Aquatic snails ecrobia maritima (Milaschewitsch, 1916) and E. Ventrosa (Montagu, 1803) (Caenogastropoda: Hydrobiidae) in the east Mediterranean and Black Sea

• Autorzy: Osikowski A. , Hofman S. , Georgiev D. , Kalcheva S. , Falniowski A.
• Języki publikacji: EN

Abstrakty

EN

In the paper cytochrome oxidase subunit I (COI) in minute gastropods Ecrobia has been sequenced from five localities at the Black Sea (Pomorie Lake and Constanza) and eastern Mediterranean (Gulf of Corinth, Evvoia Island, Attica). Pomorie Lake, a hyperhaline lagoon in eastern Bulgaria, harbours a population of Ecrobia maritima, whose shell and penis morphology are presented. COI partial sequences of E. maritima from Pomorie Lake differ markedly from those in the two Aegean populations not studied so far (Evvoia Island, Attica), and from another four studied earlier, scattered across the Black Sea and Aegean Sea. Such a high level of divergence was unexpected, since Pomorie Lake is only about 20 km away from the closest known locality of E. maritima (Burgas, Bulgaria). The mean p distance within E. maritima was 0.0113. A similar value of p distance (0.0137) was found within the clade grouping all the haplotypes of E. ventrosa. Mean genetic distance between these two species is p = 0.048. E. ventrosa inhabits western Europe, Tunisia, the Peloponnesus and the Corinthian Gulf (Itea: present study), both in the Ionian Sea, and - surprisingly - the coast of the Black Sea in Romania (Constanza: present study). E. maritima was found in the Black Sea and the Aegean Sea. Estimated time of divergence between the species is 3.30 ± 0.23 Mya, and 1.00 ± 0.11 Mya between E. maritima from Pomorie Lake and the other studied localities. The observed pattern is discussed in the context of the geological history of the region, especially glaciation events. Speciation of E. maritima in the Ponto-Caspian waters isolated from the Mediterranean in the Late Piacenzian and divergence of the population presently occurring in Pomorie Lake during the local Calabrian salinity crisis are postulated.

• Wydawca: -
• Czasopismo: Annales Zoologici
• Rocznik: 2016
• Tom: 66
• Numer: 3
• Opis fizyczny: p.477-486,fig.,ref.

Twórcy

autor

Osikowski A.

• Department of Animal Anatomy, Institute of Veterinary Science, University of Agriculture in Krakow, Al. Mickiewicza 24/28, Kraków 30-059, Poland

autor

Hofman S.

• Department of Comparative Anatomy, Institute of Zoology, Jagiellonian University, Gronostajowa 9, 30-387, Kraków, Poland

autor

Georgiev D.

• Department of Ecology and Environmental Conservation, University of Plovdiv, Tzar Assen Str. 24, BG-4000 Plovdiv, Bulgaria

autor

Kalcheva S.

• Department of Biology and Aquaculture, Faculty of Agriculture, Trakia University, Stara Zagora 6014, Bulgaria

autor

Falniowski A.

• Department of Malacology, Institute of Zoology, Jagiellonian University, Gronostajowa 9, 30-387, Poland

Bibliografia

• Bondesen, P. and E. W. Kaiser. 1949. Hydrobia (Potamopyrgus) jenkinsi Smith in Denmark illustrated by its ecology. Oikos, 1: 252-281.
• Cadée, G. C. 1988. Levende wadslakjes in bergeend faeces. Correspondentieblad van de Nederlandsche Malacologische Vereeniging, 243: 443-444.
• Cadée, G. C. 1994. Eider, shellduck and other predators, the main producers of shell fragments in the Wadden Sea: palaeoecological implications. Palaeontology, 37:181-202.
• Charalambidou, I. and L. Santamaria. 2002. Waterbirds as endozoochorous dispersers of aquatic organisms: a review of experimental evidence. Acta Oecologica, 21: 165-176.
• Darwin, C. 1859. The Origin of Species. London: John Murray, 502 pp.
• Davis, G. M. 1992. Evolution of prosobranch snails transmitting Asian Schistosoma: coevolution with Schistosoma: a review. Progress in Clinical Parasitology, 3:145-204.
• Davis, G. M., McKee, M. and G. Lopez. 1989. The identity of Hydrobia truncata (Gastropoda: Hydrobiidae): Comparative anatomy, molecular genetics, ecology. Proceedings of the Academy of the Natural Sciences of Philadelphia, 140: 247-266.
• Degens, E. T., Michaelis, W. and A. Paluska. 1981. Principles of petroleum source bed formation. Pp. 93-186. In: Merrick, D. and Marshall, R. (eds.): Energy - Present and Future Options, Vol. 1. John Wiley, New York, Chichester, 340 pp.
• Dimitrov, P. and D. Dimitrov. 2004. The Black Sea, the Flood and the Ancient Myths. Slavena, Varna, 92 pp.
• Dobrovolov, I. S. 2000. Genetic divergence between the scad subspecies Trachurus mediterraneus (Carangidae, Pisces) from the Black Sea and the Mediterranean. Mediterranean Marine Science, 1/1: 133-139.
• Draparnaud, J. P. R. 1805. Histoire naturelle des Mollusques terrestres et fluviatiles de la France. Chez Louis Colas, Paris, 164 pp.
• Evagelopoulos, A., Spyrakos, E. and D. Koutsoubas. 2009. Phytoplankton and macrofauna in the low salinity ponds of a productive solar saltworks: spatial variability of community structure and its major abiotic determinants. Global NEST Journal, 11: 64-72.
• Falniowski, A. 1986. Pigmentation in Hydrobia ulvae (Pennant, 1777) and H. ventrosa (Montagu, 1803) (Hydrobiidae, Prosobranchia) from the Polish Baltic. Acta Hydrobiologica, 28: 443-449.
• Falniowski, A. 1987. Hydrobioidea of Poland (Prosobranchia: Gastropoda). Folia Malacologica, 1: 1-122.
• Falniowski, A. 1988. Female reproductive organs of Hydrobia ulvae (Pennant, 1777) and H. ventrosa (Montagu, 1803) from Puck Bay (Southern Baltic Sea) (Gastropoda, Prosobranchia, Hydrobioidea). Malakologische Abhandlungen, 13: 27-31.
• Falniowski, A., Szarowska, M., Sirbu, I., Hillebrand, A. and M. Baciu. 2008. Heleobia dobrogica (Grossu & Negrea, 1989) (Gastropoda: Rissooidea: Cochliopidae) and the estimated time of its isolation in a continental analogue of hydrothermal vents. Molluscan Research, 28: 165-170.
• Figuerola, J. and A. J. Green. 2002. Dispersal of aquatic organisms by waterbirds: a review of past research and priorities for future studies. Freshwater Biology, 47: 483-494.
• Folmer, O., Black, M., Hoeh, W., Lutz, R. and R. C. Vrijenhoek. 1994. DNA primers for amplification of mitochondrial cytochrome e oxidase subunit I from diverse metazoan invertebrates. Molecular Marine Biology and Biotechnology, 3: 294-299.
• Georgiev, B. B. and P. N. Nikolov. 2010. Invertebrates in the Pomorie Wetland. Pp. 72-87. In: Radev, R., Hiebaum, G., Michev, T. and Profirov, L. (eds.): Proceedings of the Integrated Management Plan for Protected Area “Pomorie Lake” BG0000152 and Protected Area “Pomorie” BG0000620. Green Balkans, Plovdiv, 181 pp. (In Bulgarian).
• Gittenberger, E. 1991. What about non-adaptive radiation? Biological Journal of the Linnean Society, 43: 263-272.
• Hall, T. A. 1999. BioEdit: a user-friendly biological sequence alignment editor and analysis program for Windows 95/98/NY. Nucleic Acids Symposium Series, 41: 95-98.
• Hartmann, W. 1821. System der Erd- und Flußschnecken der Schweiz. Mit vergleichender Aufzählung aller auch in den benachbarten Ländern, Deutschland, Frankreich und Italien sich vorfindenden Arten. Neue Alpina, 1:194-268.
• Hiebaum, G. 2010. Hydrochemistry of Pomoriisko Lake. Pp. 32-47. In: Radev, R., Hiebaum, G., Michev, T. and Profirov, L. (eds.): Proceedings of the Integrated Management Plan for Protected Area “Pomorie Lake” BG0000152 and Protected Area “Pomorie” BG0000620. Green Balkans, Plovdiv, 181 pp. (In Bulgarian).
• Izdar, E. and M. Ergun. 1991. Recent Geological Evolution of the Black Sea: an overview. Pp. 379-388. In: Izdar, E. and Murray, J. W. (eds.). Black Sea Oceanography. Springer Science + Business Media, Dordrecht, 487 pp.
• Kalkan, E., Kurtuluş, A., Maraci, Ö. and R. Bilgin. 2011. Is the Bosphorus Strait a barrier to gene flow for the Mediterranean mussel, Mytilus galloprovincialis (Lamarck, 1819)? Marine Biology Research, 7: 690-700.
• Kevrekidis, T., Wilke, T. and A. Mogias. 2005. When DNA puts ecological works back on the right track: genetic assessment and distribution patterns of mudsnail populations in the Evros Delta lagoons. Archiv für Hydrobiologie, 162: 19-35.
• Koutsoubas, D., Arvanitidis, C., Dounas, C. and L. Drummond. 2000. Community structure and dynamics of the Molluscan fauna in a Mediterranean lagoon (Gialova lagoon, SW Greece). Belgian Journal of Zoology, 130:131-138.
• Librado, P. and J. Rozas. 2009. DnaSP v5 a software for comprehensive analysis of DNA polymorphism data. Bioinformatics, 25:1451-1452.
• Lyell, C. 1832. Principles of geology, being an attempt to explain the former changes of the Earth’s surface, by reference to causes now in operation. Vol. 2. John Murray, London, 332 pp.
• Milaschewitsch, K. O. 1916. Mollyuski Chernogo i Azovoskogo Moryei. Fauna Rossii i sopredelnykh stran. Volume I. Petrograd: Izd. Akademia Nauk, 231 pp. (In Russian).
• Miller, M. A., Pfeiffer, W. and T. Schwartz. 2010. Creating the CIPRES Science Gateway for inference of large phylogenetic trees. Pp. 1-8. In: Proceedings of the Gateway Computing Environments Workshop (GCE), 14 Nov, New Orleans, LA, 115 pp.
• Montagu, G. 1803. Testacea Britannica, or natural history of British shells, marine, land, and fresh-water, including the most minute: systematically arranged and embellished with figures. Romsey, London, 606 pp.
• Muus, B. J. 1963. Some Danish Hydrobiidae with the description of a new species Hydrobia neglecta. Proceedings of Malacological Societies London, 35: 131-138.
• Muus, B. J. 1967. The fauna of Danish estuaries and lagoons. Meddelelser fra Danmarks Fiskeri og Havundersogelser, 5: 1-316.
• Nei, M. and S. Kumar. 2000. Molecular Evolution and Phylogenetics. Oxford University Press, Oxford, 333 pp.
• Panin, N. 2008. The Black Sea geology, environment and archaeology. Pp. 3-10. In: Hazard Natural: Evenimente Tsunami in Marea Neagră, 176 pp.
• Paladilhe, A. 1874. Monographie de nouveau genre Peringia, suivie des descriptions d’espèces nouvelles de Paludinées françaises. Annales des Sciences Naturelles, series 6, Zoologie et Paléontologie, 1: 1-38.
• Papadopoulos, L. N., Peijnenburg, K. T. C. A. and P. C. Luttikhuizen. 2005. Phylogeography of the calanoid copepods Calanus helgolandicus and C. euxinus suggests Pleistocene divergences between Atlantic, Mediterranean, and Black Sea populations. Marine Biology, 147: 1353-1365.
• Pennant, T. 1777. British zoology. Vol. IV. Crustacea. Mollusca. Testacea. White, London, 154 pp.
• Radoman, P. 1973. New classification of fresh and brackish water Prosobranchia from the Balkans and Asia Minor. Posebna Izdanja, Prirodnjacki muzej u Beogradu, 32: 1-30.
• Radoman, P. 1977. Hydrobiidae auf der Balkanhalbinsel und in Kleinasien. Archiv für Molluskenkunde, 107: 203-223.
• Radoman, P. 1983. Hydrobioidea a superfamily of Prosobranchia (Gastropoda). I Systematics. Serbian Academy of Sciences and Arts, Monographs 547, Department of Sciences, 57: 1-256.
• Raynova, V. 2010. Hydrology. Pp. 28-30. In: Radev, R., Hiebaum, G., Michev, T. and Profirov, L. (eds.). Proceedings of the Integrated Management Plan for Protected Area “Pomorie Lake” BG0000152 and Protected Area “Pomorie” BG0000620. Green Balkans, Plovdiv, 181 pp. (In Bulgarian).
• Rees, W. J. 1965. The aerial dispersal of Mollusca, Proceedings of the Malacological Society of London, 36: 269-282.
• Ronquist, F., Teslenko, M., van der Mark, P., Ayres, D., Darling, A., Hohna, S., Larget, B., Liu, L., Suchard, M. A. and J. P. Huelsenbeck. 2012. MrBayes 3.2: Efficient Bayesian phylogenetic inference and model choice across a large model space. Systematic Biology, 61: 539-542.
• Sanderson, M. J. 2002. Estimating absolute rates of molecular evolution and divergence times: a penalized likelihood approach. Molecular Biology and Evolution, 19: 101-109.
• Sanderson, M. J. 2003. R8s: inferring absolute rates of molecular evolution, divergence times in the absence of a molecular clock. Bioinformatics, 19: 301-302.
• Schütt, H. 1980. Zur Kenntnis griechischer Hydrobiiden. Archiv für Molluskenkunde, 110: 115-149.
• Shemesh, E., Huchon, D., Simon-Blecher, N. and Y. Achituv. 2008. The distribution and molecular diversity of the Eastern Atlantic and Mediterraean chthamalids (Crustacea, Cirripedia). Zoologica Scripta, 38: 365-378.
• Stamatakis, A. 2014. RAxML Version 8: a tool for phylogenetic analysis and post-analysis of large phylogenies. Bioinformatics, 30: 1312-1313.
• Stimpson, W. 1865. Diagnoses of newly discovered genera of Gasteropods, belonging to the sub-fam. Hydrobiinae, of the family Rissoidae. American Journal of Conchology, 1: 52-54.
• Szarowska, M. and A. Falniowski. 2014. Ventrosia maritima (Milaschewitsh, 1916) and V. ventrosa (Montagu, 1803) in Greece: molecular data as a source of information about species ranges within the Hydrobiinae (Caenogastropoda: truncatelloidea). Folia Malacologica, 22: 61-67.
• Szarowska, M., Hofman, S., Osikowski, A. and A. Falniowski. 2014. Divergence preceding island formation among Aegean insular populations of the freshwater snail genus Pseudorientalia (Caenogastropoda: Truncatelloidea). Zoological Science, 31: 680-686.
• Tajima, F. 1993. Simple methods for testing molecular clock hypothesis. Genetics, 135: 599-607.
• Tamura, K., Stecher, G., Peterson, D., Filipski, A. and S. Kumar. 2013. MEGA6: Molecular evolutionary genetics analysis version 6.0. Molecular Biology and Evolution, 30: 2725-2729.
• Turan, C., Gurlek, M., Yaglioglu, D. and B. Ozturk. 2009. Genetic differentiation of Mediterranean horse mackerel (Trachurus mediterraneus) populations as revealed by mtDNA PCR-RFLP analysis. Journal of Applied Ichthyology, 25: 142-147.
• Vanatta, E. G. 1924. Description of four new American shells. Proceedings of the Academy of Natural Sciences of Philadelphia, 76: 25-27.
• Viaud-Martinez, K. A., Brownell, Jr, R. L., Komnenou, A. and A. J. Bohonak. 2008. Genetic isolation and morphological divergence of Black Sea bottlenose dolphins. Biological Conservation, 141: 1600-1611.
• Wesselingh, F. P., Cadée, G. C. and W. Renema. 1999. Flying high: on the airborne dispersal of aquatic organisms as illustrated by the distribution histories of the gastropod genera Tryonia and Planorbarius. Geologie en Mijnbouw, 78:165-174.
• Wilke, T. 2003. Salenthydrobia gen. nov. (Rissooidea: Hydrobiidae): a potential relict of the Messinian salinity crisis. Zoological Journal of the Linnean Society, 137: 319-336.
• Wilke, T. and G. M. Davis. 2000. Infraspecific mitochondrial sequence diversity in Hydrobia ulvae and Hydrobia ventrosa (Hydrobiidae: Rissoacea: Gastropoda): Do their different life histories affect biogeographic patterns and gene flow? Biological Journal of the Linnean Society, 70: 89-105.
• Wilke, T. and A. Falniowski. 2001. The genus Adriohydrobia (Hydrobiidae: Gastropoda): polytypic species or polymorphic populations? Journal of Zoological Systematics and Evolutionary Research, 39: 227-234.
• Wilke, T. and M. Pfenninger. 2002. Separating historic events from recurrent processes in cryptic species: phylogeography of mud snails (Hydrobia spp.). Molecular Ecology, 11: 1439-1451.
• Wilke, T., Rolan, E. and G. M. Davis. 2000. The mudsnail genus Hydrobia s.s. in the northern Atlantic and western Mediterranean: a phylogenetic hypothesis. Marine Biology, 137: 827-833.
• Xia, X. 2013. DAMBE: A comprehensive software package for data analysis in molecular biology and evolution. Molecular Biology and Evolution, 30: 1720-1728.
• Xia, X., Xie, Z., Salemi, M., Chen, L. and Y. Wang. 2003. An index of substitution saturation and its application. Molecular Phylogenetics and Evolution, 26: 1-7.

Identyfikatory

DOI

https://doi.org/10.3161/00034541ANZ2016.66.3.012