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Type: Article
Published: 2024-07-25
Page range: 213-240
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Cryptic invasions of Pseudopolydora (Annelida: Spionidae), with description of a new species from Queensland, Australia

A.V. Zhirmunsky National Scientific Center of Marine Biology; Far Eastern Branch of the Russian Academy of Sciences; 17 Palchevsky Street; Vladivostok 690041; Russia
A.V. Zhirmunsky National Scientific Center of Marine Biology; Far Eastern Branch of the Russian Academy of Sciences; 17 Palchevsky Street; Vladivostok 690041; Russia
A.V. Zhirmunsky National Scientific Center of Marine Biology; Far Eastern Branch of the Russian Academy of Sciences; 17 Palchevsky Street; Vladivostok 690041; Russia
Annelida Systematics morphology larval development molecular analysis biological invasion

Abstract

During surveys worldwide, we collected adult and larval specimens of Pseudopolydora Czerniavsky, 1881 similar to P. achaeta Radashevsky & Hsieh, 2000 and P. rosebelae Radashevsky & Migotto, 2009 far from their type localities in Taiwan and Brazil, respectively. Analysis of sequence data of five gene fragments: mitochondrial COI and 16S rDNA, nuclear 18S rDNA and 28S rDNA, and Histone 3 (3114 bp in total) of individuals from Nha Trang Bay (Vietnam), São Paulo (Brazil), Florida (USA), and the Caribbean Sea (Martinique) confirmed their conspecificity with P. achaeta from Taiwan. Based on the morphology, we also report this species for the first time for the East Sea (South Korea) and provide new records for the north-western part of the Sea of Japan (Russia). The analysis also showed the conspecificity of worms from Vietnam with P. rosebelae from Brazil. Based on the morphology, we also report P. rosebelae for the first time for the Caribbean Sea (Belize), South China Sea (Thailand), and Hawaii. Developed pelagic larvae of P. achaeta and P. rosebelae from Nha Trang Bay are described and illustrated. A worm from the Great Barrier Reef (Queensland, Australia) earlier identified as P. cf. rosebelae, is referred to the new species Pseudopolydora nivea sp. nov. Following our earlier hypothesis about the origin of Pseudopolydora in the Indo-West Pacific Ocean, we explain the occurrence of these worms, including Pseudopolydora floridensis Delgado-Blas, 2008, on the Atlantic coasts of North and South America by unintentional transportation in ballast water, followed by successful invasions. We assume that the penetration of warm waters of the East China Sea through the Korea Strait and the warming of the waters of the Sea of Japan have led to the extension of the range of tropical-subtropical P. achaeta to the north-western part of the Sea of Japan.

 

References

  1. Abe, H., Kondoh, T. & Sato-Okoshi, W. (2016) First report of the morphology and rDNA sequences of two Pseudopolydora species (Annelida: Spionidae) from Japan. Zoological Science, Tokyo, 33 (6), 650–658. https://doi.org/10.2108/zs160082
  2. Abe, H. & Sato-Okoshi, W. (2021) Molecular identification and larval morphology of spionid polychaetes (Annelida: Spionidae) from northeastern Japan. Zookeys, 1015, 1–86. https://doi.org/10.3897/zookeys.1015.54387
  3. Abe, H., Sato-Okoshi, W., Nishitani, G. & Endo, Y. (2014) Vertical distribution and migration of planktonic polychaete larvae in Onagawa Bay, north-eastern Japan. Memoirs of Museum Victoria, 71, 1–9. https://doi.org/10.24199/j.mmv.2014.71.01
  4. Abe, H., Takeuchi, T., Taru, M., Sato-Okoshi, W. & Okoshi, K. (2019) Habitat availability determines distribution patterns of spionid polychaetes (Annelida: Spionidae) around Tokyo Bay. Marine Biodiversity Records, 12 (1), 1–12. https://doi.org/10.1186/s41200-019-0167-4
  5. Alvarez-Aguilar, A., Van Rensburg, H. & Simon, C.A. (2022) Impacts of alien polychaete species in marine ecosystems: a systematic review. Journal of the Marine Biological Association of the United Kingdom, 102 (1–2), 3–26. https://doi.org/10.1017/S0025315422000315
  6. Andreev, A.G. (2014) Iinterannual changes in sea water parameters and chlorophyll—a concentration in the Sea of Japan in autumn. Meteorology and Hydrology, 8, 55–65. https://doi.org/10.3103/S1068373914080068
  7. Andreev, A.G. (2017) Mesoscale water circulation in the Northwest Japan Sea. Vestnik Dal’nevostochnogo Otdeleniya Rossiiskoi Akademii Nauk, 4, 61−69.
  8. Andreev, A.G. (2018) Interannual changes of the seawater parameters in the surface and intermediate water-layer of the Japan Sea. Vestnik Dal’nevostochnogo Otdeleniya Rossiiskoi Akademii Nauk, 6, 5−12. https://doi.org/10.25808/08697698.2018.202.6.001
  9. Annenkova, N.P. (1937) The Polychaeta fauna of the northern part of the Japan Sea. Explorations de Mers d’U.S.S.R., 23, 139–216. [in Russian with English Summary]
  10. Annenkova, N.P. (1938) Polychaeta of the North Japan Sea and their horizontal and vertical distribution. Reports of the hydrobiological expedition of the Zoological Institute of the Academy of Sciences of the U.S.S.R. in 1934 to the Sea of Japan, 1, 81–230. [in Russian with English Summary]
  11. Balanov, A.A., Epur, I.V., Zemnuhov, V.V. & Markevich, A.I. (2010) Species composition and seasonal dynamics of species richness of fish community in the Srednaya Bight (Peter the Great Bay, Japan Sea). Izvestia (Bulletin of) TINRO, 163, 158–171.
  12. Blake, J.A. (1983) Polychaetes of the family Spionidae from South America, Antarctica, and adjacent seas and islands. Biology of the Antarctic Seas XIV, Antarctic Research Series, 39 (3), 205–288. https://doi.org/10.1029/AR039p0205
  13. Blake, J.A. & Kudenov, J.D. (1978) The Spionidae (Polychaeta) from southeastern Australia and adjacent areas with a revision of the genera. Memoirs of the National Museum of Victoria, 39, 171–280. https://doi.org/10.24199/j.mmv.1978.39.11
  14. Bogantes, V.E., Boyle, M.J. & Halanych, K.M. (2021) New reports on Pseudopolydora (Annelida: Spionidae) from the East Coast of Florida, including the non-native species P. paucibranchiata. BioInvasions Records, 10 (3), 577–588. https://doi.org/10.3391/bir.2021.10.3.07
  15. Britayev, T.A. & Pavlov, D.S. (2007) Benthic fauna of the Bay of Nhatrang, Southern Vietnam. Vol. 1. KMK Scientific Press, Moscow, 249 pp.
  16. Britayev, T.A. & Pavlov, D.S. (2012) Benthic fauna of the Bay of Nhatrang, Southern Vietnam. Vol. 2. KMK Scientific Press, Moscow, 491 pp.
  17. Britayev, T.A. & Pavlov, D.S. (2013) Benthic fauna of the Bay of Nhatrang, Southern Vietnam. Vol. 3. KMK Scientific Press, Moscow, 272 pp.
  18. Buzhinskaja, G.N. (1967) On the ecology of the Polychaetous Annelids of the Possjet Bay (the Sea of Japan). Explorations of the Fauna of Seas, 5 (13), 78–124. [in Russian]
  19. Buzhinskaja, G.N. (1971) New and interesting species of Polychaeta worms of the Possjet Bay of the Sea of Japan. Explorations of the Fauna of Seas, 8 (16), 123–136. [in Russian]
  20. Buzhinskaja, G.N. (2013) Polychaetes of the Far East Seas of Russia and adjacent waters of the Pacific Ocean: annotated checklist and bibliography. KMK Scientific Press, Moscow, 131 pp
  21. Buzhinskaja, G.N. & Britayev, T.A. (1992) The polychaete fauna of Vostok Bay (the Bay of Peter the Great, the Sea of Japan). In: Buzhinskaja, G.N. (Ed.), Polychaeta and their ecological significance. Explorations of the Fauna of the Seas. 43 (51). Zoological Institute, Russian Academy of Sciences, St. Petersburg, pp. 82–98. [in Russian with English Summary]
  22. Capella-Gutiérrez, S., Silla-Martínez, J.M. & Gabaldón, T. (2009) trimAl: a tool for automated alignment trimming in large-scale phylogenetic analyses. Bioinformatics, 25 (15), 1972–1973. https://doi.org/10.1093/bioinformatics/btp348
  23. Carazzi, D. (1893) Revisione del genere Polydora Bosc e cenni su due specie che vivono sulle ostriche. Mittheilungen aus der zoologischen Station zu Neapel, 11 (1–2), 4–45.
  24. Carlton, J.T. (2009) Deep invasion ecology and the assembly of communities in historical time. In: Rilov, G. & Crooks, J.A. (Eds.), Biological Invasions in Marine Ecosystems. Ecological Studies, 204. Springer Verlag, Berlin, pp. 13–56. https://doi.org/10.1007/978-3-540-79236-9_2
  25. Carlton, J.T. & Geller, J.B. (1993) Ecological roulette: the global transport and invasion of nonindigenous marine organisms. Science, 261, 78–82. https://doi.org/10.1126/science.261.5117.78
  26. Carlton, J.T. & Ruckelshaus, M.H. (1997) Nonindigenous marine invertebrates and algae. In: Simberloff, D., Schmitz, D.C. & Brown, T.C. (Eds.), Strangers in Paradise. Impact and Management of Non-Indigenous Species in Florida. Island Press, Washington, D.C., pp. 187–201.
  27. Çinar, M.E. (2013) Alien polychaete species worldwide: current status and their impacts. Journal of the Marine Biological Association of the United Kingdom, 93 (5), 1257–1278. https://doi.org/10.1017/s0025315412001646
  28. Claparède, E. (1868) Les Annélides Chétopodes du Golfe de Naples. Genève, Switzerland, Ramboz et Schuchardt, 500 pp https://doi.org/10.5962/bhl.title.105355
  29. Czerniavsky, V. (1881) Materialia ad zoographiam Ponticam comparatam. Fasc. III. Vermes. Bulletin de la Société Impériale des Naturalistes de Moscou, 56 (1), 338–420. [in Russian & Latin]
  30. Darling, J.A. & Carlton, J.T. (2018) A framework for understanding marine cosmopolitanism in the Anthropocene. Frontiers in Marine Science, 5 (293), 1−25. https://doi.org/10.3389/fmars.2018.00293
  31. Delgado-Blas, V.H. (2008) Polydora and related genera (Polychaeta: Spionidae) from the Grand Caribbean region. Journal of Natural History, London, 42 (1–2), 1–19. https://doi.org/10.1080/00222930701831240
  32. Delgado-Blas, V.H. (2009) Spionidae Grube, 1850. In: de León-González, J.A., Bastida-Zavala, J.R., Carrera-Parra, L.F., García-Garza, M.E., Peña-Rivera, A., Salazar-Vallejo, S.I. & Solís-Weiss, V. (Eds.), Poliquetos (Annelida: Polychaeta) de México y América Tropical. Parte 3. Universidad Autónoma de Nuevo León, Monterrey, pp. 589–613.
  33. Díaz-Díaz, O., Bone, D. & López-Ordaz, A. (2016) Polychaetes associated to calcareous sediments, Venezuela: Canalipalpata. Pan-American Journal of Aquatic Sciences, 11 (1), 26–38.
  34. Gaiko, L.A. (2016) Climate change in the coastal zone of Primorsky Krai in the modern period (the north-western part of the Sea of Japan). East European Scientific Journal, 10, 35−42.
  35. Glebova, S.Y. (2018) Cyclones over the Pacific Ocean and Far-Eastern Seas in cold and warm seasons and their influence on wind and thermal regime in the last two decade period. Izvestia (Bulletin of) TINRO, 193, 153−166. https://doi.org/10.26428/1606-9919-2018-193-153-166
  36. Grube, A.E. (1850) Die Familien der Anneliden. Archiv für Naturgeschichte, Berlin, 16 (1), 249–364.
  37. Gulbin, V.V. & Ozolinsh, A.V. (1990) Hydrobiological investigations of the subtidal zone of the Far East Marine Reserve. In: Gulbin, V.V. (Ed.), Systematics and ecology of organisms from the Far East Marine Reserve. FEB AS USSR, Vladivostok, p. 3−8. [in Russian]
  38. Hsieh, H.L. (1992) Pseudopolydora diopatra, a new species (Polychaeta: Spionidae) from Taiwan. Proceedings of the Biological Society of Washington, 105 (3), 630–635.
  39. Huelsenbeck, J.P. & Ronquist, F. (2001) MRBAYES: Bayesian inference of phylogenetic trees. Bioinformatics, 17 (8), 754–755. https://doi.org/10.1093/bioinformatics/17.8.754
  40. Hutchings, P. & Kupriyanova, E. (2018) Cosmopolitan polychaetes—fact or fiction? Personal and historical perspectives. Invertebrate Systematics, 32 (1), 1–9. https://doi.org/10.1071/IS17035
  41. Imajima, M. & Hartman, O. (1964) The polychaetous annelids of Japan. Part II. Allan Hancock Foundation Publications, Occasional Papers, 26, 236–452.
  42. Junqueira, A.O.R., Tavares, M.D.S., Schaeffer-Novelli, Y., Radashevsky, V.I., Cirelli, J.O., Julio, L.M., Romagnoli, F.C., dos Santos, K.C. & Ferreira-Silva, M.A.G. (2009) Capítulo 6—Zoobentos. In: Lopes, R.M. (Ed.), Informe sobre as espécies exóticas invasoras marinhas no Brasil. MMA/SBF, Brasília, pp. 145–371.
  43. Kapli, T., Lutteropp, S., Zhang, J., Kobert, K., Pavlidis, P., Stamatakis, A. & Flouri, T. (2017) Multi-rate Poisson tree processes for single-locus species delimitation under maximum likelihood and Markov chain Monte Carlo. Bioinformatics, 33 (11), 1630–1638. https://doi.org/10.1093/bioinformatics/btx025
  44. Katoh, K., Misawa, K., Kuma, K.I. & Miyata, T. (2002) MAFFT: a novel method for rapid multiple sequence alignment based on fast Fourier transform. Nucleic Acids Research, 30 (14), 3059–3066. https://doi.org/10.1093/nar/gkf436
  45. Katoh, K. & Standley, D.M. (2013) MAFFT Multiple Sequence Alignment Software Version 7: Improvements in Performance and Usability. Molecular Biology and Evolution, 30 (4), 772–780. https://doi.org/10.1093/molbev/mst010
  46. Koblikov, V.N. (1977) Polychaete distribution in Peter the Great Bay (Sea of Japan). Izvestia (Bulletin of) TINRO, 101, 31–41. [in Russian]
  47. Kupriyanova, E., Hutchings, P. & Wong, E. (2016) A fully illustrated web-based guide to distinguish native and introduced polychaetes of Australia. Management of Biological Invasions, 7 (3), 305–312. https://doi.org/10.3391/mbi.2016.7.3.10
  48. Lana, P.C., Santos, C.S.G., Garraffoni, A.R.S., Oliveira, V.M. & Radashevsky, V.I. (2006) Checklist of polychaete species from Paraná State (Southern Brazil). Check List, 2 (3), 30–63. https://doi.org/10.15560/2.3.30
  49. Miller, M.A., Pfeiffer, W. & Schwartz, T. (2010) Creating the CIPRES Science Gateway for inference of large phylogenetic trees. In: Proceedings of the Gateway Computing Environments Workshop (GCE). 14 November 2010. IEEE, New Orleans, Louisiana, pp. 1–8. https://doi.org/10.1109/GCE.2010.5676129
  50. Miranda-Salinas, A.V., García-Garza, M.E. & de León-González, J.A. (2016) Registros nuevos de poliquetos (Annelida) de la zona costera de isla del Carmen, Campeche, México. Revista Mexicana de Biodiversidad, 87 (4), 1212–1224. https://doi.org/10.1016/j.rmb.2016.10.016
  51. Moshchenko, A.V. & Belan, T.A. (2010) Polychaete in the northern Amur Bay (Peter the Great Bay, Japan Sea): taxocenes composition, structure and distribution. Izvestia (Bulletin of) TINRO, 163, 264–285. [in Russian with English Summary].
  52. Nei, M. & Kumar, S. (2000) Molecular evolution and phylogenetics. Oxford University Press, Oxford, 333 pp. https://doi.org/10.1093/oso/9780195135848.001.0001
  53. Nikitin, A.A. (2002) Possible ways of transferring warm subtropical waters to the area of the Far Eastern Marine Reserve. Izvestia (Bulletin of) TINRO, 131, 41−53. [in Russian]
  54. Nygren, A., Parapar, J., Pons, J., Meißner, K., Bakken, T., Kongsrud, J.A., Oug, E., Gaeva, D., Sikorski, A., Johansen, R.A., Hutchings, P.A., Lavesque, N. & Capa, M. (2018) A mega-cryptic species complex hidden among one of the most common annelids in the North East Atlantic. PLoS One, 13 (6), 1–37. https://doi.org/10.1371/journal.pone.0198356
  55. Nylander, J.A.A. (2004) MrModeltest. Version 2. Program distributed by the author. Evolutionary Biology Centre, Uppsala University, Uppsala. [program]
  56. Okuda, S. (1937) Spioniform polychaetes from Japan. Journal of the Faculty of Science, Hokkaido Imperial University, Series VI, Zoology, 5 (3), 217–254.
  57. Omena, E. & Creed, J.C. (2004) Polychaete fauna of seagrass beds (Halodule wrightii Ascherson) along the coast of Rio de Janeiro (southeast Brazil). Marine Ecology, 25 (4), 273–288. https://doi.org/10.1111/j.1439-0485.2004.00031.x
  58. Ozolinsh, A.V. (1990) Polychaetous worms (Sedentaria) from soft sediments of the subtidal zone of the Far East Marine Reserve. In: Gulbin, V.V. (Ed.), Systematics and ecology of organisms from the Far East Marine Reserve. FEB AS USSR, Vladivostok, pp. 81–104. [in Russian]
  59. Ozolinsh, A.V. & Bagaveeva, E.V. (2004) Annelida. In: Tyurin, A.N. & Drozdov, A.L. (Eds.), Far-Eastern Marine Biosphere Reserve. Biota. Vol. 2. Dalnauka, Vladivostok, pp. 135–146. [in Russian]
  60. Prants, S.V., Budyansky, M.V. & Uleysky, M.Y. (2017) Statistical analysis of Lagrangian transport of subtropical waters in the Japan Sea based on AVISO altimetry data. Nonlinear Processes in Geophysics, 24, 89−99. https://doi.org/10.5194/npg-24-89-2017
  61. Radashevsky, V.I. (1993) Revision of the genus Polydora and related genera from the North West Pacific (Polychaeta: Spionidae). Publications of the Seto Marine Biological Laboratory, 36 (1/2), 1–60. https://doi.org/10.5134/176224
  62. Radashevsky, V.I. (2004) Polychaetes—Distribution through man’s activities. In: Anais do II Simpósio Brasileiro de Oceanografia, Instituto Oceanografico da Universidade de São Paulo. Universidade de São Paulo, São Paulo, p. 1/1.
  63. Radashevsky, V.I. (2015) Spionidae (Annelida) from Lizard Island, Great Barrier Reef, Australia: the genera Aonides, Dipolydora, Polydorella, Prionospio, Pseudopolydora, Rhynchospio, and Tripolydora. Zootaxa, 4019 (1), 635–694. https://doi.org/10.11646/zootaxa.4019.1.22
  64. Radashevsky, V.I. (2021) Pseudopolydora (Annelida: Spionidae) from European and adjacent waters with a key to identification and description of a new species. Marine Biodiversity, 51 (2), 1–23. https://doi.org/10.1007/s12526-020-01156-7
  65. Radashevsky, V.I., Al-Kandari, M., Malyar, V.V. & Pankova, V.V. (2021a) Pseudopolydora (Annelida: Spionidae) from the Arabian Gulf, Kuwait. European Journal of Taxonomy, 773 (1), 120–168. https://doi.org/10.5852/ejt.2021.773.1519
  66. Radashevsky, V.I. & Hsieh, H.L. (2000a) Polydora (Polychaeta: Spionidae) species from Taiwan. Zoological Studies, 39 (3), 203–217.
  67. Radashevsky, V.I. & Hsieh, H.L. (2000b) Pseudopolydora (Polychaeta: Spionidae) species from Taiwan. Zoological Studies, 39 (3), 218–235.
  68. Radashevsky, V.I., Malyar, V.V., Pankova, V.V., Choi, J.-W., Yum, S. & Carlton, J.T. (2023a) Searching for a home port in a polyvectic world: molecular analysis of the marine worm Polydora hoplura (Annelida: Spionidae). Biology, 12, 1–22. https://doi.org/10.3390/biology12060780
  69. Radashevsky, V.I., Malyar, V.V., Pankova, V.V., Gambi, M.C., Giangrande, A., Keppel, E., Nygren, A., Al-Kandari, M. & Carlton, J.T. (2020a) Disentangling invasions in the sea: molecular analysis of a global polychaete species complex (Annelida: Spionidae: Pseudopolydora paucibranchiata). Biological Invasions, 22 (12), 3621–3644. https://doi.org/10.1007/s10530-020-02346-x
  70. Radashevsky, V.I. & Migotto, A.E. (2006) Photoreceptive organs in larvae of Spionidae (Annelida) and Sipuncula. Journal of Zoology, London, 268 (4), 335–340. https://doi.org/10.1111/j.1469-7998.2006.00092.x
  71. Radashevsky, V.I. & Migotto, A.E. (2009) Morphology and biology of a new Pseudopolydora (Annelida: Spionidae) species from Brazil. Journal of the Marine Biological Association of the United Kingdom, 89 (3), 461–468. https://doi.org/10.1017/S002531540800177X
  72. Radashevsky, V.I., Neretina, T.V., Pankova, V.V., Tzetlin, A.B. & Choi, J.-W. (2014) Molecular identity, morphology and taxonomy of the Rhynchospio glutaea complex with a key to Rhynchospio species (Annelida, Spionidae). Systematics and Biodiversity, 12 (4), 424–433. https://doi.org/10.1080/14772000.2014.941039
  73. Radashevsky, V.I., Pankova, V.V., Malyar, V.V. & Carlton, J.T. (2023b) Boring can get you far: Shell-boring Dipolydora from Temperate Northern Pacific, with emphasis on the global history of Dipolydora giardi (Mesnil, 1893) (Annelida: Spionidae). Biological Invasions, 25 (3), 741–772. https://doi.org/10.1007/s10530-022-02941-0
  74. Radashevsky, V.I., Pankova, V.V., Malyar, V.V., Cerca, J. & Struck, T.H. (2021b) A review of the worldwide distribution of Marenzelleria viridis, with new records for M. viridis, M. neglecta and Marenzelleria sp. (Annelida: Spionidae). Zootaxa, 5081 (3), 353–372. https://doi.org/10.11646/zootaxa.5081.3.3
  75. Radashevsky, V.I., Pankova, V.V., Malyar, V.V., Neretina, T.V., Choi, J.-W., Yum, S. & Houbin, C. (2020b) Molecular analysis of Spiophanes bombyx complex (Annelida: Spionidae) with description of a new species. PLoS One, 15 (7), 1–54. https://doi.org/10.1371/journal.pone.0234238
  76. Radashevsky, V.I., Pankova, V.V., Neretina, T.V., Stupnikova, A.N. & Tzetlin, A.B. (2016) Molecular analysis of the Pygospio elegans group of species (Annelida: Spionidae). Zootaxa, 4083 (2), 239–250. https://doi.org/10.11646/zootaxa.4083.2.4
  77. Radashevsky, V.I., Pankova, V.V., Neretina, T.V. & Tzetlin, A.B. (2022) Canals and invasions: A review of the distribution of Marenzelleria (Annelida: Spionidae) in Eurasia, with a key to Marenzelleria species and insights on their relationships. Aquatic Invasions, 17 (2), 186–206. https://doi.org/10.3391/ai.2022.17.2.04
  78. Ronquist, F. & Huelsenbeck, J.P. (2003) MRBAYES 3: Bayesian phylogenetic inference under mixed models. Bioinformatics, 19 (12), 1572–1574. https://doi.org/10.1093/bioinformatics/btg180
  79. Rostov, I.D., Rudykh, N.I., Rostov, V.I. & Vorontsov, A.A. (2016) Expressions of global climatic changes in coastal waters of the Northern part of the Sea of Japan. Vestnik Dal’nevostochnogo Otdeleniya Rossiiskoi Akademii Nauk, 5, 100−112.
  80. Rozbaczylo, N., Moreno, R. & Díaz-Díaz, O. (2017) Poliquetos bentónicos en Chile. In: Díaz-Díaz, O., Bone, D., Rodríguez, C.T. & Delgado-Blas, V.H. (Eds.), Poliquetos de Sudamérica. Volumen especial del Boletín del Instituto Oceanográfico de Venezuela. Instituto Oceanográfico de Venezuela, Cumaná, pp. 51–70.
  81. Rumyantsev, A.I. (1951) New cases of distribution of rare fish. Izvestia (Bulletin of) TINRO, 35, 185–186. https://doi.org/10.1136/bjo.35.3.185-a
  82. Scholin, C.A., Herzog, M., Sogin, M. & Anderson, D.M. (1994) Identification of group- and strain-specific genetic markers for globally distributed Alexandrium (Dinophyceae). II. Sequence analysis of a fragment of the LSU rRNA gene. Journal of Phycology, 30, 999–1011. https://doi.org/10.1111/j.0022-3646.1994.00999.x
  83. Simon, C.A. (2009) Pseudopolydora species associated with mollusc shells on the south coast of South Africa, with the description of Ps. dayii, sp nov. Journal of the Marine Biological Association of the United Kingdom, 89 (4), 681–687. https://doi.org/10.1017/S0025315409000034
  84. Simon, C.A., Sato-Okoshi, W. & Abe, H. (2019) Hidden diversity within the cosmopolitan species Pseudopolydora antennata (Claparède, 1869) (Spionidae: Annelida). Marine Biodiversity, 49 (1), 25–42. https://doi.org/10.1007/s12526-017-0751-y
  85. Sokolovsky, A.S., Sokolovskaya, T.G., Epur, I.V. & Azarova, I.A. (2004) Centennial changes in composition and abundance of ichthyofauna of the northwestern Japan Sea. Izvestia (Bulletin of) TINRO, 136, 41–57.
  86. Soto, I., Balzani, P., Carneiro, L., Cuthbert, R.N., Macêdo, R., Tarkan, A.S., Ahmed, D.A., Bang, A., Bacela-Spychalska, K., Bailey, S.A., Baudry, T., Ballesteros-Mejia, L., Bortolus, A., Briski, E., Britton, J.R., Buřič, M., Camacho-Cervantes, M., Cano-Barbacil, C., Copilaș-Ciocianu, D., Coughlan, N.E., Courtois, P., Csabai, Z., Dalu, T., De Santis, V., Dickey, J.W.E., Dimarco, R.D., Falk-Andersson, J., Fernandez, R.D., Florencio, M., Franco, A.C.S., García-Berthou, E., Giannetto, D., Glavendekic, M.M., Grabowski, M., Heringer, G., Herrera, I., Huang, W., Kamelamela, K.L., Kirichenko, N.I., Kouba, A., Kourantidou, M., Kurtul, I., Laufer, G., Lipták, B., Liu, C., López-López, E., Lozano, V., Mammola, S., Marchini, A., Meshkova, V., Milardi, M., Musolin, D.L., Martin A.Nuñez, M.A., Oficialdegui, F.J., Patoka, J., Pattison, Z., Pincheira-Donoso, D., Piria, M., Probert, A.F., Rasmussen, J.J., Renault, D., Ribeiro, F., Rilov, G., Robinson, T.B., Sanchez, A.E., Schwindt, E., South, J., Stoett, P., Verreycken, H., Vilizzi, L., Wang, Y.-J., Watari, Y., Wehi, P.M., Weiperth, A., Wiberg-Larsen, P., Yapıcı, S., Yoğurtçuoğlu, B., Zenni, R.D., Galil, B.S., Dick, J.T.A., Russell, J.C., Ricciardi, A., Simberloff,, D., Bradshaw, C.J.A. & Haubrock, P.J. (2024) Taming the terminological tempest in invasion science. Biological Reviews. [early view] https://doi.org/10.1111/brv.13071
  87. Spalding, M.D., Fox, H.E., Allen, G.R., Davidson, N., Ferdaña, Z.A., Finlayson, M., Halpern, B.S., Jorge, M.A., Lombana, A., Lourie, S.A., Martin, K.D., McManus, E., Molnar, J., Recchia, C.A. & Robertson, A. (2007) Marine Ecoregions of the World: A Bioregionalization of Coastal and Shelf Areas. BioScience, 57 (7), 573–583. https://doi.org/10.1641/B570707
  88. Tamura, K., Peterson, D., Peterson, N., Stecher, G., Nei, M. & Kumar, S. (2011) MEGA5: Molecular evolutionary genetics analysis using maximum likelihood, evolutionary distance, and maximum parsimony methods. Molecular Biology and Evolution, 28 (10), 2731–2739. https://doi.org/10.1093/molbev/msr121
  89. Uschakov, P.V. (1955) Polychaeta of the Far Eastern Seas of the USSR. Keys to the fauna of the USSR, 56, 1–445. [in Russian]
  90. Vaidya, G., Lohman, D.J. & Meier, R. (2011) SequenceMatrix: concatenation software for the fast assembly of multi‐gene datasets with character set and codon information. Cladistics, 27 (2), 171–180. https://doi.org/10.1111/j.1096-0031.2010.00329.x
  91. Williams, L.-G., Karl, S.A., Rice, S. & Simon, C. (2017) Molecular identification of polydorid polychaetes (Annelida: Spionidae): is there a quick way to identify pest and alien species? African Zoology, 52 (2), 105–117. https://doi.org/10.1080/15627020.2017.1313131
  92. Wong, E., Kupriyanova, E.K., Hutchings, P., Capa, M., Radashevsky, V.I. & Ten Hove, H.A. (2014) A graphically illustrated glossary of polychaete terminology: invasive species of Sabellidae, Serpulidae and Spionidae. Memoirs of Museum Victoria, 71, 327–342. https://doi.org/10.24199/j.mmv.2014.71.25
  93. Zachs, I.G. (1933) Polychaeta of the North Japan Sea. Explorations of the Seas of the USSR, 19, 125–137. [in Russian with German Summary]
  94. Zvyagintsev, A.Y., Radashevsky, V.I., Ivin, V.V., Kashin, I.A. & Gorodkov, A.N. (2011) Nonindigenous species in the Far-Eastern seas of Russia. Russian Journal of Biological Invasions, 2 (2–3), 164–182. [in Russian with English Summary] https://doi.org/10.1134/S2075111711030210