Phylogeny of a pearl wing oyster species; Pteria loveni (Bivalvia: Pteriidae) from subtidalzone of Chabahar bay based on CO1 gene sequence

Document Type : Research Paper

Authors

1 Associat Prof., Department of Marine Biology, Facualty of Marine Sciences, Chabahar Maritime University., Chabahar, Iran

2 Msc student, Department of Marine Biology, Facualty of Marine Sciences, Chabahar Maritime University, Iran

3 MSc. Chabahar Veterinary Office , Chabahar, Iran

Abstract

Bivalves are the second largest class of moluscs that have been abundantly successful in different habitats of marine and fresh water, from the cold circumpolar seas to tropical waters and from shallow shores to abyssal depths. Molecular phylogenetic comparative studies can help in tracing the historical evolution of the gene alive and evaluate them. In this research species of pearl wing oyster were collected to document gene sequence from Chabahar bay subtidal zone in 2013. The nucleotide sequence of COΙ determined. Species sequence in this study compared with the sequence of 18 species from GenBank belonging to the two genera of the family Pteriidae. Phylogenetic relationships analyzed by Maximum Liklihood. The result shows monophyly between the two genera and closest species to Iranian sampleis Pteria loveni that supported with almost moderate bootstrap (71%). This is the first report of Pteria loveni species from south coast of Iran.
 
 
 
 
 
 

Keywords

Main Subjects


 
Adamkewicz, S. L., Harasewych, M. G., Blake, J., Saudek, D., & Bult, C. J. (1997). A molecular phylogeny of the bivalve mollusks. Mol.Biol. Evol. 14, 619–629.
Ashja ardalan, A. (1994). Identification and evaluation of bivalve distribution of Chabahar Bay tidal zone and the surrounding coasts. 183.
Beer, A. C., & Southgate, P. C. (2000). Collection of pearl oyster (family Pteriidae) spat at Orpheus Island Great Barrier Reef (Australia). Journal of Shellfish Research 19, 821-826.
Benzie, J. H., & Smith-Keune, C. (2006). Microsatellite variation in Australian and Indonesian pearl oyster Pinctada maxima populations. Marine Ecology Progress Series, 197-211.
Benzie, J. H., Smith, C., & Sugama, K. (2003). Mitochondrial DNA reveals genetic differentiation between Australian and Indonesian pearl oyster Pinctada maxima (Jameson 1901) populations. Journal of Shellfish Research 22, 781-787.
Campbell, D. C. (2000). Molecular evidence on the evolution of the Bivalvia. The Evolutionary Biology of the Bivalvia, vol. 177, 31–46.
Canapa, A., Barucca, M., Marinelli, A., & Olmo, E. (2000). Molecular data from the 16S rRNA gene for the phylogeny of Pectinidae (Mollusca: Bivalvia). J. Mol. Evol. 50, 93–97.
Canapa, A., Marota, I., Rollo, F., & Olmo, E. (1996). Phylogenetic analysis of Veneridae (Bivalvia): comparison of molecular and palaeontological data. J. Mol. Evol. 43, 517–522.
Canapa, A., Marota, I., Rollo, F., & Olmo, E. (1999). The small-subunit rRNA gene sequences of venerids and the phylogeny of Bivalvia. J. Mol. Evol. 48, 463–468.
Cullings, K. W. (1992). Design and testing of a plant-specific PCR primer for ecological and evilutionary studies. molecular ecology, 233-240.
Distel, D. L. (2000). Phylogenetic relationships among Mytilidae (Bivalvia):18S rRNA data suggest convergence in Mytilid body plans. Mol. Phylogenet. Evol. 15, 25–33.
Dolye, J. J., & Dickson, E. E. (1987). Preservation of plant samples for DNA restriction endonuclease analysis. Taxon, 715-722.
Dolye, J. J., & Dolye, J. L. (1987). A rapid DNA isolation procedure for small quantities of fresh leaf tissue. Phytochemistry bulletin, 11-15.
Farell, S., Arizmendi, E., McLaurin, D., & Nava, M. (1998). “Perlas de Guaymas”: An update on the first commercial marine pearl farm on the American continent, ‘Aquaculture ‘98’ Book of Abstracts. World Aquaculture Society, 171.
Foighil, D. O., & Taylor, D. J. (2000). Evolution of parental care and ovulation behavior in oysters. Mol. Phylogenet. Evol. 15, 301–313.
Folmer, O., Black, M., Hoeh, W., Lutz, R., & Vrijenhoek, R. (1994). DNA primers for amplification of mitochondrial cytochrome coxidase subunit I from diverse metazoan invertebrates. Molecular Marine Biology and Biotechnology, 294-299.
Frischer, M. E., Williams, J., & Kenchington, E. (1998). A molecular phylogeny of some major groups of Pectinidae inferred from 18S rRNA gene sequences. University of Calgary Press, 213–221.
Giribet, G. (2008). Phylogeny and Evolution of the Mollusca. London: University of California Press.
Giribet, G., & Distel, D. L. (2003). Bivalve phylogeny and molecular data. Washington: Smithsonian Books.
Giribet, G., & Wheeler, W. (2002). On bivalve phylogeny: a high-level analysis of the Bivalvia (Mollusca) based on combined morphology and DNA sequence data. Invert. Biol. 121, 271–324.
Gray, J. E. (1847). List of the genera of Recent Mollusca, their synonyma and types. The Proceedings of the Zoological Society of London for 1847[15](178), 129–219.
Harper, E. M., Dreyer, H., & Steiner, G. (2006). Reconstructing the Anomalodesmata (Mollusca: Bivalvia): morphology and molecules. Zool. J. Linn. Soc. 148, 395–420.
Hertlein, L. G., & Cox, L. R. (1969). Treatise on invertebrate paleontology. Lawrence Kansas: Geological Society of America and University of Kansas.
Hollander, J. (2008). Testing the grain-size model for the evolution of phenotypic plasticity. Evolution, 1381-1389.
Hossein zade sahafi, H., Daghoughi, B., & Rameshi, H. (2000). Molluscs atlas of Persian Gulf. tehran: Iranian Fisheries Research Institute.
Jacobs, H. T., Balfe, P., Cohen, B. L., Farguharson, A., & Comito, L. (1988). Phylogenetic implications of genome rearrangement and sequence evolution in echinoderm mitochondrial DNA. Echinoderm Phylogeny and Evolutionary Biology, 121–137.
Kocher, T. E., Thomas, W. K., Meyer, A., Edwards, S. V., Pabbo, S., Villablanca, F. X., et al. (1989). Dynamics of mitochondrial DNA evolution in animals: amplification and sequencing with conserved primers. Proc. Natl. Acad. Sci. USA 86, 6196–6200.
Matsumoto,, M. (2003). Phylogenetic analysis of the subclass Pteriomorphia (Bivalvia) from mtDNA COI sequences. Mol. Phylogenet. Evol. 27, 429–440.
Mikkelsen, P. M., Bieler, R., Kappner, I., & Rawlings, T. A. (2006). Phylogeny of veneroidea (Mollusca: Bivalvia) based on morphology and molecules. Zool. J. Linn. Soc. 148, 439–521.
Millard, V. (2001). Classification of Mollusca: A Classification of World Wide Mollusca. South Africa: Printed by the author.
OLIVER, P. G. (1992). Bivalved seashells of the Red Sea. Wiesbaden and Cardiff: Hemmen and National Museum of Wales.
Olu-Le Roy, K., von Cosel, R., Hourdez, S., Carney, S. L., & Jollivet, D. (2007). Amphi-Atlantic cold-seep Bathymodiolus species complexes across the equatorial belt. Deep-Sea Res. Pt. I 54, 1890–1911.
Palmer, T. J. (1984). Revision of the bivalve family Pulvinitidae Stephenson. Palaeontology, 815–824.
Radtkey, R. R., Fallon, S. M., & Case, T. J. (1997). Character displacement in some Cnemidophorus lizards revisited: A phylogenetic analysis. PNAS, 94, 9740-9745.
Shirai, S. (1994). Pearls and Pearl Oysters of the world. Okinawa: Marine Planning.
Stanley, S. M. (1968). Post-Paleozoic adaptive radiation of infaunal bivalve molluscs: a consequence of mantle fusion and siphon formation. J. Paleontol, 214–229.
Stanley, S. M. (1977). Trends, rates, and patterns of evolution in the Bivalvia. Patterns of Evolution. Elsevier, Amsterdam, 209–250.
Steiner, G., & Hammer, S. (2000). Bivalvia inferred from 18S rDNA sequences with particular reference to the Pteriomorphia. The Evolutionary Biology of the Bivalvia, 17, 11-29.
Steiner, G., & Hammer, S. (2000). Molecular phylogeny of the Bivalvia inferred from 18S rDNANA sequences with particular reference to the Pteriomorphia. Geological Society, 494.
Steiner, G., & Muller, M. (1996). What can 18S rDNA do for bivalve phylogeny? J. Mol. Evol. 43, 58–70.
Tajali pour, M. (1994). Further systematic study of molluscs Iranian coast of the Persian Gulf. tehran: Publications Khabir.
Tëmkin, I. (2004). A new system for Pterioidea (Mollusca: Bivalvia). In: Wells, F.E., (Ed.), Molluscan megadiversity: Sea, Land and Freshwater. Western, 145.
Temkin, I. (2006). Anatomy, shell morphology,and microstructure of the living fossil Pulvinites exempla (Hedley, 1914) (Bivalvia: Pulvinitidae). Zoological Journal of the Linnean Society , 523–552.
Temkin, I. (2006). Morphological perspective on the classification and evolution of Recent Pterioidea (Mollusca: Bivalvia). Zool. J. Linn. Soc. 148, 253–312.
Tëmkin, I., Glaubrecht, M., & Köhler, F. (2009). Wilhelm Dunker, his collection, and pteriid systematics. MALACOLOGIA, 39−79.
Wada, K. T., & Temkin, I. (2008). Taxonomy and Phylogeny. Amsterdam: The Netherlands,Elsevier.
Wahlberg, N., Braby, M. F., Brower, A. Z., Jong, R., Lee, M., Nylin, S., et al. (2005). Synergistic effects of combining morphological and molecular data in resolving the phylogeny of butterflies and skippers. Proceedings of the Royal Society of London Series B-Biological Sciences, 1577-1586.
Winnepenninckx, B., Backeljau, T., & De Wachter, R. (1996). Investigation of molluscan phylogeny on the basis of 18S rRNA sequences. Mol. Biol. Evol. 13, 1306–1317.
Yu, X., & Wang, M. (2004). The farming of and pearl cultivating from wing oyster Pteria penguin in southern China. ‘Aquaculture 2004’ Book of Abstracts. World Aquaculture Society, 665.