Hostname: page-component-cd9895bd7-mkpzs Total loading time: 0 Render date: 2024-12-27T01:42:18.331Z Has data issue: false hasContentIssue false

Marine biological invasions in the Liman ‘Zmeinoe Ozero’ (Snake Lake) ecosystem, the north-eastern Black Sea

Published online by Cambridge University Press:  17 December 2014

Zh.P. Selifonova*
Affiliation:
State Maritime University named after admiral F.F. Ushakov, Novorossiysk 353918, Lenin ave., 93, Russia
*
Correspondence should be addressed to: Zh.P. Selifonova, State Maritime University named after admiral F.F. Ushakov, Novorossiysk 353918, Lenin Ave., 93, Russia email: [email protected]

Abstract

Taxonomic composition and seasonal dynamics of density of phytoplankton, heterotrophic bacteria, ciliates, holoplankton, meroplankton and zoobenthos of mud bottom sediments were studied in 2010–2011 in the Liman ‘Zmeinoe Ozero’. Twelve non-native species of fauna were recorded, that penetrated into the Liman with ships' ballast water (established species – 6, cryptogenic species – 2, casual species – 4). The basic ‘groups of risk’ of invasions are tintinnids infusorians, neritic species of copepods and spionid polychaetes. The attempt to define the degree of vulnerability of the recipient ecosystem to biological invasions is made on the basis of an energy balance method. The prognosis of biological pollution of the north-eastern Black Sea by ships' ballast waters was executed.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 2014 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

REFERENCES

Abakumov, V.A. (ed.) (1983) Manual on methods of hydrobiological analysis of surface water and bottom sediments. Leningrad: Gidrometeoizdat, pp. 5977 [in Russian].Google Scholar
Alexandrov, B.G. (2004) The problem of water organisms transfer by ships and some approaches to estimation of risk new invasions. Marine Ecological Journal 3, 517 [in Russian].Google Scholar
Boltacheva, N.A. (2008) Finding of new alien species Streblospio gynobranchiata Rice et Levin, 1998 (Polychaeta: Spionidae) in the Black Sea. Marine Ecological Journal 7, 12 pp [in Russian].Google Scholar
Boltacheva, N.A. and Lisitskaya, E.V. (2007) On taxonomic appliance Polydora (Polychaeta: Spionidae) from the Balaclava Bay, the Black Sea. Marine Ecological Journal 6, 3335 [in Russian].Google Scholar
Carmelo, K.T. (1997) Identifying marine phytoplankton. San Diego, CA: Academic Press.Google Scholar
Çinar, M.E., Ergen, Z., Dagli, E. and Petersen, M.E. (2005) Alien species of spionid polychaetes (Streblospio gynobranchiata and Polydora cornuta) in Izmir Bay, eastern Mediterranean. Journal of the Marine Biological Association of the United Kingdom 85, 821825.Google Scholar
Dodge, J.D. (1982) Marine Dinoflagellates of the British Isles. London: HMSO.Google Scholar
Gavrilova, N.А. (2010) Microzooplankton (Tintinnidae). In Matishov, G.G. (ed.) Invasions in biodiversity and productivity of the Sea of Azov and the Black Sea. Rostov-on-Don: SSC, pp. 6369 [in Russian].Google Scholar
Gavrilova, N.A. and Dolan, J.R. (2007) A note on species lists and ecosystem shifts: Black Sea Tintinnids, ciliates of the microzooplankton. Acta Protozoologica 46, 279288.Google Scholar
Grese, V.N. (1979) Production of animal populations. Foundation of biological productivity of the Black Sea. Kiev: Naukova dumka.Google Scholar
Hobbie, I.E., Dadey, R.I. and Jasper, S. (1977) Use of nucleopore filters for counting bacteria by fluorescence microscopy. Applied and Environmental Microbiology 33, 12251228.Google Scholar
Kurilov, A.V. (2010) Planktonic ciliates of the coastal zone and limans of the north-western part of the Black Sea. Lambert Academic Publishing [in Russian].Google Scholar
Petipa, T.S. (1957) On average weight of main form of zooplankton of the Black Sea. Memoir of Sevastopol biological station. Volume 9. Kiev: Naukova dumka, pp. 3957 [in Russian].Google Scholar
Radashevsky, V.I. (2005) On adult and larval morphology of Polydora cornuta Bosc, 1802 (Annelida: Spionidae). Zootaxa 1064, 124.Google Scholar
Radashevsky, V.I. and Selifonova, Zh.P. (2013) Records of Polydora cornuta and Streblospio gynobranchiata (Annelida, Spionidae) from the Black Sea. Mediterranean Marine Science 14, 261269.Google Scholar
Selifonova, Zh.P. (2010) Control of ships' ballast water as a method of prevention of biological pollution of marine environment (manual). In Matishov, G.G. (ed.) Apatity: Kola scientific centre RAS, 87 pp. [in Russian].Google Scholar
Selifonova, Zh.P. (2011a) Oithona brevicornis Giesbrecht (Copepoda: Cyclopoida), Invader into the Black Sea and in the Sea of Azov. Russian Journal of Biological Invasions 2, 227232 [in English].Google Scholar
Selifonova, Zh.P. (2011b) Amphorellopsis acuta (Ciliophora: Spirotpichea: Tintinnida) – a new species of tintinnids in the Black Sea. Marine Ecological Journal 10, 85 pp. [in Russian].Google Scholar
Selifonova, Zh.P. (2011c) New species of ciliates Tintinnopsis tocantinensis Kofoid & Campbell, 1929 (Ciliophora: Spirotrichea: Tintinnida) in the Black Sea. Russian Journal of Biological Invasions 3, 4951 pp. [in English].Google Scholar
Selifonova, Zh.P. (2011d) Finding of Polydora cornuta Bosc, 1802 (Polychaeta: Spionidae) in area of the port of Tuapse, the Black Sea (Russian sector). Marine Ecological Journal 10, 26 pp. [in Russian].Google Scholar
Selifonova, Zh.P. (2012) Marine ecosystems of the ports of Novorossiysk and Tuapse of the Black Sea. St Petersburg: Nauka, p. 228 [in Russian].Google Scholar
Selifonova, Zh.P. (2013) State pelagic copepods community in the Sea of Azov. Vestnik Zoologii 47, 421430 [in Russian].Google Scholar
Selifonova, Zh.P. and Yasakova, O.N. (2012) Phytoplankton of port areas of the northeastern Black Sea. Marine Ecological Journal 11, 6777 [in Russian].Google Scholar
Shiganova, T.A., Musaeva, E.I., Lukasheva, T.A., Stupnikova, A.N., Zasko, D.N., Anokhina, L.L., Sivkovich, A.E., Gagarin, V.I. and Bulgakova, Yu.V. (2012) Increase of Mediterranean non-native species findings in the Black Sea. Journal of Biological Invasions 3, 6199 [in Russian].Google Scholar
Shushkina, E.A. and Vinogradov, M.E. (2002) Comparison of concentration of zooplankton, defined on data different nets, bathometer and on observation from submersible, used in the Black Sea expeditions of IО РАS. In Zatsepin, A.G. and Flint, M.V. (eds) Complex research of the northeastern Black Sea. Мoscow: Nauka, pp. 459468 [in Russian].Google Scholar
Slavinsky, D.A. (2006) Patterns of crisis stages of development of ecosystem on an example of dynamics of structurally functional changes. PhD thesis. Moscow State University [in Russian].Google Scholar
Sorokin, Yu.I. (1979) To technique concentration of phytoplankton. Hydrobiological Journal 2, 7176 [in Russian].Google Scholar
Sorokin, Yu.I. (1980) Chamber for quantitative account of protozoan and nanoplankton in field testing. Hydrobiological Journal 15, 7176 [in Russian].Google Scholar
Sorokin, Yu.I. (1982) The Black Sea. Мoscow: Nauka [in Russian].Google Scholar
Sorokin, Yu.I. (1996) Bacterioplankton. Anthropogenic pollution and processes natural selfpurification of coastal zones of the Caucasus of the Black Sea. Мoscow: Nedra, pp. 266276 [in Russian].Google Scholar
Sorokin, Yu.I. (1999) Aquatic microbial ecology. Leiden: Backhuys.Google Scholar
Sorokin, Yu.I. and Zakuskina, O.Yu. (2008) Acid-soluble sulfides in the upper layer of the bottom sediments on the northeastern shelf of the Black Sea: relation to the pollution and environmental aftereffects. Oceanology 48, 224231 [in Russian].Google Scholar
Taheri, M., Seyfabadi, J., Abtahi, B. and Foshtomi, M.Y. (2008) Population changes and reproduction of an alien spionid polychaete Streblospio gynobranchiata in shallow waters of the south Caspian Sea. Journal of the Marine Biological Association of the United Kingdom 2 – Biodiversity Records 15.Google Scholar
Temnykh, А. and Nishida, S. (2012) New record of the planktonic copepod Oithona davisae Ferrari and Orsi in the Black Sea with notes on the identity of “Oithona brevicornis”. Aquatic Invasions 7, 425431.Google Scholar
Vershinin, A.O. and Moruchkov, A.A. (2003) Potentially toxic algae in structure of coastal phytoplankton of the northeastern Black Sea. Ekologia Moray 64, 4550 [in Russian].Google Scholar
Vershinin, A.O., Moruchkov, A.A., Sukhanova, I.N., Kamnev, A.N., Pan'kov, S.L., Morton, S.L. and Ramsdell, J.S. (2004) Seasonal changes in coastal phytoplankton at Bolshoi Utrish (the northeastern Black Sea) in 2001–2002. Oceanology 44, 399405 [in Russian].Google Scholar
Vinogradov, M.E. and Shushkina, E.A. (1987) Functioning of planktonic communities of epipelagium of ocean. Мoscow: Nauka [in Russian].Google Scholar
Yasakova, O.N. (2011) New species of phytoplankton in the northeastern part of the Black Sea. Journal of Biological Invasions 2, 6367 [in English].Google Scholar
Yunev, O.A., Shulman, E.G., Yuneva, T.V. and Moncheva, S. (2009) Relationship of stock of small pelagic fish and biomass phytoplankton as indicator of condition of pelagic ecosystem of the Black Sea. Report of Academy Sciences 428, 426429 [in Russian].Google Scholar
Zaika, V.Е. (1983) Relative productivity of aquatic organisms. Kiev: Naukova dumka [in Russian].Google Scholar
Zaika, V.Е. (2011) De-eutrophication of the Black Sea and impact of climatic oscillations. In Plotnikov, G.K. (ed.) Condition of ecosystems of the Black Sea and the Sea of Azov exposed to anthropogenic impact. Krasnodar: Kuban State University, pp. 8893 [in Russian].Google Scholar
Zenetos, A., Çinar, M.E., Pancuccipapadopoulou, A.M., Harmelin, J.G., Furnari, G., Andaloro, F., Bellou, N., Streftaris, N. and Zibrowius, H. (2005) Annotated list of marine alien species in the Mediterranean with records of the worst invasive species. Mediterranean Marine Science 6, 63118.Google Scholar
Zvyagintsev, A.Yu., Ivin, V.V. and Kashin, I.A. (2009) The methodical advisories to research of ships' ballast water during realization of marine bioinvasions monitoring. Vladivostok: Dal'nauka [in Russian].Google Scholar
Zvyagintsev, A.Yu. and Moshchenko, A.V. (2010) Marine techno-ecosystem of power plants. Vladivostok: Dal'nauka [in Russian].Google Scholar