WRiMS taxon details
original description
Lamarck [J.-B. M.] de. (1819). <i>Histoire naturelle des animaux sans vertèbres</i>. Tome 6(1): vi + 343 pp. Paris: published by the author. , available online at http://www.biodiversitylibrary.org/item/47441 page(s): 126 [details]
context source (Introduced species)
Molnar, J.L., R.L. Gamboa, C. Revenga & M.D. Spalding. (2008). Assessing the global threat of invasive species to marine biodiversity. <em>Frontiers in Ecology and the Environment.</em> 6(9): 485-492., available online at https://www.conservationgateway.org/ConservationPractices/Marine/Pages/marineinvasives.aspx [details] Available for editors
context source (HKRMS)
Britton, J. C. (1990). The intertidal crevice fauna of Tolo Channel and Harbour, New Territories, Hong Kong. <em>In: Morton B, editor. Proceedings of the Second International Marine Biological Workshop: The Marine Flora and Fauna of Hong Kong and Southern China . The Marine flora and fauna of Hong Kong and southern china II, Hong Kong University Press, Hong Kong.</em> 2: 803-835. [details]
additional source
Gosling E. (editor) (1992). The mussel <i>Mytilus</i>: ecology, physiology, genetics and culture. <i>* Developments in Aquaculture and Fisheries Science, 25. Elsevier, Amsterdam. xiii + 589 pp.</i>: [details]
additional source
Huber, M. (2010). <i>Compendium of bivalves. A full-color guide to 3,300 of the world's marine bivalves. A status on Bivalvia after 250 years of research</i>. Hackenheim: ConchBooks. 901 pp., 1 CD-ROM. (look up in IMIS) [details]
additional source
Rawson, P. D.; Joyner, K. L.; Meetze, K.; Hilbish, T. J. (1996). Evidence for intragenic recombination within a novel genetic marker that distinguishes mussels in the <i>Mytilus edulis</i> species complex. <em>Heredity.</em> 77(6): 599-607., available online at https://doi.org/10.1038/hdy.1996.187 [details] Available for editors
additional source
Lubet P. (1959). Recherches sur le cycle sexuel et l'émission des gamètes chez les Mytilidés et les Pectinidés. <em>Revue des Travaux de l'Institut des Pêches Maritimes.</em> 23(3): 384-548., available online at http://archimer.ifremer.fr/doc/1959/publication-4507.pdf [details]
additional source
Zbawicka, M., Gardner, J.P.A. & Wenne, R. (2019). Cryptic diversity in smooth-shelled mussels on Southern Ocean islands: connectivity, hybridisation and a marine invasion. <em>Frontiers in Zoology.</em> 16 (32). 12 pp. [details]
additional source
Valentich-Scott P., Coan E.V. & Zelaya D. (2020). <i>Bivalve seashells of western South America. Marine bivalve mollusks from Punta Aguja, Peru to Isla Chiloé, Chile</i>. vii + 593 pp. Santa Barbara: Santa Barbara Museum of Natural History. page(s): 99, pl. 33 [details] Available for editors
additional source
Ishida, S.; Iwasaki, K.; Kuwahara, Y. (2005). Initial Invasion History and Process of Range Extension of Mytilus galloprovincialis – Inferred from the Specimens Collected by T. Furukawa. <em>Venus (Journal of the Malacological Society of Japan).</em> 64 (3-4): 151-159. [details] Available for editors
additional source
Ubukata, T. (2000). Theoretical Morphology of Composite Prismatic, Fibrous Prismatic and Foliated Shell Microstructures in Bivalves. <em>Venus (Journal of the Malacological Society of Japan).</em> 59 (4): 297-305. [details] Available for editors
additional source
Hayazake, E.; Tanabe, K. (1999). Early Larval Shell Development in Mytilid Bivalve Mytilus galloprovincialis. <em>Venus (Journal of the Malacological Society of Japan).</em> 58 (3): 119-127. [details] Available for editors
additional source
Ieyama, H. ; Kameoka, O. ; Tan, T. ; Yamasaki, J. (1994). Chromosomes and Nuclear DNA Contents of Some Species in Mytilidae. <em>VENUS (The Japanese Journals of Malacology).</em> 53(4):327-331. [details] Available for editors
additional source
Hosomi, A. (1987). On the Density Effeetin Populations of the Mussel,Mytilus galloprovincialis. <em>VENUS (The Japanese Journals of Malacology).</em> 46(2):116-126. [details] Available for editors
additional source
Hosomi, A. (1985). The Production, Daily Production, Biomass and Turn-over Rate of the Mussel Mytilus galloprovincialis. <em>VENUS (The Japanese Journals of Malacology).</em> 44(4):270--277. [details] Available for editors
additional source
Hosomi, A. (1985). On Several Fundamental Allometries of the Mussels, Mytilus galloprovincialis. <em>VENUS (The Japanese Journals of Malacology).</em> 44(3.) : 172-182. [details] Available for editors
additional source
Hosomi, A. (1985). On the Persistent Trend of Constant Biomass and the Constant Total Occupation Area of the Mussel Mytilus galloprovincialis (Lamarck). <em>VENUS (The Japanese Journals of Malacology).</em> 44(1): 33-48. [details] Available for editors
additional source
Hosomi, A. (1984). Ecological Studies on the Mussel Mytilus galloprovincialis (Lamarck)- III. Rise and Fall of Recruited Cohorts in Adult Mussel Bed. <em>VENUS (The Japanese Journals of Malacology).</em> 43(2):157-171. [details] Available for editors
identification resource
Cosel, R. von; Gofas, S. (2019). <i>Marine bivalves of tropical West Africa: from Rio de Oro to southern Angola</i>. Publications Scientifiques du Muséum, Paris, IRD Éditions, Marseille (Faune et Flore tropicales, volume 48): 1-1104. page(s): 176-177 [details]
From regional or thematic species database
Introduced species impact South African part of the South Atlantic Ocean (Marine Region) Adverse habitat modification [details]
Introduced species impact South African part of the South Atlantic Ocean (Marine Region) Outcompetes native species for resources and/or space [details]
Introduced species impact Irish part of the North Atlantic Ocean (Marine Region) Outcompetes native species for resources and/or space [details]
Introduced species impact Irish part of the Celtic Sea (Marine Region) Outcompetes native species for resources and/or space [details]
Introduced species impact Irish part of the North Atlantic Ocean (Marine Region) Genetic impacts: hybridisation and introgression [details]
Introduced species impact Canadian part of the The Coastal Waters of Southeast Alaska and British Columbia (Marine Region) Genetic impacts: hybridisation and introgression [details]
Introduced species impact Irish part of the Celtic Sea (Marine Region) Genetic impacts: hybridisation and introgression [details]
Introduced species remark South African part of the South Atlantic Ocean (Marine Region) We compared overall reproductive potential of populations of the two species using a 1-year data set for three sites, accounting for within-shore distribution and abundances. Despite the restriction of Mytilus to the more stressful upper-shore, its aggregate reproductive potential was comparable to that of Perna. [details]
Introduced species vector dispersal Canadian part of the The Coastal Waters of Southeast Alaska and British Columbia (Marine Region) Aquaculture: accidental [details]
Introduced species vector dispersal United States part of the North Pacific Ocean (Marine Region) Aquaculture: deliberate [details]
Introduced species vector dispersal United States part of the North Pacific Ocean (Marine Region) Debris: transport of species on human generated debris (vessel) [details]
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