Hostname: page-component-cd9895bd7-mkpzs Total loading time: 0 Render date: 2024-12-22T17:16:10.528Z Has data issue: false hasContentIssue false

Understanding and forecasting dispersal of non-indigenous marine decapods (Crustacea: Decapoda) in East European and North Asian waters

Published online by Cambridge University Press:  27 March 2017

Vassily A. Spiridonov*
Affiliation:
P.P. Shirshov Institute of Oceanology of Russian Academy of Sciences (IO RAS), Nakhimovsky Prospekt, 36, Moscow 117997, Russia
Anna K. Zalota*
Affiliation:
P.P. Shirshov Institute of Oceanology of Russian Academy of Sciences (IO RAS), Nakhimovsky Prospekt, 36, Moscow 117997, Russia
*
Correspondence should be addressed to: V.A. Spiridonov, P.P. Shirshov Institute of Oceanology of Russian Academy of Sciences (IO RAS), Nakhimovsky Prospekt, 36, Moscow 117997, Russia. emails: [email protected], [email protected]
Correspondence should be addressed to: V.A. Spiridonov, P.P. Shirshov Institute of Oceanology of Russian Academy of Sciences (IO RAS), Nakhimovsky Prospekt, 36, Moscow 117997, Russia. emails: [email protected], [email protected]

Abstract

A survey of publications and collections databases reveals a pattern of non-indigenous decapods distribution in the 13 seas around Russia and adjacent countries. No alien species were reported from Russian territorial waters and exclusive economic zone in the Japan, Okhotsk, west Bering and most of the Siberian shelf Seas. From the seas and their basins in East Europe, 13 alien species have been recorded, with seven of these yet to become established. Established or commonly occurring species can be categorized as: ‘global invaders’ (Chinese mitten crab, Eriocheir sinensis in the White, Baltic, Black, Azov and Caspian Seas; and Harris mud crab, Rhithropanopeus harrisii in all mentioned seas, except the White Sea); ‘regional aliens’ (Palaemon adspersus and P. elegans in the Caspian Sea and the latter species in the Baltic); and ‘Arctic invaders’ (Kamchatka king crab Paralithodes camtschaticus and snow crab Chionoecetes opilio). Eriocheir sinensis is the most widely occurring alien decapod species, but there are no indications of an established population in East Europe. For this and other mentioned crab species, invasion history, distribution and important biological data are reviewed. In the seas where few or no native crab species have been present, Harris mud crab (in the Azov and Caspian Seas), Kamchatka crab (in the Barents Sea) and snow crab (in the Barents and Kara Seas) have shown rapid establishment (within two decades) of an invasive population throughout an entire basis or its significant part.

Type
Research Article
Copyright
Copyright © Marine Biological Association of the United Kingdom 2017 

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

Aarnio, K., Törnroos, A., Björklund, C. and Bonsdorff, E. (2015) Food web positioning of a recent coloniser: the North American Harris mud crab Rhithropanopeus harrisii (Gould, 1841) in the northern Baltic Sea. Aquatic Invasions 10, 399413.Google Scholar
Aladin, N.V., Plotnikov, I.S., and Letolle, R. (2004) Hydrobiology of the Aral Sea. In Nihoul, J.C.J., Zavialov, P.O. and Micklin, P.P. (eds) Dying and dead seas climatic versus anthropic causes. NATO Science Series IV, Volume 36. New York, NY: Springer, pp. 125157.Google Scholar
Andreev, N.I. and Andreeva, S.I. (1988) Crab Rhithropanopeus harrisii (Decapoda, Xanthidae) in the Aral Sea. Zoologicheskiy Zhurnal 67, 135136. [In Russian]Google Scholar
Andreev, N.I., Andreeva, S.I., Filippov, A.A. and Aladin, N.V. (1992) The fauna of the Aral Sea in 1989. I. The benthos. International Journal of Salt Lakes Research 1, 103110.CrossRefGoogle Scholar
Anger, K. (1991) Effects of temperature and salinity on the larval development of the Chinese mitten crab Eriocheir sinensis (Decapoda, Grapsidae). Marine Ecology Progress Series 72, 103110.CrossRefGoogle Scholar
Anosov, S.E. (2016) Fauna of Crustacea Decapoda of the Black Sea – Azov Basin. Quantitative and qualitative changes over last century . PhD dissertation. VNIRO, Moscow. [In Russian]Google Scholar
AquaNIS. (2016) Information system on aquatic non-indigenous and cryptogenic species. Available at http://www.corpi.ku.lt/aquanis (accessed July 2016).Google Scholar
Bacevičius, E. and Gasiūnaitė, Z.R. (2008) Two crab species – Chinese mitten crab (Eriocheir sinensis Edw.) and mud crab (Rhithropanopeus harrisii (Gould) ssp. tridentatus (Maitland)) in the Lithuanian coastal waters, Baltic Sea. Transitional Waters Bulletin 2, 6368.Google Scholar
Bakanev, S.V. (2009) Population dynamics of Kamchatka crab (Paralithodes camtschaticus) in the Barents Sea (lessons from modeling) . PhD thesis. PINRO, Murmansk. [In Russian]Google Scholar
Bakanev, S., Dvoretsky, A., Pavlov, V., Pinchukov, M., Zacharov, D. and Zolotarev, P. (2016) Commercial shellfish: status of commercial stocks. In McBride M.M., Hansen J.R., Korneev O. and Titov O. (eds), Stiansen J.E., Tchernova J., Filin A. and Ovsyannikov A. (co-eds) Joint Norwegian–Russian environmental status 2013. Report on the Barents Sea Ecosystem. Part II – Complete report. IMR/PINRO Joint Report Series 2016(1), pp. 224241.Google Scholar
Bakanev, S.V. and Pavlov, V.A. (2015) On the correcting recommended Total Allowable Catch of the snow crab in Russia's EEZ in 2015. Murmansk: Polar Institute of Fishery and Oceanography (PINRO). Available at http://www.pinro.ru/15/images/stories/uchsecr/odu-opilio.docx (accessed December 2015).Google Scholar
Bakay, Yu.I. (2003) Parasitological investigations of the Kamchatkan crab in the Barents Sea. In Berenboim, B.I. (ed.) The red king crab in the Barents Sea. 2nd revised and enlarged edition. Murmansk: PINRO Publishing, pp. 201218. [In Russian]Google Scholar
Behning, A.L. (1936) Introduction of some new species to the Caspian Sea. Priroda 1936, 107108. [In Russian]Google Scholar
Belofastova, I.P. (1996) On two species of gregarines of the genus Сephaloidophora Mawrodiadi, 1908 (Eugregarinida: Cephaloidophoridae) from the Black Sea crabs. Parazitologia 30, 270274. [In Russian]Google Scholar
Belofastova, I.P. and Lozovsky, V.L. (2008) New data on gregarines (Eugregarinorida, Cephaloidophoridae, Porosporidae) – parasites of the Black Sea crabs (Decapoda, Reptantia). Vestnik Zoologii 42, 195200. [In Russian]Google Scholar
Berezina, N.A. and Petryashov, V.V. (2012) Invasions of higher crustaceans (Crustacea: Malacostraca) in waters of Gulf of Finland (Baltic Sea). Rossiyskiy Zhurnal Biologicheskih Invasii 2012, 218. [In Russian]Google Scholar
Berger, V.Ya. and Naumov, A.D. (2001) General features. In Berger, V.Ya. and Dahle, S. (eds) White Sea. Ecology and environment. St. Petersburg – Tromsø: Derzhavets Publisher, pp. 922.Google Scholar
Berenboim, B.I. (2003) Migrations and dispersal of red king crab in the Barents Sea. In Berenboim, B.I. (ed.) The red king crab in the Barents Sea. 2nd revised and enlarged edition. Murmansk: PINRO Publishing, pp. 5965. [In Russian]Google Scholar
Boitsov, V.D. (2003) Distribution of the Kamchatkan crab in the Barents Sea and the environmental conditions. In Berenboim, B.I. et al. (eds) The red king crab in the Barents Sea. 2nd revised and enlarged edition. Murmansk: PINRO Publishing, pp. 5965. [In Russian]Google Scholar
Boyle, J.R.T., Keith, D. and Pfau, R. (2010) Occurrence, reproduction, and population genetics of the estuarine mud crab, Rhithropanopeus harrisii (Gould) (Decapoda, Panopeidae) in Texas freshwater reservoirs. Crustaceana 83, 493505.Google Scholar
Briski, E., Chabooli, S., Bailey, S.A. and McIsaac, H.J. (2012) Invasion risk posed by macroinvertebrates transported in ship's ballast tanks. Biological Invasions 14, 18431850.CrossRefGoogle Scholar
Britayev, T.A., Rzhavsky, A.V., Pavlova, L.V. and Dvoretskij, A.V. (2010) Studies on impact of the alien red king crab (Paralithodes camtschaticus) on the shallow water benthic communities of the Barents Sea. Journal of Applied Ichthyology 26, Supplement 2, 6673.Google Scholar
Brockerhoff, A. and McLay, C. (2011) Human-mediated spread of alien crabs. In Galil, B.S., Clark, P.F. and Carlton, J. (eds) In the wrong place. – Alien marine crustaceans: distribution, biology and impacts. Berlin: Springer, pp. 27105.Google Scholar
Buitendijk, A.M. and Holthuis, L.B. (1949) Note on Zuiderzee crab Rithropanopeus harrisii subspecies tridentatus . Zoologische Mededelingen 30, 95107.Google Scholar
Burukovsky, R.N. (2012) On Palaemon elegans Rathke 1837 (Decapoda, Palaemonidae) nutrition in Vistula Lagoon. Journal of Siberian Federal University. Biology 5, 151159.Google Scholar
Buyanovsky, A.I. (2004) Spatio-temporal variability of size structure in populations of bivalves, sea urchins and decapod crustaceans. Moscow: VNIRO Publishing. [In Russian]Google Scholar
Carlton, J.T. and Cohen, A.N. (2003) Episodic global dispersal in shallow water marine organisms: the case history of the European shore crabs Carcinus maenas and C. aestuarii . Journal of Biogeography 30, 18091820.Google Scholar
Chikina, M.V. and Kucheruk, N.V. (2005) Long-term changes in the structure of coastal benthic communities in the Northeastern part of the Black Sea: influence of alien species. Oceanology 45, Supplement 1, S176S182.Google Scholar
Christiansen, M.E. (1969) Marine invertebrates of Scandinavia 2. Decapoda Brachyura. Oslo: Universitetsforlaget.Google Scholar
Chuchukalo, V.I., Nadtochy, V.A., Fedotov, P.A. and Bezrukov, R.G. (2011) Feeding and some biological features of snow crab Chionoecetes opilio in the Chukchi Sea. Izvestia TINRO 167, 197206. [In Russian]Google Scholar
CIESM. Atlas of exotic species in the Mediterranean. Available at http://www.ciesm.org/online/atlas/intro.htm (accessed July 2016).Google Scholar
Czerniejewski, P. and Rybczyk, A. (2008) Body weight, morphometry, and diet of the mud crab, Rhithropanopeus harrisii tridentatus (Maitland, 1874) in the Odra Estuary, Poland. Crustaceana 81, 12891299.Google Scholar
Czerniejewski, P., Rybszyk, A. and Wawrzyniak, W. (2010) Diet of the Chinese mitten crab, Eriocheir sinensis H. Milne Edwards, 1853, and potential effects of the crabs on the aquatic community in the river Odra/Oder estuary (N.-W. Poland). Crustaceana 83, 195205.CrossRefGoogle Scholar
Dahle, G., Agnalt, A-L., Farestveit, E., Sevigny, J-M. and Parent, E. (2014) Population genetics – snow crab. Genetic differentiation around the Arctic Ocean. In Hjelset, A.M. (ed.) Report from the workshop: Workshop on king- and snow crabs in the Barents Sea. Tromsø 11–12 March 2014. Rapport fra Havforskingen 18–2014. Bergen: Institute of Marine Research.Google Scholar
Denisenko, S.G. (2013) Biodiversity and bioresources of macrozoobenthos in the Barents Sea. Structure and long-term changes. St. Petersburg: Nauka. [In Russian]Google Scholar
Dittel, A. and Epifanio, C. (2009) Invasion biology of the Chinese mitten crab Eriochier sinensis: a brief review. Journal of Experimental Marine Biology and Ecology 374, 7992.Google Scholar
Doi, W., Watanabe, S. and Carlton, J.T. (2011) Alien marine crustaceans of Japan: a preliminary assessment. In Galil, B.S., Clark, P.F. and Carlton, J. (eds) In the wrong place. – Alien marine crustaceans: distribution, biology and impacts. Berlin: Springer, pp. 419440.Google Scholar
Dolgov, S.V., Matyushkin, V.B. and Sennikov, A.M. (2006) Comparative analysis of some biological and fishery characteristics of the Kamchatka crab in the Barents Sea in 1997–2005. In VII All-Russian Conference on Commercial Invertebrates. Murmansk, 9–13 October 2006. Moscow: VNIRO Publishing, pp. 6870. [In Russian]Google Scholar
d'Udekem d'Acoz, C. d’ (1999) Inventaire et distribution des crustacés décapodes de l'Atlantique nord-oriental, de la Méditerranée et des eaux continentales adjacentes au nord de 25° N. Patrimoines naturels 40, 1383.Google Scholar
Dvoretsky, A.G. and Dvoretsky, V.G. (2012) Epifauna of the lithodid crabs in the Barents Sea. Apatity: Kola Science Centre of Russian Academy of Sciences. [In Russian]Google Scholar
Epifanio, C. (2013) Invasion biology of the Asian shore crab Hemigrapsus sanguineus: a review. Journal of Experimental Marine Biology and Ecology 441, 3349.Google Scholar
Filippov, A.A. (2005) Common introduced species in benthic communities of the Aral and the Caspian and their influence on indigenous fauna. In Functional morphology, ecology and life cycles of animals. St Petersburg: Tessa, pp. 17195. [In Russian]Google Scholar
Forsström, T., Fowler, A., Manninen, I. and Vesakoski, O. (2015) An introduced species meets the local fauna: predatory behavior of the crab Rhithropanopeus harrisii in the Northern Baltic Sea. Biological Invasions 17, 27292741.Google Scholar
Forward, R.B. (2009) Larval biology of the crab Rhithropanopeus harrisii (Gould): a synthesis. Biological Bulletin 216, 243256.Google Scholar
Fowler, A.E., Forsström, T., von Numers, M. and Vesakoski, O. (2013) The North American mud crab Rhithropanopeus harrisii (Gould, 1841) in newly colonized Northern Baltic Sea: distribution and ecology. Aquatic Invasion 8, 8996.Google Scholar
Frederich, M., Sartoris, F.J., Arntz, W.E. and Pörtner, H.O. (2000) Haemolymph Mg2+ regulation in decapod crustaceans: physiological correlates and ecological consequences in polar areas. Journal of Experimental Biology 203, 13831393.Google Scholar
Galil, B.S. (2012) Truth and consequences; the bioinvasion of the Mediterranean Sea. Integrative Zoology 7, 299311.Google Scholar
Galil, B.S., Clark, P.F. and Carlton, J. (eds) (2011) In the wrong place. – Alien marine crustaceans: distribution, biology and impacts. Berlin: Springer.Google Scholar
Gíslason, Ó.S., Haldórsson, H.P., Pálsson, M.F., Palsson, S., Davðsdóttir, B. and Svavarsson, J. (2014) Invasion of the Atlantic rock crab (Cancer irroratus) at high latitudes. Biological Invasions 16, 18651877.Google Scholar
Goryanina, S.V. (2015) First data on snow crab migration activity in the Barents Sea. In Commercial Invertebrates. VIII All-Russian Conference. Kaliningrad: KGTU Publishing, pp. 5456. [In Russian]Google Scholar
Grabowski, M. (2006) Rapid colonization of the Polish Baltic coast by an Atlantic palaemonid shrimp Palaemon elegans Rathke, 1837. Aquatic Invasions 1, 116123.CrossRefGoogle Scholar
Grabowski, M., Jazdzewski, K. and Konopacka, A. (2005) Alien Crustacea in Polish waters – Introduction and Decapoda. Oceanological and Hydrobiological Studies 24, Supplement 1, 4361.Google Scholar
Grosholz, E.D. and Ruiz, G.M. (2003) Biological invasions drive size increases in marine and estuarine invertebrates. Ecology Letters 6, 700705.Google Scholar
Guchmanidze, A., Statkevich, S.V. and Boltachev, A.R. (2016) First record of prawn Penaeus semisulcatus on the coast of Georgia. Russian Journal of Biological Invasions 2016 (#4), 1923. [In Russian]Google Scholar
Hall, S. and Thatje, S. (2009) Global bottlenecks in the distribution of marine Crustacea: temperature constraints in the family Lithodidae. Journal of Biogeography 36, 21252135.Google Scholar
Hegele-Drywa, J. and Normant, M. (2009) Feeding ecology of the American crab Rhithropanopeus harrisii (Crustacea, Decapoda) in the coastal waters of the Baltic Sea. Oceanologia 51, 361375.Google Scholar
Hegele-Drywa, J., Normant, M., Szwarc, B. and Podłuska, A. (2014) Population structure, morphometry and individual condition of the non-native crab Rhithropanopeus harrisii (Gould, 1841), a recent coloniser of the Gulf of Gdańsk (southern Baltic Sea). Oceanologia 56, 805824.Google Scholar
Hegele-Drywa, J., Thiercelin, N., Schubart, C. and Normant-Saremba, M. (2015) Genetic diversity of the non-native crab Rhithropanopeus harrisii (Brachyura: Panopeidae) in the Polish coastal waters − an example of patchy genetic diversity at a small geographic scale. Oceanological and Hydrobiological Studies 44, 305315.CrossRefGoogle Scholar
HELCOM (2016) Baltic Sea Environment Fact Sheets. Available at http://helcom.fi/baltic-sea-trends/environment-fact-sheets (accessed July 2016).Google Scholar
Herborg, L.-M., Rudnick, D.A., Yang, S., Lodge, D.M. and MacIsaac, H.J. (2007a) Predicting the range of Chinese mitten crab in Europe. Conservation Biology 21, 13161323.Google Scholar
Herborg, L.-M., Rushton, S.P., Clare, A.S. and Bentley, M.G. (2003) Spread of the Chinese mitten crab (Eriocheir sinensis, H. Milne Edwards) in continental Europe: analysis of a historical data set. Hydrobiologia 503, 2128.Google Scholar
Herborg, L.-M., Weetman, D., van Oosterhaut, C. and Hänfling, B. (2007b) Genetic population structure and contemporary dispersal patterns of a recent European invader, the Chinese mitten crab, Eriocheir sinensis . Molecular Ecology 16, 231242.CrossRefGoogle ScholarPubMed
Hjelset, A.M. (ed.) (2014) Report from the workshop: Workshop on king- and snow crabs in the Barents Sea. Tromsø 11–12 March 2014. Institute of Marine Research. Rapport fra Havforskingen, pp. 182014.Google Scholar
Hjelset, A.M., Nilsen, E.M. and Sundet, J. (2012) Reduced size composition and fecundity related to fishery and invasion history in the introduced red king crab (Paralithodes camtschaticus) in the Norwegian waters. Fishery Research 121, 7380.CrossRefGoogle Scholar
Hjelset, A.M., Sundet, J. and Nilsen, E.M. (2009) Size at sexual maturity in the female red king crab (Paralithodes camtschaticus) in a newly settled population in the Barents Sea, Norway. Journal of North-West Atlantic Fishery Science 41, 172182.Google Scholar
Hunt, C.E. and Yamada, S.B. (2003) Biotic resistance experienced by an invasive crustacean in a temperate estuary. Biological Invasions 5, 3343.Google Scholar
Ivanov, D.A. and Sinegub, I.A. (2008) Transformation of biocoenoses of the Kerch Strait after the introduction of predatory gastropod Rapana thomasiana and bivalves Mya areanaria and Cunearca cornea. Proceedings International Conference “Problems of ecology of the Azov – Black Sea Basin”, 10–12.10.2007. Kerch. Kerch, pp. 4551. [In Russian]Google Scholar
Ivin, V.V., Zvyagintsev, Yu.A. and Kashin, I.A. (2014) Monitoring and control of alien species in marine and insular specially protected areas by the example of the Far East Marine State Natural Biosphere Reserve. Russian Journal of Biological Invasions 5, 156175.Google Scholar
Izhitskiy, A.S., Zavialov, P.O., Sapozhnikov, P.V., Kirillin, G., Grossart, H.P., Kalinina, O.Y., Zalota, A.K., Goncharenko, I.V. and Kurbaniazov, A.K. (2016) Present state of the Aral Sea: diverging physical and biological characteristics of the residual basin. Nature Scientific Reports 6, 23906. doi: 10.1038/srep23906.Google Scholar
Jørgensen, L.L., Lyubin, P.A., Skjoldal, H.R., Ingvaldsen, R.B., Anisimova, N.A. and Manushin, I.E. (2015) Distribution of benthic megafauna in the Barents Sea: baseline for an ecosystem approach to management. ICES Journal of Marine Science 72, 595613.CrossRefGoogle Scholar
Jørgensen, L.L. and Spiridonov, V. (2013) Effect from the king- and snow crab on Barents Sea benthos. Results and conclusions from the Norwegian–Russian Workshop in Tromsø 2010. Fisken og Havet nr. 8/2013. Bergen: Institute of Marine Research, 41 pp. Available at http://www.imr.no/publikasjoner/andre_publikasjoner/fisken_og_havet/nb-no.Google Scholar
Kamentseva, O.M. (2002) The Chinese crab Eriocheir sinensis in the rivers Manych and Don. Abstracts of the XII Conference on Fishery Oceanology, 9–14 September 2002. Svetlogorsk, Kaliningrad region, Russia, pp. 105106. [In Russian]Google Scholar
Karpevich, A.F. (1975) Theory and practice of acclimatization of aquatic organisms. Moscow: Pischevaya Promyshlennost. [In Russian]Google Scholar
Karpinsky, M.G. (2002) Ecology of the benthos of the Middle and Southern Caspian. Moscow: VNIRO Publishing. [In Russian]Google Scholar
Katajisto, T., Kotta, J., Lehtiniemi, M., Malavin, S.A. and Panov, V.E. (2013) Palaemon elegans Rathke, 1837 (Caridea: Palaemonoidea: Palaemonidae) established in the Gulf of Finland. BioInvasions Records 2, 125132.Google Scholar
Kepel, A.A., Spiridonov, V.A. and Tsareva, L.A. (2002) A finding of the crab Planes marinus in Peter the Great Bay, Sea of Japan. Russian Journal of Marine Biology 28, 206207.Google Scholar
Kepel, A.A. and Tsareva, L.A. (2005) First record of tropical crabs Portunus sanguinolentus (Herbst, 1783) and Plagusia depressa tuberculata Lamarck, 1818 in Peter the Great Bay, Sea of Japan. Russian Journal of Marine Biology 31, 124125.Google Scholar
Khusainova, N.Z. (1958) Biological characteristics of some common benthic invertebrates – food resources for fish in the Aral Sea. Alma-Ata: Kazakhastan State University Publishing. [In Russian]Google Scholar
Khvorov, S.A., Boltachev, A.R., Reshetnikov, S.I. and Pashkov, A.N. (2006) First record of green tiger prawn Penaeus semisulcatus (Penaeidae, Decapoda) in the Black Sea. Ekologiya Morya (Sevastopol) 72, 6569. [In Russian]Google Scholar
Kolesnichenko, A.I. (2014) Feeding ecology of invader crab Rhithropanopeus harrisii (Gould 1841) in the Vistula Bay . Master thesis. Kaliningrad State Technical University, Kaliningrad. [In Russian]Google Scholar
Kolesnichenko, A.I., Burukovsky, R.N. and Marin, I.A. (2014) Food composition of the crab-invader Rhitropanopeus harrisii (Panopeidae, Brachyura, Decapoda) in the Vistula bay of the Baltic Sea. Povolzhskiy Ekologicheskiy Zhurnal 2014, 508515. [In Russian]Google Scholar
Korn, O.M., Kornienko, E.S. and Zvyagintsev, A.Yu. (2007) Naturalization of Diogenes nitidimanus Terao, 1913 (Decapoda: Anomura) in Vostok Bay (Sea of Japan). Izvestiya TINRO 150, 291297. [In Russian]Google Scholar
Kotta, J. and Ojaveer, H. (2012) Rapid establishment of the alien crab Rhithropanopeus harrisii (Gould) in the Gulf of Riga. Estonian Journal of Ecology 61, 293298.Google Scholar
Kuzmin, S.A., Akhtarin, S.M. and Menis, D.T. (1998) The first finding of snow crab Chionoecetes opilio (Decapoda, Majidae) in the Barents Sea. Zoologycheskiy Zhurnal 77, 489491. [In Russian]Google Scholar
Kuzmin, S.A. and Gudimova, E.N. (2002) Introduction of the red king crab to the Barents Sea: biological features and prospective fishery. Apatity: Kola Science Centre of Russian Academy of Sciences. [In Russian]Google Scholar
Labay, V.S. (2004) Paracleistostoma cristatum De Man, 1895 (Crustacea: Decapoda) – new for Russia species of crabs from the estuarine waters of southern Sakhalin. Biologiya Morya 30, 7275. [In Russian]Google Scholar
Leppäkoski, E., Shiganova, T. and Alexandrov, B. (2009) European enclosed and semi-enclosed seas. In Rilov, G. and Crooks, J. (eds) Biological invasions in marine ecosystems. Berlin: Springer Verlag, pp. 529547.Google Scholar
Makarov, A.V. (1939) About some new elements in the composition of fauna of Black Sea lagoons, in connection to ship traffic. Doklady AN SSSR 23, 2526. [In Russian.]Google Scholar
Makarov, Yu.N. (2004) Fauna of Ukraine. Volume 26. Higher crustaceans. 1–2, Decapoda. Kiev: Naukova Dumka. [In Russian]Google Scholar
Makarevich, P.R., Lyubin, P.A. and Larionov, V.V. (2000) Basic tendencies in the structural dynamics of phytoplanktonic and benthic communities in the Sea of Azov. Russian Journal of Ecology 31, 411414.Google Scholar
Malinovskaja, L.V., Filippov, A.A., Osadchikh, V.F. and Aladin, N.V. (1998) Benthic macroinvertebrates of the Caspian Sea during recent rises in water-level. International Journal of Salt Lakes Research 7, 211233.Google Scholar
Marin, I., Korn, O.M. and Kornienko, E.S. (2012) On the presence of the caridean shrimp Lysmata vittata (Decapoda, Hippolytidae) in the Russian waters of the Sea of Japan. Crustaceana 85, 123124.Google Scholar
Matishov, G.G., Karmanova, I.V., Dvoretsky, A.G. and Utevsky, S.Yu. (2014) Symbionts of commercial crab species from the Okhotsk and Barents Seas. Rostov-on-Don: SSC RAS Publishers. [In Russian]Google Scholar
Matyushkin, V.B. (2003a) Seasonal migrations of the red king crab in the Barents Sea. In Berenboim, B.I. (ed.) The red king crab in the Barents Sea. Murmansk: PINRO Publishing, pp. 7078. [In Russian]Google Scholar
Matyushkin, V.B. (2003b) Early juveniles of the red king crab in Western Murman. In Berenboim, B.I. (ed.) The Red King Crab in the Barents Sea. Murmansk: PINRO Publishing, pp. 140152. [In Russian]Google Scholar
Mikkelsen, N. and Pedersen, T. (2012) Invasive red king crab affects lumpsucker recruitment by egg consumption. Marine Ecology Progress Series 469, 8799.Google Scholar
Micu, D. and Niţă, V. (2009) First record of the Asian prawn Palaemon macrodactylus Rathbun, 1902 (Caridea: Palaemonoidea: Palaemonidae) from the Black Sea. Aquatic Invasions 4, 597604.Google Scholar
Micu, D., Niţă, V. and Todorova, V. (2010a) First record of Say's mud crab Dyspanopeus sayi (Brachyura: Xanthoidea: Panopeidae) from the Black Sea. Marine Biodiversity Records 3, 16.Google Scholar
Micu, D., Niţă, V. and Todorova, V. (2010b) First record of the Japanese shore crab Hemigrapsus sanguineus (de Haan, 1835) (Brachyura: Grapsoidea: Varunidae) from the Black Sea. Aquatic Invasions 5, 14.Google Scholar
Mordukhai-Boltovskoi, F.D. (1952) About establishment of a new crab in the basin of river Don. Priroda 1952, 2021. [In Russian]Google Scholar
Mordvinova, T.N. and Lozovsky, V.L. (2009) Fauna of the parasites and commensal in the Black Sea decapods (Reptantia) from Sevastopol region. Ekologiya Moria 79, 2124. [In Russian]Google Scholar
Morgan, S.G., Goy, J.W. and Costlow, J.D. Jr (1983) Multiple ovipositions from single matings in the mud crab Rhithropanopeus harrisii . Journal of Crustacean Biology 3, 542547.Google Scholar
Nabozhenko, M.V., Shokhin, I.V. and Bulysheva, N.I. (2010) Zoobenthos. In Matishov, G.G. and Boltachev, A.R. (eds) The introducers in the biodiversity and productivity of the Sea of Azov and the Black Sea. Rostov on Don: South Centre Russian Academy of Sciences, pp. 1727. [In Russian]Google Scholar
Nebolsina, T.K. (1959) Crab in the Caspian Sea. Priroda 1959, 3233. [In Russian]Google Scholar
Neubaur, R. (1936) Ein neuer Mitbewohner schleswigholsteinischer Feischgewasser. Fischereizeitung 39, 725726.Google Scholar
Nikanorov, A.M. and Khoruzhaya, T.A. (2014) Internal processes in large water reservoirs of southern Russia (pollution, eutrophication and toxiphication). Geography and Natural Resources 2014 (#2), 35 43. [In Russian]Google Scholar
Normant, M., Chrobak, M. and Skora, K.E. (2002) The Chinese mitten crab Eriocheir sinensis – an immigrant from Asia in the Gulf of Gdansk. Oceanologia 44, 124126.Google Scholar
Normant, M. and Gibowicz, M. (2008) Salinity induced changes in haemolymph osmolality and total metabolic rate of the mud crab Rhithropanopeus harrisii Gould, 1841 from Baltic coastal waters. Journal of Experimental Marine Biology and Ecology 355, 145152.Google Scholar
Normant, M., Korthals, J. and Szaniawska, A. (2007) Epibiota associated with setae on Chinese mitten crab claws (Eriocheir sinensis H. Milne-Edwards, 1853): a first record. Oceanologia 49, 137143.Google Scholar
Novomodnyi, G.V. (2014) Fishes of Amur River in the neighbourhood of Khabarovsk. Khabarovsk, ISBN 978-5-9905894-5-2. [In Russian]Google Scholar
Nurkse, K., Kotta, J., Orav-Kotta, H., Pärnoja, M. and Kuprijanov, I. (2015) Laboratory analysis of the habitat occupancy of the crab Rhithropanopeus harrisii (Gould) in an invaded ecosystem: the north-eastern Baltic Sea. Estuarine, Coastal and Shelf Studies 154, 152157.Google Scholar
Ojaveer, H., Gollasch, S., Jaanus, A., Kotta, J., Laine, A.O., Minde, A., Normant, M. and Panov, V.E. (2007) Chinese mitten crab in the Baltic Sea – a supply-side invader. Biological Invasions 9, 409418.Google Scholar
Olenin, S., Minchin, D. and Daunys, D. (2007) Assessment of biopollution in aquatic ecosystems. Marine Pollution Bulletin 55, 379394.Google Scholar
Orlov, Yu.I. (2004) Kamchatkan crab in the Atlantic: how have you succeeded? Moscow: A.A. Zusman, ISBN 5-93076-038-4, 90 pp. [In Russian]Google Scholar
Orlov, Yu.I. and Ivanov, B.G. (1978) On the introduction of the Kamchatkan king crab Paralithodes camtschatica (Decapoda: Anomura: Lithodidae) into the Barents Sea. Marine Biology 48, 373375.Google Scholar
Otto, T. and Brandis, D. (2011) First evidence of Eriocheir sinensis reproduction from Schleswig-Holstein, western Baltic Sea. Aquatic Invasions 6, Supplement 2, S65S69.Google Scholar
Panov, V.E. (2006) First record of the Chinese mitten crab, Eriocheir sinensis H. Milne Edwards, 1853 (Crustacea: Brachyura: Varunidae) from Lake Ladoga, Russia. Aquatic Invasions 1, 2831.Google Scholar
Pavlov, V.A. (2006) The new data on snow crab (Chionoecetes opilio (Fabricius, 1798) in the Barents Sea. In VII All-Russian Conference on Commercial Invertebrates, Murmansk, October 9–13, 2006. Moscow: VNIRO Publishing, pp. 109111. [In Russian]Google Scholar
Pavlov, V.A. and Pinchukov, M.A. (2015) Feeding of snow crab Chionoecetes opilio in the eastern part of the Barents Sea. In Commercial Invertebrates. VIII All-Russian Conference. Kaliningrad: KGTU Publishing, pp. 8893. [In Russian]Google Scholar
Pavlov, V.A. and Sundet, J.H. (2011) Snow crab. In Jakobsen, T. et al. (ed.) The Barents Sea: ecosystem, resources, management. Half a century of Russian-Norwegian cooperation. Trondheim: Tapir Academic Press, pp. 168172.Google Scholar
Panning, A. (1939) The Chinese mitten crab. Report of the Board of Regents of the Smithsonian Institution (Washington) 3508, 361375.Google Scholar
Paunovic, M., Cakic, P., Hegedis, A., Kolarevic, J. and Lenhardt, M. (2004) A report of Eriocheir sinensis (H. Milne Edwards, 1854) [Crustacea: Brachyura: Grapsidae] from the Serbian part of the Danube River. Hydrobiologia 529, 275277.Google Scholar
Pereladov, M.V. (2003) Some aspects of distribution and behavior of red king crab in the Barents Sea shallow coastal waters. In Sokolov, V.I. (ed.) Bottom ecosystems of the Barents Sea. Trudy VNIRO 142, 103119. [In Russian]Google Scholar
Pereladov, M.V. (2013) The actual state of population and aspects of biology of rapana (Rapana venosa) in the North-east part of the Black Sea. Trudy VNIRO 150, 513. [In Russian]Google Scholar
Pereladov, M.V., Spiridonov Vassily, A., Anosov, S.E., Bobkov, A.A., Britayev, T.A., Deart, Yu.V., Labutin, A.V., Simakova, U.V. and Spiridonov Victor, A. (2013) Studies of the lagoons Linjalampi and Sisjarvi (Varanger fjord, southwestern part of the Barents Sea), general characteristics, bottom communities and the impact of introduced Kamchatkan crab (Paralithodes camtschaticus). In Conference “Marine biology, geology, oceanology – interdisciplinary studies on marine stations”. Moscow: Moscow State University, pp. 241245. [In Russian]Google Scholar
Petersen, C. (2006) Range expansion in the northeast Pacific by an estuary mud crab – a molecular study. Biological Invasions 8, 565576.CrossRefGoogle Scholar
Pinchukov, M.A. (2009) Spreading pattern of the red king crab in the Barents Sea (results of tagging in 1993–2007). In The 14th Russian.–Norwegian Fishery Scientific Symposium The Kamchatkan (Red King) Crab in the Barents Sea and Its Effects on the Barents Sea Ecosystem. Moscow, August 11–13, 2009. Abstracts of Papers. Moscow: VNIRO Publishing, pp. 4041.Google Scholar
Pinchukov, M.A. (2015) Age estimation of female red king crabs Paralithodes camtschaticus (Decapoda, Lithodidae) in the Barents Sea by their size. In Commercial Invertebrates. VIII All-Russian Conference. Kaliningrad: KGTU Publishing, pp. 9093. [In Russian]Google Scholar
Pinchukov, M.A. and Berenboim, B.I. (2003) Molting and growth of Kamchatkan crab in the Barents Sea. In Berenboim, B.I. (ed.) The red king crab in the Barents Sea. Murmansk: PINRO Publishing, pp. 100107. [In Russian]Google Scholar
Popov, G.P. and Davydov, R.A. (1999) Murman: Essays of regional history of the late XX – early XXI century. Ekaterinburg: Ural Branch of Russian Academy of Sciences. [In Russian]Google Scholar
Por, F.D. (1978) Lessepsian Migration. The influx of Red Sea biota into the Mediterranean by way of the Suez Canal. Berlin: Springer.Google Scholar
Projecto-Garcia, J., Cabral, H. and Schubart, C.D. (2010) High regional differentiation in a North American crab species throughout its native range and invaded European waters: a phylogeographic analysis. Biological Invasions 12, 253263.Google Scholar
Raykov, V.S., Lepage, M. and Pérez-Domínguez, R. (2010) First record of oriental shrimp, Palaemon macrodactylus Rathbun, 1902 in Varna Lake, Bulgaria. Aquatic Invasions 5, 9195.Google Scholar
Reisser, C.F. and Forward, R.B. Jr (1991) Effect of salinity on osmoregulation and survival of a rhizocephalan parasite, Loxothylacus panopaei, and its host, Rhithropanopeus harrisii . Estuaries 14, 102106.Google Scholar
Reuschel, S., Cuesta, J. and Schubart, D.C. (2010) Marine biogeographic boundaries and human introduction along the European coast revealed by phylogeography of the prawn Palaemon elegans . Molecular Phylogenetics and Evolution 55, 765775.Google Scholar
Reznichenko, O.G. (1967) Transoceanic auto-acclimatization of Rhithropanopeus harrisii: Crustacea, Brachyura). Trudy Instituta Okeanoligii AN SSSR 85, 136177. [In Russian]Google Scholar
Robbins, R.S., Sakari, M., Baluchi, S.N. and Clark, P.F. (2006) The occurrence of Eriocheir sinensis H. Milne Edwards, 1853 (Crustacea: Brachyura: Varunidae) from the Caspian Sea region, Iran. Aquatic Invasions 1, 3234.Google Scholar
Roche, D. and Torchin, M.E. (2007) Established population of the North American Harris mud crab, Rhithropanopeus harrisii (Gould 1841) (Crustacea: Brachyura Xanthidae) in the Panama Canal. Aquatic Invasions 2, 155161.Google Scholar
Sartoris, F.J. and Pörtner, H.O. (1997) Temperature dependence of ionic and acid-base regulation in boreal and arctic Crangon crangon and Pandalus borealis . Journal of Experimental Marine Biology and Ecology 211, 6983.Google Scholar
Selifonova, Zh.P. (2012) Taxonomic composition and seasonal dynamics of the meroplankton in the coastal zone of the Northeastern Black Sea. Russian Journal of Marine Biology 38, 19.Google Scholar
Sergeeva, N.G. and Burkatsky, O.N. (2002) Macrobenthos in eastern Azov Sea at the autumn of 2000. Ekologiya morya (Sevastopol) 61, 235. [In Russian]Google Scholar
Sezgin, M., Aydemir, E., Ateş, A.S., Katağan, T. and Özcan, T. (2007) On the presence of the non-native estuarine shrimp, Palaemon longirostris H. Milne-Edwards, 1837 (Decapoda, Caridea), in the Black Sea. Aquatic Invasions 2, 464465.Google Scholar
Shalovenkov, N. (2005) Restoration of some parameters in the development of benthos after reduction of anthropogenous loading in the ecosystem of the Sevastopol Bay in the Black Sea. Mitigation and Adaptation Strategies for Global Change 10, 105113.Google Scholar
Shakirova, F., Panov, V.E. and Clark, P.F. (2007) New records of the Chinese mitten crab from the Volga River, Russia. Aquatic Invasions 2, 169173.Google Scholar
Shorygin, A.A. and Karpevich, A.F. (1948) New introductions of the Caspian Sea and their importance in biology of this basin. Simpheropol: Krymizdat. [In Russian]Google Scholar
Simakova, U.V., Zalota, A.K. and Spiridonov, V.A. (2017) Genetic analysis of population structure of invasive North American mud crab Rhithropanopeus harrisii (Gould, 1841) in the Black Sea–Caspian region. Russian Journal of Biological Invasions 1, 7082.Google Scholar
Sirenko, B.I. and Vassilenko, S.V. (2008) Crabs (Crustacea, Decapoda, Brachyura) of the Chukchi Sea. In Sirenko, B.I. (ed.) Fauna and zoogeography of the Chukchi Sea. Explorations of fauna of the sea, Volume 61. St. Petersburg: Zoological Institute of Russian Academy of Sciences, pp. 142148. [In Russian]Google Scholar
Slizkin, A. and Safonov, S. (2000) Commercial crabs of the Kamchatka waters. Petropavlovsk-on-Kamchatka: Severnaya Pacifica. [In Russian]Google Scholar
Sokolov, A.M. (2014) Introduction of the snow crab to the Kara Sea. Example of further adaptive strategy of the species in the Russian sector of Arctic (results of the PINRO survey in 2013). Rybnoe Khoziaistvo 2014, 6367. [In Russian]Google Scholar
Sokolov, V.I. and Miljutin, D.M. (2008) Contemporary state of the Kamchatkan crab (Paralithodes camtschaticus, Decapoda, Lithodidae) population in the Barents Sea. Zoologicheskiy Zhurnal 87, 141155. [In Russian]Google Scholar
Sokolov, V.I., Petryashov, V.V. and Vassilenko, S.V. (2009) Order Decapoda. In Vasilenko, S.V. and Petryashov, V.V. (eds) Volume I. Illustrated keys to free-living invertebrates of Eurasian Arctic Seas and adjacent deep waters. Fairbanks: Alaska Sea Grant College Program, University of Alaska Fairbanks, pp. 12178.Google Scholar
Son, M.O., Novitsky, R.A. and Diadichko, V.G. (2013) Recent state and mechanisms of invasions of exoctic decapods in Ukrainian rivers. Vestnik Zoologii 47, e45e50.Google Scholar
Spiridonov, V.A., Petryashov, V.V. and Marin, I.N. (2013) Order Decapoda. In Sirenko, B.I. (ed.) Check-list of species of free-living invertebrates of the Russian Far Eastern seas. Explorations of the fauna of the seas Volume 75, St. Petersburg: Zoological Institute of Russian Academy of Sciences, pp. 116118.Google Scholar
Spiridonov, V.A., Zalota, A.K. and Vedenin, A.A. (2015) Rapid development of invasion of snow crab (Chionoecetes opilio) in the Kara Sea. In Flint, M.V. (ed.) Ecosystem of the Kara Sea – new data of expedition research. Moscow: P.P. Shirshov Institute of Oceanology, pp. 179183. [In Russian]Google Scholar
Squires, H.J. (1990) Decapod Crustacea of the Atlantic coast of Canada. Canadian Bulletin Fisheries Aquatic Sciences 221, 1532.Google Scholar
Starikov, Yu.V., Spiridonov, V.A., Naumov, A.D. and Zuev, Yu.V. (2015) First record and potential for red king crab Paralithodes camtschaticus (Crustacea, Decapoda, Lithodidae) population establishment in the White Sea. Russian Journal of Biological Invasions 6, 118128.Google Scholar
Sundet, J.H. (2014) Red king crab in the Barents Sea. In Stevens, B.G. (ed.) King crabs of the world: biology and fisheries management. Boca Raton, FL: CRC Press, pp. 485500.Google Scholar
Sundet, J.H., Nilsen, E.M. and Hjelset, A.M. (2009) The introduced species red king crab (Paralithodes camtschaticus) in the Barents Sea. I. Movement patterns in Norwegian waters. In The 14th Russian–Norwegian Fishery Scientific. Symposium The Kamchatkan (Red King) Crab in the Barents Sea and Its Effects on the Barents Sea Ecosystem. Moscow, August 11–13, 2009, Abstracts of Papers. Moscow: VNIRO Publishing, p. 32. [In Russian].Google Scholar
Talberg, N.B. (2005) Comparison of specific migration of the red king crab in coastal waters of the Barents and Okhotsk Seas. Trudy VNIRO 144, 91101. [In Russian]Google Scholar
Torchin, M.E., Lafferty, K.D., Dobson, A.P., Mckenzie, V.J. and Kuris, A.M. (2003) Introduced species and their missing parasites. Nature 421, 628630.Google Scholar
Turoboyski, K. (1973) Biology and ecology of the crab Rhithropanopeus harrisii ssp. tridentatus. Marine Biology 23, 303313.Google Scholar
Türkay, M. and Spiridonov, V.A. (2004) Die Kamtschatka-Königskrabbe, ein Neubürger Europas. Natur und Museum 134, 97111.Google Scholar
Vinogradov, A.K., Bogatova, Yu.I. and Sinegub, I.A. (2012) Aquatic ecosystems of marine ports of the Black Sea – Sea of Azov Basin (Introduction to ecology of marine ports). Odessa: Astroprint. [In Russian]Google Scholar
Vinogradov, L.G. (1945) Annual cycle and migrations of Kamchatkan crab in the northern part of the West Kamchatka shelf. Izvestia TINRO 19, 354. [In Russian]Google Scholar
Vorobyev, V.P. (1949) Benthos of the Sea of Azov. Trudy AZCHERNIRO 13, 1195. [In Russian]Google Scholar
WBGU (German Advisory Council on Global Change) (2013) Flagship Report. World in Transition. Governing the Marine Heritage. Berlin: WBGU Secretariat.Google Scholar
Wittmann, A.C., Held, C., Sartoris, F.J. and Pörtner, H.O. (2010) Ion regulatory capacity and the biogeography of Crustacea at high southern latitudes. Polar Biology 33, 919928.Google Scholar
Yablonskaya, E.A. (ed.) (1985) Caspian Sea: Fauna and biological productivity. Moscow: Nauka. [In Russian]Google Scholar
Yamada, S.B. (2001) Global invader: the European green crab. Corvallis: Oregon Sea Grant.Google Scholar
Yamada, S.B. and Kosro, P.M. (2010) Linking ocean conditions to year class strength of the invasive European green crab, Carcinus maenas . Biological Invasions 2, 17911804.Google Scholar
Zalogin, B.S. and Kosarev, A.N. (1999) The Seas. Moscow: Mysl. [In Russian]Google Scholar
Zalota, A.K., Kolyuchkina, G.A., Tiunov, A.V., Birjukova, S.V. and Spiridonov, V.A. (2017) The trophic position of an alien crab, Rhithropanopeus harrisii (Crustacea, Decapoda, Panopeidae), in the Taman Bay, Sea of Azov community. Oceanology 57, in press.Google Scholar
Zalota, A.K., Spiridonov, V.A. and Kolyuchkina, G.A. (2016a) New method of in situ observations and census of invasive mud crab Rhithropanopeus harrisii applied in the Black and Azov Seas. Arthropoda Selecta 25, 3962.Google Scholar
Zalota, A.K., Spiridonov, V.A. and Tiunov, A.V. (2013) The position of an invasive crab Rhithropanopeus harrisii in the food web of the Taman Bay, Sea of Azov. The 4th Bi-annual Black Sea Conference: 28–31 October 2013, Constanta, Romania Black Sea – Challenges towards good environmental status: abstracts book. Constanta: Editura Boldas, pp. 118.Google Scholar
Zalota, A.K., Spiridonov, V.A. and Vedenin, A.A. (2016b) Snow crab (Chionoecetes opilio) as an introduced species in the Kara Sea. Proceedings of 5th International Conference “Marine Research and Education”. Moscow: Moscow University, pp. 326328. [In Russian]Google Scholar
Zelenina, D.A., Miuge, N.S., Volkov, A.A. and Sokolov, V.I. (2008) Red king crab (Paralithodes camtschaticus) in the Barents Sea: a comparative study of introduced and native populations. Genetica 44, 983991.Google Scholar
Ziemiankowski, V.L. (1951) Crabul Heteropanope tridentata (Maitland) si aparitia lui în complexul Razelm privitã prin prisma economic-piscicolã. Buletinul Institutului de Cercetãri Piscicole 10, 6772.Google Scholar
Zimina, O.L. (2014) Finding the snow crab Chionoecetes opilio (O. Fabricius, 1788) (Decapoda: Majidae) in the Kara Sea. Russian Journal of Marine Biology 40, 490492.Google Scholar
Zimina, O.L., Lyubin, P.A., Jørgensen, L.L., Zakharov, D.V. and Lyubina, O.S. (2015) Decapod crustaceans of the Barents Sea and adjacent waters: species composition and peculiarities of distribution. Arthropoda Selecta 24, 417428.Google Scholar
Zolotarev, P.N. (2010) Juveniles of the red king crab in the Voronka of the White Sea. Voprosy Rybolovstva 11, 6064. [In Russian]Google Scholar
Zviagntsev, A.Yu. and Kornienko, E.S. (2008) Discovery of larvae of the hermit crab Diogenes nitidimanus Terao, 1913 (Decapoda: Diogenidae) in ship ballast waters: evidence in support of its introduction into Peter the Great Bay. Russian Journal of Marine Biology 34, 403406.Google Scholar