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Volume 45, Issue 2

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Scleractinian diversity in the Dardanelles and Marmara Sea (Turkey): morphology, ecology and distributional patterns

H. Bariş Özalp
  • Corresponding author
  • Faculty of Marine Science and Technology, Department of Marine Biology, Çanakkale Onsekiz Mart University, Çanakkale, Turkey
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  • De Gruyter OnlineGoogle Scholar
/ Mustafa Alparslan
Published Online: 2016-06-22 | DOI: https://doi.org/10.1515/ohs-2016-0023

Abstract

Although marine research on anthozoans began at the end of the 1800s with some reports on the occurrence in Turkey, comprehensive knowledge about their biotic features remains limited. This study is the first detailed diversity assessment of scleractinian corals inhabiting the Turkish waters. The surveys conducted on rocky habitats between 2011 and 2014 around the Dardanelles and Marmara Sea provided the distributional data of nine corals, five of which (Caryophyllia inornata, Paracyathus pulchellus, Polycyathus muellerae, Phyllangia mouchezii, Leptopsammia pruvoti) were recorded for the first time from the above-mentioned regions. During the surveys carried out at 200 stations down to 50 m depth, a total of 1072 scuba dives were made and the ecological features of habitats, physical characteristics of coral species and an updated list of corals as a contribution to the scleractinian fauna of Turkey were provided. The abundance rate of Polycyathus muellerae and Cladocora caespitosa in Eceabat and Dardanos regions was higher than at the other stations.

This article offers supplementary material which is provided at the end of the article.

Key words: Scleractinia; coral ecology; new records; Dardanelles; Marmara Sea

References

  • AIMS. (2009, May). Biological communities and biodiversity at Scott Reef Lagoon. Retrieved January 23, 2009, from http://www.aims.gov.au/documents/30301/908847/ Discovering+Scott+Reef+-+Biological+Communities.pdf/25e26a77-0dfc-43a9-846b-b575a413a902.

  • Álvarez-Pérez, G., Busquets, P., De Mol, B., Sandoval, N.G., Canals, M. et al. (2005). Deep-water coral occurrences in the Strait of Gibraltar. In A Freiwald & J.M. Roberts JM (Eds), Cold-water corals and Ecosystems (pp. 207-221). New York: Springer Berlin Heidelberg.Google Scholar

  • ARCGIS. (2014, January). Leptopsammia pruvoti distributional pattern, Retrieved May 11, 2014. http://www.arcgis.com/home/webmap/viewer.html?webmap=4282081d013946feb4f460325a4a1759&extent=-12.8948,30.6105,32.5447,49.647.

  • Ateş, A.S., Katagan, S., Sezgin, M., Acar, S. (2014). The Response of Apseudopsis latreillii (Milne-Edwards, 1828) (Crustacea, Tanaidacea) to Environmental Variables in the Dardanelles. Turkish Journal of Fisheries and Aquatic Sciences 15(14): 113-124. .CrossrefGoogle Scholar

  • Ballesteros, E. (2006). Mediterranean coralligenous assemblages: a synthesis of present knowledge. Oceanography and Marine Biology: An Annual Review 44: 123-195. .CrossrefGoogle Scholar

  • Bell, J.J., Turner, J.R. (2000). Factors influencing the density and morphometrics of the temperate cup coral Caryophyllia smithii. Journal of the Marine Biological Association of the United Kingdom 80: 437-441. .CrossrefGoogle Scholar

  • Beşktepe, Ş.T. (2003). Density currents in the two-layer flow: an example of Dardanelles outflow, Courants de densité dans un flux á deux couches : l’exemple du courant de sortie des Dardanelles. Oceanologica Acta 26: 243-253.Google Scholar

  • Bianchi, C.N., Pronzato, R., Cattaneo-Vietti, R., Benedetti-Cecchi, L., Morri, C., et al. (2004). Hard bottoms. In M.C. Gambi, M. Dappiano (Eds.), Mediterranean marine benthos: a manual of methods for its sampling and study (pp. 185-215). Societá Italiana di Biologia Marina, Genova.Google Scholar

  • Bo, M., Bavestrello, G., Canese, S., Giusti, M., Salvati, E. et al. (2009). Characteristics of a black coral meadow in the twilight zone of the central Mediterranean Sea. Marine Ecology Progress Series 397: 53-61. .CrossrefGoogle Scholar

  • Borges, P.A.V., Bried, J., Costa, A., Cunha, R., Gabriel, R. et al. (2010). A list of the terrestrial and marine biota from the Azores (1st ed.). Cascais, Portuguese: Principia.Google Scholar

  • Cairns, S. (1977). Caryophylliina and Dendrophylliina (Anthozoa: Scleractinia). Memoirs of the Hourglass Cruises 3(4): 27.Google Scholar

  • Cairns, S.D. (2004). The Azooxanthellate Scleractinia (Coelenterata: Anthozoa) of Australia. Records of the Australian Museum 56(3): 259-329.Google Scholar

  • Cairns, S.D., Hoeksema, B.W., van der Land, J. (2001). Scleractinia. In M.J. Costello et al. (Eds.), European register of marine species: a check-list of the marine species in Europe and a bibliography of guides to their identification (pp. 109-110).Google Scholar

  • Cánovas Molina, A., Montefalcone, M., Canessa, M., Coppo, S., Diviacco, D. et al. (2015). Coralligenous reefs in Liguria: Distribution and Characterization. In Proceedings of the 2nd Mediterranean Symposium on the conservation of Coralligenous and other Calcareous Bio-Concretions, 29-30 October 2014 (pp. 55-60). Portorož, Slovenia: (RAC/ SPA).Google Scholar

  • Caroselli, E., Zaccanti, F., Mattioli, G., Falini, G., Levy, O. et al. (2012). Growth and Demography of the Solitary Scleractinian Coral Leptopsammia pruvoti along a Sea Surface Temperature Gradient in the Mediterranean Sea. Plos One. .CrossrefGoogle Scholar

  • Caroselli, E., Nanni, V., Levy, O., Falini, G., Dubinsky, Z. et al. (2015). Latitudinal variations in biometry and population density of a Mediterranean solitary coral. Limnology and Oceanography .CrossrefGoogle Scholar

  • Coll, M., Piroddi, C., Steenbeek, J., Kaschner, K., Lasram, F.B.R. et al. (2010). The biodiversity of the Mediterranean Sea: estimates, patterns and threats. PLoS One 5: 11842. .CrossrefGoogle Scholar

  • Colombo, A. (1885). Racolte Zoologiche eseguite del R. Piroscofa Washington nelle campagna-abissale talassografica dell’anno 1885. Rivista Maritime. 1-34 (In Italian).Google Scholar

  • Çelik, E.Ş., Ateş, A.S., Akbulut, M. (2007). A Survey on the Brachyura (Crustacea, Decapoda) in the Dardanelles. Turkish Journal of Zoology 31: 181-183.Google Scholar

  • Çinar, M.E., Yokeş, M.B., Açik, Ş., Bakir, A.K. (2014). Checklist of Cnidaria and Ctenophora from the coasts of Turkey. Turkish Journal of Zoology 38: 677-697.Google Scholar

  • Çinar, M.E., Bilecenoglu, M., Öztürk, B., Can, A. (2006). New records of alien species in the Levantine coast of Turkey. Aquatic Invasions 1(2): 84-90. DOI : 10.3906/zoo-1405-79.CrossrefGoogle Scholar

  • David, R., Guillemain, D. (2014). Sampling to study the intraspecific variability of Myriapora truncata, Lithophyllum stictaeforme/cabiochae and Caryophyllia inornata. Cigesmed project, European research program for management assistance on the coralligenous habitats, marine Mediterranean ecosystems of great natural value. Retrieved January 19, 2015, from http://www.cigesmed.eu/-Sampling-to-study-the-

  • Fabri, M.C., Pedel, L., Beuck, L., Galgani, F., Hebbeln, D. et al. (2014). Megafauna of vulnerable marine ecosystems in French mediterranean submarine canyons: Spatial distribution and anthropogenic impacts. Deep-Sea Research II 104: 184-207. .CrossrefGoogle Scholar

  • Fenner, D., Riolo, F., Vittorio, M. (2008). A Survey of the Corals within Diving Depths of Capo Rizzuto Marine Protected Area, Calabria, Souther Italy. Mappamond GIS. 71 pp.Google Scholar

  • Forbes, E. (1844). Report on the Mollusca and Radiata of the Aegean Sea, and on their distribution, considering as bearing on geology. In Report of the 13th Meeting of the British Association for the Advancement of Science 13: 130193.Google Scholar

  • Frade, P.R., Reyes-Nivia, M.C., Faria J., Kaandorp, J.A., Luttikhuizen, P.C. et al. (2010). Semi-permeable species boundaries in the coral genus Madracis: Introgression in a brooding coral system. Molecular Phylogenetics and Evolution. 57: 1072-1090. .CrossrefGoogle Scholar

  • Gerovasileiou, V, Chintiroglou, C.C., Vafidis, D., Koutsoubas, D., Sini, M. et al. (2015). Census of biodiversity in marine caves of the eastern Mediterranean Sea. Mediterranean Marine Science. 16(1): 245-265. .CrossrefGoogle Scholar

  • Goffredo, S., Marchini, C., Rocchi, M., Airi, V., Caroselli, E. et al. (2012). Unusual Pattern of Embryogenesis of Caryophyllia inornata (Scleractinia, Caryophylliidae) in the Mediterranean Sea: maybe Agamic Reproduction. Journal of Morphology. 273: 943-956. .CrossrefGoogle Scholar

  • Goffredo, S., Gasparini, G., Marconi, G., Putignano, M.T., Pazzini, C. et al. (2011). Sexual Reproduction in the Mediterranean Endemic Orange Coral Astroides calycularis (Scleractinia: Dendrophylliidae). Bulletin of Marine Science 87(3): 589-604. DOI : 10.5343/bms.2010.1068.CrossrefGoogle Scholar

  • Goffredo, S., Caroselli, E., Mattioli, G., Pignotti, E., Zaccanti, F. (2008). Relationships between growth, population structure and sea surface temperature in the temperate solitary coral Balanophyllia europaea (Scleractinia, Dendrophylliidae). Coral Reefs 27: 623-632.Google Scholar

  • Goffredo, S., Caroselli, E., Pignotti, E., Mattioli, G., Zaccanti, F. (2007). Variation in biometry and population density of solitary corals with environmental factors in the Mediterranean Sea. Marine Biology 152: 351-361.Google Scholar

  • Goffredo, S., Mattioli, G., Zaccanti F. (2004). Growth and population dynamics model of the Mediterranean solitary coral Balanophyllia europaea (Scleractinia, Dendrophylliidae). Coral Reefs. 23: 433-443.Google Scholar

  • Goffredo, S., Telo, T. (1998). Hermaphroditism and brooding in the solitary coral Balanophyllia europaea (Cnidaria, Anthozoa, Scleractinia). Italian Journal of Zoology 65: 159-165.Google Scholar

  • Gökalp, M. (2012). Phyllangia mouchezii stock photo. Retrieved January 15, 2013, from http://www.mertgokalp.com/gallery/phyllangia-mouchezii/

  • Gökalp, M. (2011) Turkiye Deniz Canlilari Rehberi. Istanbul: Inkilap Yayinevi (In Turkish).Google Scholar

  • Gönülal, O. & Güreşen, S.O. (2014). A list of macrofauna on the continental shelf of Gükçeada Island (northern Aegean Sea) with a new record (Gryphus vitreus Born, 1778) (Brachiopoda, Rhynchonellata) for the Turkish seas. Journal of the Black Sea and Mediterranean Environment 20(3): 228-252.Google Scholar

  • Güzcelioğlu, B. (2011). Denizlerimizin Sakinleri. Istanbul: Gükçe offset basimevi (In Turkish).Google Scholar

  • Harrington, LM. (2004). Ecology of crustose coralline algae; interactions with Scleractinian corals and responses to environmental conditions. Doctoral Thesis, James Cook University, California, USA.Google Scholar

  • Irving, R.A. (2004). Leptopsammia pruvoti at Lundy - Teetering on the Brink? Porcupine Marine Natural History Society Newsletter. 15: 29-34.Google Scholar

  • IUCN. (2014, April). Scleractinians. Retrieved September 12, 2014, from http://www.iucn.it/scheda.php?id=-424725192

  • Kersting, D.K., Ballesteros, E., Bensoussan, N., Casado, C., De Caralt, S. et al. (2014). Long-term monitoring of Cladocora caespitosa reefs in the Columbretes Islands: From mapping to population dynamics and threats. In Proceedings of the 2nd Mediterranean Symposium on the conservation of Coralligenous and other Calcareous Bio-Concretions, 29-30 October 2014 (pp. 89-94). Portorož, Slovenia: RAC/SPA.Google Scholar

  • Kersting, D.K., Bensoussan, N., Linares, C. (2013). Long-term responsed of the endemic reef builder Cladocora caespitosa to Mediterranean warming. Plos ONE 8(8): e70820. .CrossrefGoogle Scholar

  • Kersting D.K., Linares, C. (2012). Cladocora caespitosa bioconstructions in the Columbretes Islands Marine Reserve (Spain, NW Mediterranean): distribution, size structure and growth. Marine Ecology 33:427-436.Google Scholar

  • Kipson, S., Kalep, S., Kružic, P., Žuljevic, A., Bakran-Petricioli, T. et al. (2014). Preliminary list of typical/indicator species within Croatian Coralligenous Monitoring Protocol. In Proceedings of the 2nd Mediterranean Symposium on the conservation of Coralligenous and other Calcareous Bio-Concretions, 29-30 October 2014 (pp. 219-220). Portorož, Slovenia: RAC/SPA.Google Scholar

  • Koukouras, A. (2010). Check-list of marine species from Greece. Retrieved September 22, 2010, from http://www.marinespecies.org/aphia.php?p=sourcedetails&id=142068

  • Kružić, P. (2002). Marine fauna of the Mljet National Park (Adriatic Sea, Croatia). 1. Anthozoa. Natura Croatica 11(3): 265-292.Google Scholar

  • Kružić, P., Požar-Domac, A. (2003). Banks of the coral Cladocora caespitosa (Anthozoa, Scleractinia) in the Adriatic Sea. Coral Reefs 22(4): 536. .CrossrefGoogle Scholar

  • Kružić, P. (2007). Anthozoan fauna of Telascica Nature Park (Adriatic Sea, Croatia). Natura Croatica 16 (4): 233-266.Google Scholar

  • Kružić, P., Benkovic L. (2008). Bioconstructional features of the Cladocora caespitosa (Anthozoa, Scleractinia) in the Adriatic Sea (Croatia). Marine Ecology. .CrossrefGoogle Scholar

  • Kružić, P., Lipej, L., Mavric, B. (2014). Response of symbiotic scleractinian corals to sea temperature anomalies in the Adriatic Sea. In Proceedings of the 2nd Mediterranean Symposium on the conservation of Coralligenous and other Calcareous Bio-Concretions, 29-30 October 2014 (pp. 221-222). Portorož, Slovenia: RAC/SPA.Google Scholar

  • Kružić, P., Rodic, P. (2014). Impact of climate changes on coralligenous community in the Adriatic Sea. In Proceedings of the 2nd Mediterranean Symposium on the conservation of Coralligenous and other Calcareous Bio-Concretions, 29-30 October 2014 (pp. 100-105). Portorož, Slovenia: RAC/SPA.Google Scholar

  • Kržzić, P., Popijac, A. (2015) Mass mortality events of the coral Balanophyllia europaea (Scleractinia, Dendrophylliidae) in the Mljet National Park (eastern Adriatic Sea) caused by sea temperature anomalies. Coral Reefs. 34: 109-118.Google Scholar

  • Kubanç, C., Kubanç, S.N., Akinci, H. (2009). Diversity of Marine Ostracoda (Crustacea) on the Northern Coasts of Sea of Marmara (Turkey). Journal of the Black Sea and Mediterranean Environment 14: 167-182.Google Scholar

  • Loya, Y. (2004). The Coral Reefs of Eilat, Past, Present and Future: Three Decades of Coral Community Structure Studies. Springer-Verlag Berlin Heidelberg. Retrieved April 20, 2012, from SpringerLink http://link.springer.com/chapter/10.1007/978-3-662-06414-6_1. .Crossref

  • Micael, J., Azevedo, J.M.N., Costa, A.C. (2005). Biological characterisation of a subtidal tunnel in Sao Miguel island (Azores). Biodiversity Conservation. 15: 3675-3684. .CrossrefGoogle Scholar

  • Monteiro, P., Bentes, L., Oliveira, F., Afonso, C., Rangel, M. et al. (2013). Atlantic Area Eunis Habitats. Adding new habitat types from European Atlantic coast to the EUNIS Habitat Classification. Faro: University of Algarve. (No.3/2013).Google Scholar

  • Morri, C., Vafidis, D., Peirano, A., Chintiroglou, C.C., Bianchi, C.N. (2000). Anthozoa from a subtidal hydrothermal area of Milos Island (Aegean Sea), with notes on the construction potential of the scleractinian coral Madracis pharensis. Italian Journal of Zoology 67(3): 319-325. .CrossrefGoogle Scholar

  • Nunes, F.L.D., Norris, R.D., Knowlton, N. (2011). Long Distance Dispersal and Connectivity in Amphi-Atlantic Corals at Regional and Basin Scales. PLoS ONE 6(7): e22298. .CrossrefGoogle Scholar

  • OCEANA. (2004, March). The corals of the Mediterranean. Retrieved May 21, 2014, from http://oceana.org/sites/default/files/reports/Corals_Mediterranean_eng.pdf.

  • Özalp, H.B., Alparslan, M. (2015). Distribution and Morphology of the Colonial Scleractinian Madracis pharensis (Cnidaria, Anthozoa) in the Dardanelles (Marmara Sea, Turkey). Acta Zoologica Bulgarica (in press).Google Scholar

  • Özalp, H.B. (2012). Çanakkale Boğazi mercan faunasi üzerine manta-tow araştirmalari. In Proceedings of FABA congress of Fisheries and Aquatic Sciences. 21-24 November 2012 (pp. 21-33). Eskişehir, Türkiye: Osmangazi University (In Turkish).Google Scholar

  • Özalp, H.B., Alparslan, M. (2011). The first record of Cladocora caespitosa (Linnaeus, 1767) (Anthozoa, Scleractinia) from the Marmara Sea. Turkish Journal of Zoology. 35(5): 701-705. .CrossrefGoogle Scholar

  • Öztürk, B., Aktan, Y., Topaloglu, B., Keskin, C., Karakulak, S. et al. (2004). Marine Life of Turkey in the Aegean and Mediterranean Seas. Istanbul, Turkey: Turkish Marine Research Foundation.Google Scholar

  • Palaz, M., Çolakoğlu, S., Yildiz, H. (2010). Distribution of Macrozoobenthic Invertebrates in the South Marmara Sea. Journal of Animal and Veterinary Advances 9(3): 471-473. .CrossrefGoogle Scholar

  • Palaz, M., Çolakoğlu, S. (2009). Macrozoobenthic diversity of the Dardanelles. Journal of Animal and Veterinary Advances 8(11): 2341-2344.Google Scholar

  • Peirano, A., Kružic, P., Mastronuzzi, G. (2009). Growth of Mediterranean reef of Cladocora caespitosa (L.) in the Late Quaternary and climate inferences. Facies 55: 325-333. .CrossrefGoogle Scholar

  • Peirano, A., Morri, C., Bianchi, C.N., Rodolfo-Metalpa, R. (2001). Biomass, carbonate standing stock and production of the Mediterranean coral Cladocora caespitosa (L.). Facies 44: 75-80. .CrossrefGoogle Scholar

  • Pitacco, V., Orlando Bonaca, M., Mavric, B., Lipej L. (2014). The biogenic formation of Cladocora caespitosa (Anthozoa, Scleractinia) dead corallites in the Slovenian part of the gulf of Trieste (Northern Adriatic Sea). In Proceedings of the 2nd Mediterranean Symposium on the conservation of Coralligenous and other Calcareous Bio-Concretions, 29-30 October 2014 (pp. 231-232). Portorož, Slovenia: RAC/ SPA.Google Scholar

  • Reed, J.K. (1985). Deepest distribution of Atlantic hermatypic corals discovered in the Bahamas. In Proceedings of the 5th International Coral Reef Congress, Tahiti, 27-1 June 1985. p 249-254. (National Museum of Natural History).Google Scholar

  • Reefcheck. (2008, April). Balanophyllia europaea distributional pattern. Retrieved January 6, 2008, from http://www.progettomac.it/Balanophyllia_europaea.asp

  • Reyes, J. (2000). Lista de los Corales (Cnidaria: Anthozoa: Scleractinia) de Colombia. Biota Colombiana 1(2): 164-176.Google Scholar

  • Riegl, B.B., Benzoni, F., Samimi-Navin, K., Sheppard, C. (2012). The hermatypic Scleractinian (Hard) coral fauna of the Gulf. Springer Netherlands. Retrieved May 10, 2014, from SpringerLink http://link.springer.com/chapter/10.1007%2F 978-94-007-3008-3_11. .Crossref

  • Rodolfo-Metalpa, R., Bianchi, CN., Peirano, A., Morri, C. (2005). Tissue necrosis and mortality of the temperate coral Cladocora caespitosa. Italian Journal of Zoology 72 (4): 271-276.Google Scholar

  • Sini, M., Garrabou, J., Koutsoubas, D. (2014). Diversity and Structure of Coralligenous Assemblages dominated by Eunicella cavolini (Koch, 1887) in the Aegean Sea. In Proceedings of the 2nd Mediterranean Symposium on the conservation of Coralligenous and other Calcareous Bio-Concretions, 29-30 October 2014 (pp. 171-176). Portorož, Slovenia: RAC/SPA.Google Scholar

  • Teixidó, N., Casas, E., Cebrian, E., Kersting, D., Kipson, S. et al. (2014). Biodiversity patterns of coralligenous outcrops in the Western Mediterranean: First Insights across temporal and spatial scales. In Proceedings of the 2nd Mediterranean Symposium on the conservation of Coralligenous and other Calcareous Bio-Concretions, 29-30 October 2014 (pp. 177-182). Portorož, Slovenia: RAC/SPA.Google Scholar

  • Topçu, N.E., Öztürk, B. (2015). Composition and abundance of octocorals in the Sea of Marmara, where the Mediterranean meets the Black Sea. Scientia Marina 79(1): 125-135. .CrossrefGoogle Scholar

  • Vafidis, D., Koukouras, A., Voultsiadou-Koukouras, E. (1997). Actiniaria, Corallimorpharia, and Scleractinia (Hexacorallia, Anthozoa) of the Aegean Sea, with a Checklist of the Eastern Mediterranean and Black Sea Species. Israel Journal of Zoology 43: 55-70.Google Scholar

  • Vaniček, V., Juračić, M., Bajractarević, Z., Ćosović, V. (2000). Benthic Foraminiferal Assemblages in a Restricted Environment - An Example from the Mljet Lakes (Adriatic Sea, Croatia). Geologia Croatica 53(2): 269-279.Google Scholar

  • Veron, J.E.N. (2000). Corals of the World I, II, III. Townville: Australian Institute of Marine Science.Google Scholar

  • Waller, R.G. (2005). Deep Water Scleractinians: Current knowledge of reproductive processes. In A. Freiwald & J.M. Roberts (Eds.) Cold-water Corals and Ecosystems (pp. 691-700), Springer, Heidelberg.Google Scholar

  • Zibrowius, H. (1980). Les Scleractiniaires de la Mediterranee et de l’Atlantique nord-oriental. Monaco: Mémoires de l’Institut océanographique.Google Scholar

  • Zibrowius, H. (1979). Campagne de la Calypso en Mediterranee Nord-orientale (1955, 1956, 1960, 1964). 7. Scleractiniaires. Annales de l’Institut océanographique. 55: 7-28.Google Scholar

  • Zibrowius, H., Saldanha, L. (1976). Scleractiniaires recoltes en plongee au Portugal et dans les archipels de Madere et des Açores. Boletim da Sociedade portuguesa de ciencias naturais. 2 (16): 91-114.Google Scholar

  • Zibrowius, H., Grieshaber, A. (1977). Scléractiniaires de l’Adriatique. Téthys, 7: 375-384. html?webm ap=4282081d013946feb4f460325a4a1759&exte nt=-12.8948,30.6105,32.5447,49.647.Google Scholar

About the article

Received: 2015-07-22

Accepted: 2015-11-12

Published Online: 2016-06-22

Published in Print: 2016-06-01


Citation Information: Oceanological and Hydrobiological Studies, Volume 45, Issue 2, Pages 259–285, ISSN (Online) 1897-3191, ISSN (Print) 1730-413X, DOI: https://doi.org/10.1515/ohs-2016-0023.

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