Arctica Islandica (Linnaeus, 1767)

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Arctica islandica (Linnaeus, 1767) AphiaID: 138802 . Animalia (Reino) > Mollusca (Filo) > Bivalvia (Classe) > Autobranchia (Subclasse) > Heteroconchia (Infraclasse) > Imparidentia (Superordem) > Venerida (Ordem) > Arcticoidea (Superfamilia) > Arcticidae (Familia) Cédric Gourjon, via beachexplorer.org Martina Wendler, via beachexplorer.org Hans Hillewaert Viktor V. Grøtan Distribuição geográfica Sem registos para Portugal. 1 Sinónimos Arctica vulgaris Schumacher, 1817 Cyprina islandica (Linnaeus, 1767) Cyprina islandica var. crassior Jeffreys, 1864 Cyprina islandica var. inflata Odhner, 1911 Pectunculus crassus da Costa, 1778 Venus buccardium Born, 1778 Venus ferröensis Röding, 1798 Venus islandica Linnaeus, 1767 Venus pitar Röding, 1798 Venus pitar Röding, 1798 Referências basis of record Gofas, S.; Le Renard, J.; Bouchet, P. (2001). Mollusca. in: Costello, M.J. et al. (eds), European Register of Marine Species: a check-list of the marine species in Europe and a bibliography of guides to their identification. Patrimoines Naturels. 50: 180-213. [details] additional source Abbott R. T. (1974). American seashells. The marine Mollusca of the Atlantic and Pacific coast of North America. ed. 2. Van Nostrand, New York. 663 pp., 24 pls. [October 1974]. [details] additional source Witbaard R., Duineveld G.C.A. & de Wilde P.A.W.J. (1997). A long-term growth record derived from Arctica islandica (Mollusca, Bivalvia) from the Fladen Ground (Northern North Sea). Journal of the Marine Biological Association of the UK 77: 801-816 [details] additional source Witbaard R., Duineveld G.C.A. & de Wilde P.A.W.J. (1999). Geographical differences in growth rates of Arctica islandica (Mollusca: Bivalvia) from the North Sea and adjacent waters. Journal of tha Marine Biological Association of the UK 79: 907-915 [details] additional source Huber, M. (2010). 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. Hackenheim: ConchBooks. 901 pp., 1 CD-ROM. [details] additional source Witbaard, R. & Klein, R. (1994). Long-term trends on the effects of the southern North Sea beamtrawl fishery on the bivalve mollusc Arctica islandica L. (Mollusca, Bivalvia). ICES Journal of Marine Science. 51(1): 99-105., available online athttps://doi.org/10.1006/jmsc.1994.1009 [details] Última atualização: 26 Jan. 2018 2.

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Growth O[ Juvenile Arctica Islandica Under Experimental Conditions
HELGOL*NI)ER MEERESUNTERSUCHUNGEN Helgol~inder Meeresunters. 51, 417-431 (1997) Growth o[ juvenile Arctica islandica under experimental conditions R. Witbaard*, R. Franken & B. Visser Netherlands Institute for Sea Research, PO Box 59 1790 AB Den Burg, The Netherlands ABSTRACT: In two laboratory experiments, the effects of temperature and food availability on the growth of 10- to 23-mm high specimens of the bivalve Arctica islrmdica were estimated. Each experimental set-up consisted of 5 treatments in which either the food supply or the temperature differed. It was demonslrated that Arctica is able to grow at temperatures as low as 1 ~ A tenfold incredse of shell growth was observed at temperatures between 1~ and 12 :C. The greatest change in growth rate took place between 1~ and 6 ~ Average instantaneous shell growth varies between 0.00t)3 at I ~ to 0.0032/day at 12 ~C'. The results suggest that temperature hardly alfects the time spent in filtration, whereas particle density strongly influences that response. Starved am- reals at 9 ~ have their siphons open durmg only 12% of the time, whereas the siphons ol opti- mally fed animals were open on average during 76% of the observations. Increased siphon activity corresponded to high shell and tissue growth. At 9 ~ average shell growth at the optimum cell density o[ 20xlO" cell/1 was 3 I mm corresponding to an instantaneous rate of 0.0026/day. An algal cell density (Lsochry.sis gulbanu, Dunuliella marina) ranging between 5 and 7x10" cell/l is just enough to keep shells alive at 9 ~ (.'arbon conversion efticiency at 9 ~ is estimated to vary between 11 and 14 %.
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The Effects of Environment on Arctica Islandica Shell Formation and Architecture
Biogeosciences, 14, 1577–1591, 2017 www.biogeosciences.net/14/1577/2017/ doi:10.5194/bg-14-1577-2017 © Author(s) 2017. CC Attribution 3.0 License. The effects of environment on Arctica islandica shell formation and architecture Stefania Milano1, Gernot Nehrke2, Alan D. Wanamaker Jr.3, Irene Ballesta-Artero4,5, Thomas Brey2, and Bernd R. Schöne1 1Institute of Geosciences, University of Mainz, Joh.-J.-Becherweg 21, 55128 Mainz, Germany 2Alfred Wegener Institute for Polar and Marine Research, Am Handelshafen 12, 27570 Bremerhaven, Germany 3Department of Geological and Atmospheric Sciences, Iowa State University, Ames, Iowa 50011-3212, USA 4Royal Netherlands Institute for Sea Research and Utrecht University, P.O. Box 59, 1790 AB Den Burg, Texel, the Netherlands 5Department of Animal Ecology, VU University Amsterdam, Amsterdam, the Netherlands Correspondence to: Stefania Milano ([email protected]) Received: 27 October 2016 – Discussion started: 7 December 2016 Revised: 1 March 2017 – Accepted: 4 March 2017 – Published: 27 March 2017 Abstract. Mollusks record valuable information in their hard tribution, and (2) scanning electron microscopy (SEM) was parts that reﬂect ambient environmental conditions. For this used to detect changes in microstructural organization. Our reason, shells can serve as excellent archives to reconstruct results indicate that A. islandica microstructure is not sen- past climate and environmental variability. However, animal sitive to changes in the food source and, likely, shell pig- physiology and biomineralization, which are often poorly un- ment are not altered by diet. However, seawater temperature derstood, can make the decoding of environmental signals had a statistically signiﬁcant effect on the orientation of the a challenging task.
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Growth Response of Arctica Islandica to North Atlantic Oceanographic Conditions Since 1850
fmars-06-00483 August 2, 2019 Time: 17:16 # 1 ORIGINAL RESEARCH published: 06 August 2019 doi: 10.3389/fmars.2019.00483 Growth Response of Arctica Islandica to North Atlantic Oceanographic Conditions Since 1850 Pierre Poitevin1*, Julien Thébault1, Valentin Siebert1, Sébastien Donnet2, Philippe Archambault3, Justine Doré1, Laurent Chauvaud1 and Pascal Lazure4 1 Laboratoire des Sciences de l’Environnement Marin, Institut Universitaire Européen de la Mer, Université de Bretagne Occidentale, Plouzané, France, 2 Fisheries and Oceans Canada, Northwest Atlantic Fisheries Centre, Newfoundland, NL, Canada, 3 Département de Biologie, Québec-Océan, Université Laval, Québec, QC, Canada, 4 Ifremer, Laboratoire d’Océanographie Physique et Spatiale, Institut Universitaire Européen de la Mer, Plouzané, France The Northwest Atlantic is a key region with an essential role in global climate regulation, redistributing heat and inﬂuencing the carbon cycle. However, little is known about its evolution before 1950, mainly because of the lack of long-term instrumental measurements. The hard parts of long-lived marine biota hold the potential to extend instrumentally derived observation by several decades or centuries and enhance our understanding of global climate processes. Here, we investigate the effects of local, regional, and large-scale climate variability on the marine bivalve, Arctica islandica Edited by: (Linnaeus, 1767) from Saint-Pierre and Miquelon (SPM). This archipelago lies at the Paul E. Renaud, boundary zone between the cold Labrador Current in the north and the warm Gulf Akvaplan-niva, Norway Stream waters to the south, an excellent site to capture changes in North Atlantic Reviewed by: Nina Whitney, climate and oceanography. This study presents the northernmost, statistically robust Iowa State University, United States A.
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A Phylogenetic Backbone for Bivalvia: an RNA-Seq Approach
A phylogenetic backbone for Bivalvia: an RNA-seq approach The Harvard community has made this article openly available. Please share how this access benefits you. Your story matters Citation González, Vanessa L., Sónia C. S. Andrade, Rüdiger Bieler, Timothy M. Collins, Casey W. Dunn, Paula M. Mikkelsen, John D. Taylor, and Gonzalo Giribet. 2015. “A phylogenetic backbone for Bivalvia: an RNA-seq approach.” Proceedings of the Royal Society B: Biological Sciences 282 (1801): 20142332. doi:10.1098/rspb.2014.2332. http:// dx.doi.org/10.1098/rspb.2014.2332. Published Version doi:10.1098/rspb.2014.2332 Citable link http://nrs.harvard.edu/urn-3:HUL.InstRepos:14065405 Terms of Use This article was downloaded from Harvard University’s DASH repository, and is made available under the terms and conditions applicable to Other Posted Material, as set forth at http:// nrs.harvard.edu/urn-3:HUL.InstRepos:dash.current.terms-of- use#LAA A phylogenetic backbone for Bivalvia: an rspb.royalsocietypublishing.org RNA-seq approach Vanessa L. Gonza´lez1,†,So´nia C. S. Andrade1,‡,Ru¨diger Bieler2, Timothy M. Collins3, Casey W. Dunn4, Paula M. Mikkelsen5, Research John D. Taylor6 and Gonzalo Giribet1 1 Cite this article: Gonza´lez VL, Andrade SCS, Museum of Comparative Zoology, Department of Organismic and Evolutionary Biology, Harvard University, Cambridge, MA 02138, USA Bieler R, Collins TM, Dunn CW, Mikkelsen PM, 2Integrative Research Center, Field Museum of Natural History, Chicago, IL 60605, USA Taylor JD, Giribet G. 2015 A phylogenetic 3Department of Biological Sciences, Florida International University, Miami, FL 33199, USA backbone for Bivalvia: an RNA-seq approach.
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Sepkoski, J.J. 1992. Compendium of Fossil Marine Animal Families
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Patterns of Genome Size Diversity in Invertebrates
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Telomere-Independent Ageing in the Longest-Lived Non-Colonial Animal, Arctica Islandica
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