloumi*
Affiliation:
Université de Sfax, Faculté des Sciences de Sfax, Département des Sciences de la Vie, Unité de recherche UR/11ES72 Biodiversité et Ecosystèmes Aquatiques, Route Soukra Km 3.5 – BP 1171 – CP 3000 Sfax, Tunisia
Asma Hamza
Affiliation:
Université de Sfax, Faculté des Sciences de Sfax, Département des Sciences de la Vie, Unité de recherche UR/11ES72 Biodiversité et Ecosystèmes Aquatiques, Route Soukra Km 3.5 – BP 1171 – CP 3000 Sfax, Tunisia Institut National des Sciences et Technologies de la Mer de Sfax. Rue de Madagascar – CP 3000 Sfax, Tunisia
Najla Ayadi
Affiliation:
Université de Sfax, Ecole Nationale d'Ingénieurs de Sfax, Département de Géoressources. Laboratoires 3E Eau/Energie/Environnement, Route Soukra Km 4 – BP: W 3038- Sfax, Tunisia
Ihsen Zghal
Affiliation:
Université de Sfax, Ecole Nationale d'Ingénieurs de Sfax, Département de Géoressources. Laboratoires 3E Eau/Energie/Environnement, Route Soukra Km 4 – BP: W 3038- Sfax, Tunisia
Habib Ayadi
Affiliation:
Université de Sfax, Faculté des Sciences de Sfax, Département des Sciences de la Vie, Unité de recherche UR/11ES72 Biodiversité et Ecosystèmes Aquatiques, Route Soukra Km 3.5 – BP 1171 – CP 3000 Sfax, Tunisia
*
Correspondence should be addressed to: J. Elloumi, Université de Sfax, Faculté des Sciences de Sfax, Département des Sciences de la Vie, Unité de recherche UR/11ES72 Biodiversité et Ecosystèmes Aquatiques, Route Soukra Km 3.5 – BP 1171 – CP 3000 Sfax, Tunisia email: [email protected]
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Abstract

This study intends to reliably estimate the general status of the benthic and the epiphytic foraminifera community related to each studied seagrass ecosystem (Posidonia oceanica, Cymodocea nodosa and Halophila stipulacea) distributed in different shallow sites in the coastal archipelago of Kerkennah (Gulf of Gabes, Tunisia) during winter. We were able to first sort and subsequently identify some characteristics conditioning their behaviour. Twenty-four species of foraminifera were encountered. Among them, three epiphytic species identified on these seagrass leaves had a much lower abundance than those in the sediment. We were interested in highlighting the foraminiferal community related to Halophila stipulacea, since this seagrass species is newly introduced into the Mediterranean sea. Thanks to the statistical study, we were able to identify the favourable habitat for epiphytic and benthic foraminifera among the three seagrass ecosystems. A correlation between the identified foraminifera species and some environmental parameters was addressed using a variety of software.

Keywords

ForaminiferabenthicepiphyticseagrassKerkennah
Type
Research Article
Information
Journal of the Marine Biological Association of the United Kingdom , Volume 98 , Special Issue 8: Special Section: European Marine Biology Symposium Papers 2018 , December 2018 , pp. 1945 - 1954
Copyright
Copyright © Marine Biological Association of the United Kingdom 2017 

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References

REFERENCES

Aladro-Lubel, M.A. and Martinez-Murillo, M.E. (1999) Epibiotic Protozoa (Ciliophora) on a community of Thalassia testudinum Banks ex König in a coral reef in Veracruz Mexico. Aquatic Botany 65, 239254.Google Scholar
Aloui-Bejaoui, N. and Afli, A. (2012) Functional diversity of the macro-invertebrate community in the port area of Kerkennah Islands (Tunisia). Mediterranean Marine Science 13, 93102.Google Scholar
Aloulou, F., Elleuch, B. and Kallel, M. (2011) Benthic foraminiferal assemblages as pollution proxies in the northern Gulf coast of Gabes, Tunisia. Environmental Monitoring and Assessment 184, 777795. doi: 10.1007/s10661-011-2001-2.Google Scholar
Ammari, A. (1984) The contribution to the hydrological and sedimentological knowledge of the platform Kerkennah. Dissertation, University of Tunis.Google Scholar
Anonymous (2012) Unep(Depi)/Med Ig.20/Inf.8, p. 270.Google Scholar
Avşar, N. and Ergin, M. (2001) Spatial distribution of holocene benthic foraminifera, Northeastern Aegean Sea. International Geology Review 43, 754770.Google Scholar
Avşar, N. and Meriç, E. (2001) Dark-Ilica (Izmir) in thermal-to-date systematic distribution of benthic foraminifera. Hacettepe University Geoscience Journal 24, 1322.Google Scholar
Barras, C., Jorissen, F.J., Labrune, C., Andral, B. and Boissery, P. (2014) Live benthic foraminiferal faunas from the French Mediterranean Coast: towards a new biotic index of environmental quality. Ecological Indicators 36, 719743. doi: 10.1016/j.ecolind.2013.09.028.Google Scholar
Basso, D. and Spezzaferri, S. (2000) The distribution of living (stained) benthic Foraminifera in Iskenderun Bay (Eastern Turkey) a statistical approach. Bollettino della Societa Paleontologica Italiana 39, 359379.Google Scholar
Ben Brahim, M. (2012) Marine Seagrass Posidonia oceanica Delille: Structure, Vitality, and epiphytism Bioindication in the eastern and south-eastern Tunisia. Dissertation, University of Sfax.Google Scholar
Ben Brahim, M., Hamza, A., Ben Ismail, S., Mabrouk, L., Bouain, A. and Aleya, L. (2013) What factors drive seasonal variation of phytoplankton, protozoans and metazoans on leaves of Posidonia oceanica and in the water column along the coast of the Kerkennah Islands, Tunisia. Marine Pollution Bulletin 71, 286298. doi: 10.1016/j.marpolbul.2013.01.024.Google Scholar
Ben Mustapha, K. (2007) Littoral demosponges from Kerkennah islands (Tunisia). Bulletin de l'institut nationale des Sciences et Techniques de la Mer de Salammbô 34, 3759. http://www.oceandocs.net/bitstream/1834/4208/1/5.pdf.Google Scholar
Blanc-Vernet, L., Clairefond, P. and Orsolini, P. (1979) Les Foraminifères. In Burollet, P.F., Clairefond, P. and Winnock, E. (eds) La mer pélagienne – étude sédimentologique et écologique du Plateau tunisien et du Golfe de Gabes, Volume 6. Géo. Méd., pp. 171209.Google Scholar
Buosi, C., Cherchi, A., Ibba, A., Marras, B., Marrucci, A. and Schintu, M. (2013) Preliminary data on benthic foraminiferal assemblages and sedimentological characterization from some polluted and unpolluted coastal areas of Sardinia (Italy). Bollettino della Societa Paleontologica Italiana 52, 3544.Google Scholar
Caruso, A., Cosentino, C., Tranchina, L. and Brai, M. (2011) Response of benthic foraminifera to heavy metal contamination in marine sediments (Sicilian coasts, Mediterranean sea). Chemistry in Ecology 27, 930.Google Scholar
Cavalier-Smith, T. (2004) Only six kingdoms of life. Proceedings of the Royal Society London B 271, 12511262.Google Scholar
Chimenz, C., Taramelli, E., Cironi, R., Contessini, A., Gravina, F., Maggiore, F.R., Maj, R.L.C., Motta, M.G. and Somaschini, A. (1989) Studies on animal populations of leaves and rhizomes of Posidonia oceanica (L.) Delile on the rocky bottom of Torvaldaliga. In Boudouresque, C.F., Meinesz, A., Fresi, E. and Gravez, V. (eds) International workshop on Posidonia beds. Marseilles: GIS Posidonie, pp. 145155.Google Scholar
Cimerman, F. and Langer, M.R. (1991) Mediterranean foraminifera. Ljubljana: Slovenian Academy of Natural Sciences, and the Scientific Research Center of the Slovenian Academy of Sciences and Arts, 118 pp.Google Scholar
Clarke, K.R. and Warwick, R.M. (1994) Similarity-based testing for community pattern: the two-way layout with no replication. Marine Biology 118, 167176.Google Scholar
Cosentino, C., Pepe, F., Scopelliti, G., Calabrò, M. and Caruso, A. (2013) Benthic foraminiferal response to trace element pollution – the case study of the Gulf of Milazzo, NE Sicily (Central Mediterranean Sea). Environmental Monitoring Assessment 185, 87778802.Google Scholar
Debenay, J.P. (2001) Foraminiferal assemblages in a hypersaline lagoon, Araruama (R.J.) Brazil. Journal of Foraminiferal Research 31, 133151.Google Scholar
Debenay, J.P., Favry, A., Guelorget, O. and Perthuisot, J.P. (1998) Distribution of foraminifera present in a Mediterranean ecosystem: Prevost laguna, pp. 4154.Google Scholar
Debenay, J.P., Millet, B. and Angelidis, M.O. (2005) Relationships between foraminiferal assemblages and hydrodynamics in the Gulf of Kalloni, Greece. Journal of Foraminiferal Research 35, 327343.Google Scholar
Debenay, J.P., Pawlowski, J. and Decrouez, D. (1996) Les Foraminiferes actuels. Paris: Masson, 329 pp.Google Scholar
Devi, G.S. and Rajashekhar, K.P. (2009) Intertidal Foraminifera of Indian coast – a scanning electron photomicrograph – illustrated catalogue. Journal of Threatened Taxa 1, 1736. http://www.threatenedtaxa.org/ZooPrintJournal/2009/January/o197726i0917-36.pdf.Google Scholar
Glaçon, G. (1963) Foraminifères des dépôts actuels des côtes de Tunisie sud-orientale. Thèse de la Faculté des Sciences, Paris.Google Scholar
Holzmann, M., Hohenegger, J.P., Hallock, W.E., Piller, J. and Pawlowski, J. (2001) Molecular phylogeny of wide miliolid Foraminifera (Soritacea Ehrenberg 1839). Marine Micropaleontology 43, 5774.Google Scholar
Hottinger, L., Halicz, E. and Reiss, Z. (1993) Recent Foraminiferal from the Gulf of Aqaba, Red Sea: Slovenska Akademija umetnosti Znanosti in Academia Scientiarum and Artium Slovenica, 179 pp.Google Scholar
Ishman, S.E., Graham, I. and D'Ambrosio, J. (1997) U.S. modern benthic foraminifer distributions in Biscayne Bay: analogs for historical reconstructions. Geological Survey, 926A National Center.Google Scholar
Javaux, E.J. and Scott, D.B. (2003) Illustration of modern benthic foraminifera from Bermuda: remarks on distribution and in other subtropical/tropical areas. Palaeontologia Electronica 6. http://palaeo-electronica.org/paleo/2003_1/benthic/issue1_03.htm.Google Scholar
Kerneis, A. (1960) Contribution to the fauna and ecological study of Posidonia meadows in the region of Banyuls. Vie Milieu, 11, 211.Google Scholar
Leckie, R.M. (no date) Utility of foraminifera in paleoenvironmental and paleoceanographic research, 9 pp. http://www.geo.umass.edu/faculty/leckie/Utility%20of%20forams_Leckie.pdfGoogle Scholar
Lee, J.J., Muller, W., Stone, R.J., Enery, M.E. and Zucker, W. (1969) Standing crop of Foraminifera in sublittoral epiphytic communities of a Long Island salt marsh. Marine Biology 4, 4461.Google Scholar
Leeder, M.R. (1982) Sedimentology: process and product. London: George Allen and Unwin.Google Scholar
Libes, M. (1986) Productivity-irradiance relationship of Posidonia oceanica and its epiphytes. Aquatic Botany 26, 285306.Google Scholar
Mabrouk, L., Ben Brahim, M., Hamza, A., Mahfoudhi, M. and Bradai, M.N. (2014) Variability in the structure of epiphytic microalgae assemblages on the leaves of Posidonia oceanica in relation to human disturbance in a meadow off Tunisia. Scienta Marina 78, 2739.Google Scholar
Mabrouk, L., Hamza, A., Brahim, M.B. and Bradai, M.N. (2011) Temporal and depth distribution of microepiphytics on Posidonia oceanica (L.) Delile leaves in a meadow of Tunisia. Marine Ecology 32, 148161. doi: 10.1111/j.1439-0485.2011.00432.x.Google Scholar
Mateu-Vicens, G., Antonio, B., Salud, D. and Beatriz, R. (2010) Comparative analysis of epiphytic foraminifera in sediments colonized by seagrass Posidonia oceanica and invasive macroalgae Caulerpa spp. Journal of Foraminiferal Research 40, 134147.Google Scholar
Melis, R. and Violanti, D. (2006) Foraminiferal biodiversity and Holocene evolution of the Phetchaburi coastal area (Thailand Gulf). Maine Micropaleontology 1–3, 94115.Google Scholar
Meriç, E., Avşar, N., Nazik, A., Barut, F., Bergin, F., Balkis, N., Oncel, M. and Kapan-Yesilyurt, S. (2010) The response of benthic foraminifer, ostracod and mollusc assemblages to environmental conditions: a case study from the Camalti Saltpan (Izmir-Western Turkey). Mediterranean Marine Sciences 11/1, 0532. http://www.medit-mar-sc.net/index.php/marine/article/view/88.Google Scholar
Milker, Y. and Schmiedl, G. (2012) A taxonomic guide to modern shelf benthic foraminifera of the western Mediterranean Sea. Palaeontologia Electronica 15, 134.Google Scholar
Montaggioni, L.F. and Camoin, G.F. (1993) Stromatolites associated with coralgal communities in Holocene high-energy reefs. Journal of Geology 21, 149152.Google Scholar
Murray, J.W. (2003) An illustrated guide to the benthic foraminifera of the Hebridean shelf, west of Scotland, with notes on their way of life. Palaeontologia Electronica 5.Google Scholar
Murray, J.W. (2006) Ecology and Applications of Benthic Foraminifera. Cambridge: Cambridge University Press.Google Scholar
Novak, R. (1984) A study in ultra-ecology: microorganisms on the seagrass Posidonia oceanica (L.) Delile. PSZNI: Marine Ecology 5, 143190.Google Scholar
Perchet, G.T. (2008) Etude de bioremédiation de sediments contamines par des composés organiques nitres persistants. Thése. de l'institut national polytechnique de Toulouse, Toulouse, France.Google Scholar
Rasmussen, T.L. (2005) Systematic paleontology and ecology of benthic foraminifera from the Plio-Pleistocene Kallithea Bay section, Rhodes, Greece. Cushman Foundation Special Publications, 39, 53157.Google Scholar
Sanders, R.W. (1991) Mixotrophic protists in marine and freshwater ecosystems. Journal of Protozoology 38, 7681.Google Scholar
Schumacher, B.A. (2002) Methods for the determination of total organic carbon (toc) in soils and sediments. http://bcodata.whoi.edu/LaurentianGreatLakes_Chemistry/bs116.pdf.Google Scholar
Sen Gupta, B.K. (2003) Modern foraminifera. New York, NY: Kluwer Academic Publishers.Google Scholar
Seuront, L. and Bouchet, V. (2015) The devil lies in details: new insights into the behavioural ecology of intertidal foraminifera. Journal of Foraminiferal Studies 45, 390401.Google Scholar
Sgarrella, F. and Moncharmont-Zei, M. (1993) Benthic foraminifera of the Gulf of Naples (Italy), systematic and autoecology. Bollettino della Societa Paleontologica Italiana 32, 145264.Google Scholar
Sghaier, Y.R., Zakhama-Sraieb, R., Benamer, I. and Charfi-Cheikhrouha, F. (2011) Occurrence of the seagrass Halophila stipulacea (Hydocharitaceae) in the southern Mediterranean Sea. Botanica Marina 54, 575582.Google Scholar
Sohrabi-Mollayousefy (2006) Masoomeh. Important diatoms of the mangrove ecosystem, Qeshm Island (Persian Gulf).Google Scholar
WoRMS Editorial Board (2015) World register of marine species. Available at http://www.marinespecies.org at VLIZ (accessed 29 September 2015).Google Scholar
Yalçin, H., Meriç, E., Avşar, N., Tetiker, S., Barut, I.F., Yilmaz, Ş. and Dinçer, F. (2006) Recent colored benthic foraminifers and their mineralogical and geochemical features in the Aegean and Southwestern Mediterranean (Gokceada-Bozcaada-Mitilini Islands and Antalya) Coasts. Geological Bulletin of Turkey 49, 2951.Google Scholar