Ecosystem impacts of the widespread non-indigenous species in the Baltic Sea: literature survey evidences major limitations in knowledge

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• 作者：Henn Ojaveer (1)
  Jonne Kotta (1)
  
  1. Estonian Marine Institute ; University of Tartu ; M盲ealuse 14 ; 12618 ; Tallinn ; Estonia
  
• 关键词：Non ; native species ; Abiotic and biotic impacts ; Information type ; Effect magnitude ; Confidence level
• 刊名：Hydrobiologia
• 出版年：2015
• 出版时间：May 2015
• 年：2015
• 卷：750
• 期：1
• 页码：171-185
• 全文大小：691 KB
• 参考文献：1. Almqvist, G, Strandmark, AK, Appelberg, M (2010) Has the invasive round goby caused new links in Baltic food webs?. Environmental Biology of Fishes 89: pp. 79-93
  2. Antsulevich, A, V盲lipakka, P (2000) Cercopagis pengoi鈥攏ew important food object of the Baltic herring in the Gulf of Finland. International Revue of Hydrobiology 85: pp. 609-619
  3. AquaNIS. Editorial Board, 2013. Information system on Aquatic Non-Indigenous and Cryptogenic Species. World Wide Web electronic publication. www.corpi.ku.lt/databases/aquanis. Version 2.36+. Accessed 2014-06-23.
  4. Arbaciauskas, K, Gumuliauskaite, S Invasion of the Baltic Sea basin by the Ponto-Caspian amphipod Pontogammarus robustoides and its ecological impact. In: Gherardi, F eds. (2007) Biological Invaders in Inland Waters: Profiles, Distribution, and Threats. Springer, Berlin, pp. 463-477
  5. Berezina, NA, Panov, VE (2003) Establishment of new gammarid species in the eastern Gulf of Finland (Baltic Sea) and their effects on littoral communities. Proceedings of the Estonian Academy of Sciences. Biology. Ecology 52: pp. 284-304
  6. Berezina, N, Golubkov, S, Gubelit, J (2005) Grazing effects of alien amphipods on macroalgae in the littoral zone of the Neva Estuary (Eastern Gulf of Finland, Baltic Sea). Oceanological and Hydrobiological Studies 34: pp. 63-82
  7. Blackburn, TM, Essl, F, Evans, T, Hulme, PE, Jeschke, JM, K眉hn, I, Kumschick, S, Markov谩, Z, Mruga艂a, A, Nentwig, W, Pergl, J, Py拧ek, P, Rabitsch, W, Ricciardi, A, Richardson, DM, Sendek, A, Vil脿, M, Wilson, JRU, Winter, M, Genovesi, P, Bacher, S (2014) A unified classification of alien species based on the magnitude of their environmental impacts. PLoS Biology 12: pp. e1001850
  8. Bonaglia, S, Bartoli, M, Gunnarsson, JS, Rahm, L, Raymond, C, Svensson, O, Shakeri Yekta, S, Br眉chert, V (2013) Effect of reoxygenation and Marenzelleria spp. bioturbation on Baltic Sea sediment metabolism. Marine Ecology Progress Series 482: pp. 43-55
  9. Burckhardt, R, Schumann, R, Bochert, R (1997) Feeding biology of the pelagic larvae of Marenzelleria cf. viridis (Polychaeta: Spionidae) from the Baltic Sea. Aquatic Ecology 31: pp. 149-162
  10. Bzoma, S (1998) The contribution of round goby (Neogobius melanostomus Pallas, 1811) to the food supply of cormorants (Phalacrocorax carbo Linnaeus, 1758) feeding in the Puck Bay. Bulletin of the Sea Fisheries Institute 2: pp. 39-47
  11. Bzoma, S, Meissner, W (2005) Some results of long-term counts of waterbirds wintering in the western part of the Gulf of Gdansk (Poland), with special emphasis on the increase int he number of cormorants (Phalacrocorax carbo). Acta Zoologica Lituanica 15: pp. 105-108
  12. Carlton, JT (1996) Biological invasions and cryptogenic species. Ecology 77: pp. 1653-1655
  13. Chotkovski, MA, Marsden, JE (1999) Round goby and mottled sculpin predation on lake trout eggs and fry: field predictions from laboratory measurements. Journal of Great Lakes Research 25: pp. 26-35
  14. Costello, MJ, Coll, M, Danovaro, R, Halpin, P, Ojaveer, H, Miloslavich, PA (2010) Census of marine biodiversity knowledge, resources, and future challenges. PLoS ONE 5: pp. e12110
  15. Czerniejewski, P, Rybczyk, A, Wawrzyniak, W (2010) Diet of the Chinese mitten crab, Eriocheir sinensis H. Milne Edwards, 1853, and potential effects of the crab on the aquatic community in the River Odra/Oder estuary (N.-W. Poland). Crustaceana 83: pp. 195-205
  16. Davidson, AD, Hewitt, C (2014) How often are invasion-induced ecological impacts missed?. Biological Invasions 16: pp. 1165-1173
  17. Daunys, D, Zemlys, P, Olenin, S, Zaiko, A, Ferrarin, C (2006) Impact of the zebra mussel Dreissena polymorpha invasion on the budget of suspended matter in a shallow lagoon ecosystem. Helgoland Marine Research 60: pp. 113-120
  18. Delefosse, M, Kristensen, E (2012) Burial of Zostera marina seeds in sediment inhabited by three polychaetes: laboratory and field studies. Journal of Sea Research 71: pp. 41-49
  19. Delefosse, M, Banta, GT, Canal-Verg茅s, P, Penha-Lopes, G, Quintana, CO, Valdemarsen, T, Kristensen, E (2012) Macrobenthic community response to the Marenzelleria viridis (Polychaeta) invasion of a Danish estuary. Marine Ecology Progress Series 461: pp. 83-94
  20. Dinasquet, J, Titelman, J, M酶ller, LF, Set盲l盲, O, Granhag, L, Andersen, T, B氓mstedt, U, Haraldsson, M, Hosia, A, Katajisto, T, Kragh, T, Kuparinen, J, Schr酶ter, M-L, S酶ndergaard, M, Tiselius, P, Riemann, L (2012) Cascading effects of the ctenophore Mnemiopsis leidyi on the planktonic food web in a nutrient-limited estuarine system. Marine Ecology Progress Series 460: pp. 49-61
  21. Edelist, D, Rilov, G, Golani, D, Carlton, JT, Spanieret, E (2013) Restructuring the Sea: profound shifts in the world鈥檚 most invaded marine ecosystem. Diversity and Distributions 19: pp. 69-77
  22. Eriksson Wiklund, A. K. & A. Andersson, 2014. Benthic competition and population dynamics of / Monoporeia affinis and / Marenzelleria sp. in the northern Baltic Sea. Estuarine, Coastal and Shelf Sciences. doi:10.1016/j.ecss.2014.04.008 .
  Directive 2008/56/EC of the European Parliament and of the Council of 17 June 2008 establishing a framework for community action in the field of marine environmental policy (Marine Strategy Framework Directive). Official Journal of the European Communities L164: pp. 19-40
  Decision on criteria and methodological standards on good environmental status of marine waters. Decision 2010/477/EU. Official Journal of the European Communities L 232: pp. 14-24
  23. Foster, GD, Baksi, SM, Means, JC (1987) Bioaccumulation of trace organic contaminants from sediment by Baltic clams (Macoma balthica) and soft-shell clams (Mya arenaria). Environmental Toxicology and Chemistry 6: pp. 969-976
  24. Galil, BS, Marchini, A, Occhipinti-Ambrogi, A, Minchin, D, Nar拧膷ius, A, Ojaveer, H, Olenin, S (2014) International arrivals: widespread bioinvasions in European Seas. Ethology Ecology & Evolution 26: pp. 152-171
  25. Geller, JB, Darling, JA, Carlton, JT (2010) Genetic perspectives on marine biological invasions. Annual Review of Marine Science 2: pp. 367-393
  26. Golubkov, SM, Back, S, Nikulina, VN, Orlova, MI, Anokhina, LE, Umnova, LP (2003) Effects of eutrophication and invasion of Dreissena polymorpha in the coastal zone of the eastern Gulf of Finland. Proceedings of the Estonian Academy of Sciences Biology Ecology 52: pp. 218-235
  27. Gorokhova, E, Fagerberg, T, Hansson, S (2004) Predation by herring (Clupea harengus) on Cercopagis pengoi in a western Baltic Sea bay. ICES Journal on Marine Science 61: pp. 959-965
  28. Gorokhova, E, Hansson, S, H枚glander, H, Andersen, CM (2005) Stable isotopes show food web changes after invasion by the preda tory cladoceran Cercopagis pengoi in a Baltic Sea bay. Oecologia 143: pp. 251-259
  29. Grabowski, M, Konopacka, A, Jazdzewski, K, Janowska, E (2006) Invasions of alien gammarid species and retreat of natives in the Vistula Lagoon (Baltic Sea, Poland). Helgoland Marine Research 60: pp. 90-97
  30. Grabowski, M, Jazdzewski, K, Konopacka, A (2007) Alien crustacea in polish waters鈥攁mphipoda. Aquatic Invasions 2: pp. 25-38
  31. Granberg, ME, Gunnarsson, JS, Hedman, JE, Rosenberg, R, Jonsson, P (2008) Bioturbation-driven release of organic contaminants from Baltic Sea sediments mediated by the invading polychaete Marenzelleria neglecta. Environmental Science & Technology 42: pp. 1058-1065
  32. Granhag, L, M酶ller, LF, Hansson, LJ (2011) Size-specific clearance rates of the ctenophore Mnemiopsis leidyi based on in situ gut content analyses. Journal of Plankton Research 33: pp. 1043-1052
  33. Hedman, JE, Stempa Tocca, J, Gunnarsson, JS (2009) Remobilisation of polychlorinated biphenyl from the Baltic Sea sediment: comparing the roles of bioturbation and physical resuspension. Environmental Toxicology and Chemistry 28: pp. 2241-2249
  34. HELCOM, 2010. Towards a tool for quantifying anthropogenic pressures and potential impacts on the Baltic Sea marine environment: a background document on the method, data and testing of the Baltic Sea Pressure and Impact Indices. Baltic Sea Environmental Proceedings Number 125. HELCOM, Helsinki.
  35. Hedman, JE, Bradshaw, C, Thorsson, MH, Gilek, M, Gunnarsson, JF (2008) Fate of contaminants in Baltic Sea sediments: role of bioturbation and settling organic matter. Marine Ecology Progress Series 356: pp. 25-38
  36. Hietanen, S, Laine, AO, Lukkari, K (2007) The complex effects of the invasive polychaetes Marenzelleria spp. on benthic nutrient dynamics. Journal of Experimental Marine Biology and Ecology 352: pp. 89-102
  37. Holliland, PB, Holmborn, T, Gorokhova, E (2012) Assessing diet of the non-indigenous predatory cladoceran Cercopagis pengoi using stable isotopes. Journal of Plankton Research 34: pp. 376-387
  38. J盲rv, L, Kotta, J, Kotta, I, Raid, T (2011) Linking the structure of benthic invertebrate communities and the diet of native and invasive fish species in a brackish water ecosystem. Annales Zoologoci Fennici 48: pp. 129-141
  39. Jaspers, C, Titelman, J, Hansson, LJ, Haraldsson, M, Ditlefsen, CR (2011) The invasive ctenophore Mnemiopsis leidyi poses no direct threat to Baltic cod eggs and larvae. Limnology and Oceanography 56: pp. 431-439
  40. Javidpour, J, Molinero, JC, Lehmann, A, Hansen, T, Sommer, U (2009) Annual assessment of the predation of Mnemiopsis leidyi in a new invaded environment, the Kiel Fjord (Western Baltic Sea): a matter of concern?. Journal of Plankton Research 31: pp. 729-738
  41. Jazdzewski, K, Konopacka, A, Grabowski, M (2004) Recent drastic changes in the gammarid fauna (Crustacea, Amphipoda) of the Vistula River deltaic system in Poland caused by alien invaders. Diversity and Distributions 10: pp. 81-87
  42. Jonsson, A, Nielsen, TG, Hrubenja, I, Maar, M, Petersen, JK (2009) Eating your competitor: functional triangle between turbulence, copepod escape behavior and predation from mussels. Marine Ecology Progress Series 376: pp. 143-151
  43. Josefsson, S, Leonardsson, K, Gunnarsson, JS, Wiberg, K (2011) Influence of contaminant burial depth on the bioaccumulation of PCBs and PBDEs by two benthic invertebrates (Monoporeia affinis and Marenzelleria spp.). Chemosphere 85: pp. 1444-1451
  44. Josefson, AB, Norkko, J, Norkko, A (2012) Burial and decomposition of plant pigments in surface sediments of the Baltic Sea: role of oxygen and benthic fauna. Marine Ecology Progress Series 455: pp. 33-49
  45. Karjalainen, M, Reinikainen, M, Lindvall, F, Spoof, L, Meriluoto, JAO (2003) Uptake and accumulation of dissolved, radiolabeled nodularin in Baltic Sea zooplankton. Environmental Toxicology 18: pp. 53-60
  46. Karlson, AML, Almqvist, G, Sk贸ra, KE, Appelberg, M (2007) Indications of competition between non-indigenous round goby and native flounder in the Baltic Sea. ICES Journal of Marine Science 64: pp. 479-486
  47. Katsanevakis, S., I. Wallentinus, A. Zenetos, E. Lepp盲koski, M. E. 脟inar, B. Ozt眉rk, M. Grabowski, D. Golani & A. C. Cardoso, 2014. Impacts of invasive alien marine species on ecosystem services and biodiversity: a pan-European review. Aquatic Invasions 9. doi:10.3391/ai.2014.9.4.01 .
  48. Korpinen, S, Jormalainen, V (2008) Grazing effects in macroalgal communities depend on timing of patch colonization. Journal of Experimental Marine Biology and Ecology 360: pp. 39-46
  49. Kotta, J, Mohlenberg, F (2004) Grazing impact of Mytilus edulis L. and Dreissena polymorpha (Pallas) in the Gulf of Riga, Baltic Sea estimated from biodeposition rates of algal pigments. Annales Zooloogica Fennici 39: pp. 151-160
  50. Kotta, J, Olafsson, E (2003) Competition for food between the introduced polychaete Marenzelleria viridis (Verrill) and the native amphipod Monoporeia affinis Lindstr枚m in the Baltic Sea. Journal of Sea Research 50: pp. 27-35
  51. Kotta, J, Orav, H, Kotta, I (1998) Distribution and filtration activity of the zebra mussel, Dreissena polymorpha, in the Gulf of Riga and the Gulf of Finland. Proceedings of the Estonian Academy of Sciences 47: pp. 32-41
  52. Kotta, J, Orav, H, Sandberg-Kilpi, E (2001) Ecological consequence of the introduction of the polychaete Marenzelleria cf viridis into a shallow-water biotope of the northern Baltic Sea. Journal of Sea Research 46: pp. 273-280
  53. Kotta, J, Torn, K, Martin, G, Orav-Kotta, H, Paalme, T (2004) Seasonal variation in invertebrate grazing on Chara connivens and C. tomentosa in K玫iguste Bay, NE Baltic Sea. Helgoland Marine Research 58: pp. 71-76
  54. Kotta, J, Kotta, I, Simm, M, Lankov, A, Lauringson, V, P玫llum盲e, A, Ojaveer, H (2006) Ecological consequences of biological invasions: three invertebrate case studies in the north-eastern Baltic Sea. Helgoland Marine Research 60: pp. 106-112
  55. Kotta, J, Orav-Kotta, H, Herk眉l, K (2010) Separate and combined effects of habitat-specific fish predation on the survival of invasive and native gammarids. Journal of Sea Research 64: pp. 369-372
  56. Kotta, J, Orav-Kotta, H, Herk眉l, K, Kotta, I (2011) Habitat choice of the invasive Gammarus tigrinus and the native Gammarus salinus indicates weak interspecific competition. Boral Environment Research 16: pp. 64-72
  57. Kotta, J, P盲rnoja, M, Katajisto, T, Lehtiniemi, M, Malavin, SA, Reisalu, G, Panov, VE (2013) Is a rapid expansion of the invasive amphipod Gammarus tigrinus Sexton, 1939 associated with its niche selection: a case study in the Gulf of Finland, the Baltic Sea. Aquatic Invasions 8: pp. 319-332
  58. Kotta, J., H. Orav-Kotta, I. Kotta, M. P盲rnoja, K. Nurkse & I. Kuprijanov, 2014a. The first reproducing crab species in the Baltic Sea鈥攖he invasion and impacts of / Rhithropanopeus harrisii. 10th International Temperate Reefs Symposium, Perth, Australia, 12-17.01.2014, Abstract Book, p. 119.
  59. Kotta, J, Torn, K, Reisalu, G, Veber, T (2014) Relationships between mechanical disturbance and biomassof the invasive amphipod Gammarus tigrinus within a charophyte-dominated macrophyte community. Marine Ecology 35: pp. 11-18
  60. Lankov, A, Ojaveer, H, Simm, M, P玫llup眉眉, M, M枚llmann, C (2010) Feeding ecology of pelagic fish species in the Gulf of Riga (Baltic Sea): the importance of changes in the zooplankton community. Journal of Fish Biology 77: pp. 2268-2284
  61. Lauringson, V, M盲lton, E, Kotta, J, Kangur, K, Orav-Kotta, H, Kotta, I (2007) Environmental factors influencing the biodeposition of the suspension feeding bivalve Dreissena polymorpha (Pallas): comparison of brackish and freshwater populations. Estuarine, Coastal and Shelf Science 75: pp. 459-467
  62. Lauringson, V, Kotta, J, Orav-Kotta, H, Kaljurand, K (2013) Diet of mussels Mytilus trossulus and Dreissena polymorpha in a brackish nontidal environment. Marine Ecology 35: pp. 56-66
  63. Lehtiniemi, M, Gorokhova, E (2008) Predation of the introduced cladoceran Cercopagis pengoi on the native copepod Eurytemora affinis in the northern Baltic Sea. Marine Ecology Progress Series 362: pp. 193-200
  64. Lepp盲koski, E, Gollasch, S, Gruszka, P, Ojaveer, H, Olenin, S, Panov, V (2002) The Baltic鈥攁 sea of invaders. Canadian Journal of Fisheries and Aquatic Sciences 59: pp. 1175-1188
  65. Litvinchuk, LF, Telesh, IV (2006) Distribution, population structure and ecosystem effects of the invader Cercopagis pengoi (Polyphemoidea, Cladocera) in the Gulf of Finland and the open Baltic Sea. Oceanologia 48: pp. 243-257
  66. Lotze, HK, Worm, B (2009) Historical baselines for large marine animals. Trends in Ecology and Evolution 25: pp. 254-262
  67. Madsen, CV, Riisgaard, HU (2010) Ingestion-rate method for measurement of clearance rates of the ctenophore Mnemiopsis leidyi. Aquatic Invasions 5: pp. 357-361
  68. Marentette, JR, Gooderham, KL, McMaster, ME, Ng, T, Parrott, JL, Wilson, JY, Wood, CM, Balshine, S (2010) Signatures ofcontamination in invasive round gobies (Neogobius melanostomus): a double strike for ecosystem health?. Ecotoxicology and Environmental Safety 73: pp. 1755-1764
  69. Marohn, L, Jakob, E, Hanel, R (2013) Implications of facultative catadromy in Anguilla anguilla. Does individual migratory behaviour influence eel spawner quality?. Journal of Sea Research 77: pp. 100-106
  70. Maximov, AA (2011) Large-scale invasion of Marenzelleria spp. (Polychaeta; Spionidae) in the Eastern Gulf of Finland, Baltic Sea. Russian Journal of Biological Invasions 2: pp. 11-19
  71. M酶ller, EF (2007) Production of dissolved organic carbon by sloppy feeding in the copepods Acartia tonsa, Centropages typicus, and Temora longicornis. Limnology and Oceanography 52: pp. 79-84
  72. Neideman, R, Wenngren, J, 脫lafsson, E (2003) Competition between the introduced polychaete Marenzelleria sp. and the native amphipod Monoporeia affinis in Baltic soft bottoms. Marine Ecology Progress Series 264: pp. 49-55
  73. Norkko, J, Reed, DC, Timmermann, K, Norkko, A, Gustafsson, B, Bonsdorff, E, Slomp, CP, Carstensen, J, Conley, DJ (2012) A welcome can of worms? Hypoxia mitigation by an invasive species. Global Change Biology 18: pp. 422-434
  74. Normant, M, Korthals, J, Szaniawska, A (2007) Epibitoa associated with setae on Chinese mitten crab claws (Erioscheir sinensis H. Milne-Edwards, 1853): a first record. Oceanologia 49: pp. 137-143
  75. Ojaveer, H, Lumberg, A (1995) On the role of Cercopagis (Cercopagis) pengoi (Ostroumov) in P盲rnu Bay and the NE part of the Gulf of Riga ecosystem. Proceedings of the Estonian Academy of Sciences. Ecology 5: pp. 20-25
  76. Ojaveer, H, Lepp盲koski, E, Olenin, S, Ricciardi, A Ecological impacts of Ponto-Caspian invaders in the Baltic Sea, European inland waters and the Great Lakes: an inter-ecosystem comparison. In: Lepp盲koski, E, Gollasch, S, Olenin, S eds. (2002) Invasive Aquatic Species of Europe: Distribution, Impacts And Management. Kluwer Scientific Publishers, Dordrecht, pp. 412-425
  77. Ojaveer, H, Simm, M, Lankov, A (2004) Population dynamics and ecological impact of the nonindigenous Cercopagis pengoi in the Gulf of Riga (Baltic Sea). Hydrobiologia 522: pp. 261-269
  78. Ojaveer, H, Jaanus, A, MacKenzie, B, Martin, G, Olenin, S, Radziejewska, T, Telesh, I, Zettler, M, Zaiko, A (2010) Status of biodiversity in the Baltic Sea. PLoS ONE 5: pp. e12467
  79. Ojaveer, H, Kotta, J, P玫llum盲e, A, P玫llup眉眉, M, Jaanus, A, Vetemaa, M (2011) Alien species in a brackish water temperate ecosystem: Annual-scale dynamics in response to environmental variability. Environmental Research 111: pp. 933-942
  80. Olenin, S, Lepp盲koski, E (1999) Non-native animals in the Baltic Sea: alteration of benthic habitats in coastal inlets and lagoons. Hydrobiologia 393: pp. 233-243
  81. Olenin, S, Minchin, D, Daunys, D (2007) Assessment of biopollution in aquatic ecosystems. Marine Pollution Bulletin 55: pp. 379-394
  82. Olenin, S, Alemany, F, Cardoso, AC, Gollasch, S, Goulletquer, P, Lehtiniemi, M, McCollin, T, Minchin, D, Miossec, L, Occhipinti-Ambrogi, A, Ojaveer, H, Jensen, KR, Stankiewicz, M, Wallentinus, I, Aleksandrov, B (2010) Marine Strategy Framework Directive鈥擳ask Group 2 Report. Non-indigenous species, Office for Official Publications of the European Communities, EU/ICES, Luxembourg
  83. Olenin, S, Nar拧膷ius, A, Minchin, D, David, M, Galil, B, Gollasch, S, Marchini, A, Occhipinti-Ambrogi, A, Ojaveer, H, Zaiko, A (2014) Making non-indigenous species information systems practical for management and useful for research: an aquatic perspective. Biological Conservation 173: pp. 98-107
  84. Olenina, I, Wasmund, N, Hajdu, S, Jurgensone, I, Gromisz, S, Kownacka, J, Toming, K, Vaici奴t臈, D, Olenin, S (2010) Assessing impacts of invasive phytoplankton: the Baltic Sea case. Marine Pollution Bulletin 60: pp. 1691-1700
  85. Orav-Kotta, H, Kotta, J, Herk眉l, K, Kotta, I, Paalme, T (2009) Seasonal variability in the grazing potential of the invasive amphipod Gammarus tigrinus and the native amphipod Gammarus salinus (Amphipoda: Crustacea) in the northern Baltic Sea. Biological Invasions 11: pp. 597-608
  86. Orlova, MI, Golubkov, S, Kalinina, L, Ignatieva, N (2004) Dreissena polymorpha (Bivalvia: Dreissenidae) in the Neva Estuary (eastern Gulf of Finland, Baltic Sea): is it a biofilter or source for pollution?. Marine Pollution Bulletin 49: pp. 196-205
  87. Orlova, MI, Telesh, IV, Berezina, NA, Antsulevich, A, Maximov, AA, Litvinchuk, LF (2006) Effects of nonindigenous species on diversity and community functioning in the eastern Gulf of Finland (Baltic Sea). Helgoland Marine Research 60: pp. 98-105
  88. 脰sterblom, H, Hansson, S, Larsson, U, Hjerne, O, Wulff, FRE, Folke, C (2007) Human-induced trophic cascades and ecological regime shifts in the Baltic Sea. Ecosystems 10: pp. 877-889
  89. Paolucci, EM, MacIsaac, HJ, Ricciardi, A (2013) Origin matters: alien consumers inflict greater damage on prey populations than do native consumers. Diversity and Distributions 19: pp. 988-995
  90. Packal茅n, A, Korpinen, S, Lehtonen, KK (2008) The invasive amphipod species Gammarus tigrinus (Sexton, 1939) can rapidly change littoral communities in the Gulf of Finland (Baltic Sea). Aquatic Invasions 3: pp. 405-412
  91. P玫llum盲e, A, Kotta, J (2007) Factors describing the distribution of the zooplankton community in the Gulf of Finland in the context of interactions between native and introduced predatory cladocerans. Oceanologia 49: pp. 277-290
  92. P奴tys, 沤, Zarankait臈, J (2010) Diet of the Great Cormorant (Phalacrocorax carbo Sinensis) at the Juodkrant臈 colony, Lithuania. Acta Zoologica Lituanica 20: pp. 179-189
  93. Py拧ek, P, Richardson, DM (2010) Invasive species, environmental change and management, and health. Annual Review of Environment and Resources 35: pp. 25-55
  94. Queiros, AM, Hiddink, JG, Johnson, G, Cabral, HN, Kaiser, MJ (2011) Context dependence of marine ecosystem engineer invasion impacts on benthic ecosystem functioning. Biological Invasions 13: pp. 1059-1075
  95. Quintana, CO, Kristensen, E, Valdemarsen, T (2013) Impact of the invasive polychaete Marenzelleria viridis on the biogeochemistry of sandy marine sediment. Biogeochemistry 115: pp. 95-109
  96. Radziejewska, T, Fenske, C, Wawrzyniak-Wydrowska, B, Riel, P, Wo藕niczka, A, Gruszka, P (2009) The zebra mussel (Dreissena polymorpha) and the benthic community in a coastal Baltic lagoon: another example of enhancement. Marine Ecology 30: pp. 138-150
  97. Rakauskas, V, Bacevi膷ius, E, P奴tys, 沤, Lo啪ys, L, Arba膷iauskas, K (2008) Expansion, feeding and parasites of the round goby, Neogobius melanostomus (Pallas, 1811), a recent invader in the Curonian Lagoon, Lithuania. Acta Zoologica Lituanica 18: pp. 180-190
  98. Rakauskas, V, P奴tys, 沤, Dainys, J, Lesutiene, J, Lo啪ys, L, Arba膷iauskas, K (2013) Increasing population of the invader round goby, Neogobius melanostomus (Actinopterygii: Perciformes: Gobiidae), and its trophic role in the Curonian Lagoon, SE Baltic Sea. Acta Ichthyologica et Piscatoria 43: pp. 95-108
  99. Renz, JR, Forster, F (2014) Effects of bioirrigation by the three sibling species of Marenzelleria spp. on solute fluxes and porewater nutrient profiles. Marine Ecology Progress Series 505: pp. 145-159
  100. Ricciardi, A (2007) Are modern biological invasions an unprecedented form of global change?. Conservation Biology 21: pp. 329-336
  101. Ricciardi, A, Avlijas, S, Marty, J (2012) Forecasting the ecological impacts of the Hemimysis anomala invasion in North America: lessons from other freshwater mysid introductions. Journal of Great Lakes Research 38: pp. 7-13
  102. Riisgard, HU, Barth-Jensen, C, Madsen, CV (2010) High abundance of the jellyfish Aurelia aurita excludes the invasive ctenophore Mnemiopsis leidyi to establish in a shallow cove (Kertinge Nor, Denmark). Aquatic Invasions 5: pp. 347-356
  103. Ruiz, G, Fotonoff, P, Hines, AH (1999) Non-indigenous species as stressors in estuarine and marine communities: assessing invasion impacts and interactions. Limnology and Oceanography 44: pp. 950-972
  104. Ruiz, G., P. Fofonoff, B. Steves A. Dahlstrom, 2011. Marine crustacean invasions in North America: a synthesis of historical records and documented impacts. In Galil, B. S., P. F. Clark & J. T. Carlton (eds), In the Wrong Place鈥擜lien Marine Crustaceans: Distribution, Biology and Impacts. Invading Nature鈥擲pringer Series in Invasion Ecology: 215鈥?50.
  105. Schaber, M, Haslob, H, Huwer, B, Harjes, A, Hinrichsen, HH, Storr-Paulsen, M, Schmidt, JO, Voss, R, Neumann, V, K枚ster, FW (2011) Spatio-temporal overlap of the alien invasive ctenophore Mnemiopsis leidyi and ichthyoplankton in the Bornholm Basin (Baltic Sea). Biological Invasions 13: pp. 2647-2660
  106. Simberloff, D (2011) How common are invasion-induced ecosystem impacts?. Biological Invasions 13: pp. 1255-1268
  107. Simm, M., A. Lankov, M. P玫llup眉眉 & H. Ojaveer, 2006. Estimation of consumption rates of the predatory cladoceran / Cercopagis pengoi in laboratory conditions. In Ojaveer, H. & J. Kotta (eds), Estonian Marine Institute Report Series 14: 42鈥?7.
  108. Sj枚berg, NB, Petersson, E, Wickstr枚m, H, Hansson, S (2009) Effects of the swimbladder parasite Anguillicola crassus on the migration of European silver eels Anguilla Anguilla in the Baltic Sea. Journal of Fish Biology 74: pp. 2158-2170
  109. Skora, K, Rzeznik, J (2001) Observations on the diet composition of Neogobius melanostomus Pallas 1811 (Gobiidae, Pisces) in the Gulf of Gdansk (Baltic Sea). Journal of Great Lakes Research 27: pp. 290-299
  110. Sorte, CJB, Williams, SL, Carlton, JT (2010) Marine range shifts and species introductions: comparative spread rates and community impacts. Global Ecology and Biogeography 19: pp. 303-316
  111. Strayer, DL (2012) Eight questions about invasions and ecosystem functioning. Ecology Letters 15: pp. 1199-1210
  112. Szymczak-呕y艂a, M, Wawrzyniak-Wydrowska, B, Kowalewska, G (2006) Products of chlorophyll a transformation by selected benthic organisms in the Odra Estuary (Southern Baltic Sea). Hydrobiologia 554: pp. 155-164
  113. Thiel, R (1996) The impact of fish predation on the zooplankton community in a southern Baltic bay. Limnologica 26: pp. 123-137
  114. Thomsen, MS, Byers, JE, Schiel, DR, Bruno, JF, Olden, JD, Wernberg, T, Silliman, BR (2014) Impacts of marine invaders on biodiversity depend on trophic position and functional similarity. Marine Ecology Progress Series 495: pp. 39-47
  115. Tiselius, P, Borg, CMA, Hansen, BW, Hansen, PJ, Nielsen, TG, Vismann, B (2008) High reproduction, but low biomass: mortality estimates of the copepod Acartia tonsa in a hyper-eutrophic estuary. Aquatic Biology 2: pp. 93-103
  116. Torn, K., A. Kovtun-Kante, K. Herk眉l, G. Martin & H. M盲emets, 2014. Distribution and predictive occurrence model of charophytes in Estonian waters. Aquatic Botany. doi:10.1016/j.aquabot.2014.05.005 .
  117. Urban-Malinga, B, Warzocha, J, Zalewski, M (2013) Effects of the invasive polychaete Marenzelleria spp. on benthic processes and meiobenthos of a species-poor brackish system. Journal of Sea Research 80: pp. 25-34
  118. Viitasalo, S (2007) Effects of bioturbation by three macrozoobenthic species and predation by necto-benthic mysids on cladoceran benthic eggs. Marine Ecology Progress Series 336: pp. 131-140
  119. Viitasalo-Fr枚s茅n, S, Laine, AO, Lehtiniemi, M (2009) Habitat modification mediated by motile surface stirrers versus semi-motile burrowers: potential for a positive feedback mechanism in a eutrophied ecosystem. Marine Ecology Progress Series 376: pp. 21-32
  120. Wandzel, T (2003) The food and feeding of the round goby (Neogobius melanostomus Pallas, 1811) from the Puck Bay and the Gulf of Gda帽sk. Bulletin of the Sea Fisheries Institute 1: pp. 23-40
  121. Winkler, HM, Debus, L Is the polychaete Marenzelleria viridis an important food item for fish?. In: Andrushaitis, A eds. (1996) Proceedings of the 13th Symposium of the Baltic Marine Biologists. Institute of Aquatic Ecology, University of Latvia, Riga, pp. 147-151
  122. Wolnomiejski, N, Wo藕niczka, A (2008) A drastic reduction in abundance of Dreissena polymorpha Pall. in the Skoszewska Cove (Szczecin Lagoon, River Odra estuary): effects in the population and habitat. Ecological Questions 9: pp. 103-111
  123. Zaiko, A, Daunys, D (2012) Density effects on the clearance rate of the zebra mussel Dreissena polymorpha: flume study results. Hydrobiologia 680: pp. 79-89
  124. Zaiko, A, Daunys, D, Olenin, S (2009) Habitat engineering by the invasive zebra mussel Dreissena polymorpha (Pallas) in a boreal coastal lagoon: impact on biodiversity. Helgoland Marine Research 63: pp. 85-94
  125. Zaiko, A, Paskauskas, R, Krevs, A (2010) Biogeochemical alteration of the benthic environment by the zebra mussel Dreissena polymorpha (Pallas). Oceanologia 52: pp. 649-667
  126. Zaiko, A, Lehtiniemi, M, Nar拧膷ius, A, Olenin, S (2011) Assessment of bioinvasion impacts on a regional scale: a comparative approach. Biological Invasions 3: pp. 1739-1765
  127. Zettler, ML (1996) Successful establishment of the spionid polychaete, Marenzelleria viridis (Verrill, 1873), in the Darss-Zingst estuary (southern Baltic) and its influence on the indigenous macrozoobenthos. Archive of Fishery and Marine Research 43: pp. 273-284
  
• 刊物类别：Biomedical and Life Sciences
• 刊物主题：Life Sciences
  Hydrobiology
  Ecology
  
• 出版者：Springer Netherlands
• ISSN：1573-5117

文摘

Invasion of non-indigenous species (NIS) is acknowledged as one of the most important external drivers affecting structure and functions of marine ecosystems globally. This paper offers literature-based analysis on the effects of the widespread (occurring in at least 50% of countries) and currently established NIS on ecosystem features in the Baltic Sea. It appears that out of the 18 NIS taxa studied, there are no published records on 28% of NIS for any of the seven impact categories investigated. When ecological impacts are known, laboratory experimental evidence dominates over field studies. Combined observations on impact strength, information type and confidence level suggest that the two benthic invertebrates, the polychaete Marenzelleria spp. and the zebra mussel Dreissena polymorpha (Pallas 1771) exert the highest ecosystem impact. Despite continuously accumulating information on the NIS effects, however, the confidence of findings is still low. Thus, we still understand very little on both the direction and magnitude of the effects of even the most widespread NIS on the structure and dynamics of the Baltic Sea ecosystems. In order to increase reliability of such assessments, future research should be targeted towards spatially-explicit field surveys and experimenting of multitrophic systems, together with modelling of ecosystem impact.