DOCSLIB.ORG

Urosalpinx Cinerea (Say, 1822)

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Urosalpinx Cinerea (Say, 1822) Urosalpinx cinerea (Say, 1822) AphiaID: 140429 ATLANTIC OYSTER DRILL Animalia (Reino) > Mollusca (Filo) > Gastropoda (Classe) > Caenogastropoda (Subclasse) > Neogastropoda (Ordem) > Muricoidea (Superfamilia) > Muricidae (Familia) Sinónimos Fusus cinereus Say, 1822 Urosalpinx cinerea var. follyensis B. B. Baker, 1951 Referências additional source Hayward, P.J.; Ryland, J.S. (Ed.). (1990). The marine fauna of the British Isles and North-West Europe: 1. Introduction and protozoans to arthropods. Clarendon Press: Oxford, UK. ISBN 0-19-857356-1. 627 pp. [details] additional source Integrated Taxonomic Information System (ITIS). , available online at http://www.itis.gov [details] additional source Turgeon, D.; Quinn, J.F.; Bogan, A.E.; Coan, E.V.; Hochberg, F.G.; Lyons, W.G.; Mikkelsen, P.M.; Neves, R.J.; Roper, C.F.E.; Rosenberg, G.; Roth, B.; Scheltema, A.; Thompson, F.G.; Vecchione, M.; Williams, J.D. (1998). Common and scientific names of aquatic invertebrates from the United States and Canada: mollusks. 2nd ed. American Fisheries Society Special Publication, 26. American Fisheries Society: Bethesda, MD (USA). ISBN 1-888569-01-8. IX, 526 + cd-rom pp. [details] 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 Bromley, J.E.C., and J.S. Bleakney. (1984). Keys to the fauna and flora of Minas Basin. National Research Council of Canada Report 24119. 366 p. [details] additional source Gosner, K. L. (1971). Guide to identification of marine and estuarine invertebrates: Cape Hatteras to the Bay of Fundy. John Wiley & Sons, Inc. 693 p. [details] additional source Rosenberg, G. 2004. Malacolog Version 3.3.2: Western Atlantic gastropod database. The Academy of Natural Sciences, Philadelphia, PA., available online athttp://www.malacolog.org 1 [details] additional source Streftaris, N.; Zenetos, A.; Papathanassiou, E. (2005). Globalisation in marine ecosystems: the story of non-indigenous marine species across European seas. Oceanogr. Mar. Biol. Ann. Rev. 43: 419-453. [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 Trott, T. J. (2004). Cobscook Bay inventory: a historical checklist of marine invertebrates spanning 162 years. Northeastern Naturalist. 11, 261-324., available online at http://www.gulfofmaine.org/kb/files/9793/TROTT-Cobscook%20List.pdf [details] context source (Introduced species) Katsanevakis, S.; Bogucarskis, K.; Gatto, F.; Vandekerkhove, J.; Deriu, I.; Cardoso A.S. (2012). Building the European Alien Species Information Network (EASIN): a novel approach for the exploration of distributed alien species data. BioInvasions Records. 1: 235-245., available online at http://easin.jrc.ec.europa.eu [details] additional source Stearns, R. E. C. (1899). Urosalpinx cinereus in San Francisco Bay. The Nautilus. 12(10): 112., available online at https://www.biodiversitylibrary.org/page/42799654 [details] context source (Bermuda) Jensen, R. H. (1997). A Checklist and Bibliography of the Marine Molluscs of Bermuda. Unp. , 547 pp [details] Última atualização: 16 Mai. 2019 2.
Load more

Recommended publications
  • Severe Introduced Predator Impacts Despite Attempted Functional Eradication
    bioRxiv preprint doi: https://doi.org/10.1101/2021.07.19.451788; this version posted July 19, 2021. The copyright holder for this preprint (which was not certified by peer review) is the author/funder. All rights reserved. No reuse allowed without permission. Severe introduced predator impacts despite attempted functional eradication 2 Brian S. Cheng1,2, Jeffrey Blumenthal3,4, Andrew L. Chang3,4, Jordanna Barley1, Matthew C. Ferner4,5, Karina J. Nielsen4, Gregory M. Ruiz2, Chela J. Zabin3,4 4 1Department of Environmental Conservation, University of Massachusetts Amherst, Amherst, MA 01002 6 2Smithsonian Environmental Research Center, Edgewater, MD, 21037 3Smithsonian Environmental Research Center, Tiburon, CA 94920 8 4Estuary & Ocean Science Center, San Francisco State University, Tiburon, CA 94920 5San Francisco Bay National Estuarine Research Reserve, Tiburon, CA 94920 10 ORCID: BSC 0000-0003-1679-8398, ALC 0000-0002-7870-285X, MCF 0000-0002-4862-9663, KJN 0000-0002-7438-0240, JGB 0000-0002-8736-7950, CJZ 0000-0002-2636-0827 12 DECLARATIONS 14 Funding: Advancing Nature-Based Adaptation Solutions in Marin County, California State Coastal Conservancy and Marin Community Foundation. 16 Conflicts/Competing interests: The authors declare no conflicts or competing interests. Availability of data and code: All data and code has been deposited online at 18 https://github.com/brianscheng/CBOR Ethics approval: not applicable 20 Consent to participate: not applicable Consent for publication: not applicable 22 Page 1 of 37 bioRxiv preprint doi: https://doi.org/10.1101/2021.07.19.451788; this version posted July 19, 2021. The copyright holder for this preprint (which was not certified by peer review) is the author/funder.
    [Show full text]
  • Biodiversity Conservation and Habitat Management
    CONTENTS BIODIVERSITY CONSERVATION AND HABITAT MANAGEMENT Biodiversity Conservation and Habitat Management - Volume 1 No. of Pages: 458 ISBN: 978-1-905839-20-9 (eBook) ISBN: 978-1-84826-920-0 (Print Volume) Biodiversity Conservation and Habitat Management - Volume 2 No. of Pages: 428 ISBN: 978-1-905839-21-6 (eBook) ISBN: 978-1-84826-921-7 (Print Volume) For more information of e-book and Print Volume(s) order, please click here Or contact : [email protected] ©Encyclopedia of Life Support Systems (EOLSS) BIODIVERSITY CONSERVATION AND HABITAT MANAGEMENT CONTENTS Preface xv VOLUME I Biodiversity Conservation and Habitat Management : An Overview 1 Francesca Gherardi, Dipartimento di Biologia Animale e Genetica, Università di Firenze, Italy Claudia Corti, California Academy of Sciences, San Francisco CA, U.S.A. Manuela Gualtieri, Dipartimento di Scienze Zootecniche, Università di Firenze, Italy 1. Introduction: the amount of biological diversity 2. Diversity in ecosystems 2.1. African wildlife systems 2.2. Australian arid grazing systems 3. Measures of biodiversity 3.1. Species richness 3.2. Shortcuts to monitoring biodiversity: indicators, umbrellas, flagships, keystones, and functional groups 4. Biodiversity loss: the great extinction spasm 5. Causes of biodiversity loss: the “evil quartet” 5.1. Over-harvesting by humans 5.2. Habitat destruction and fragmentation 5.3. Impacts of introduced species 5.4. Chains of extinction 6. Why conserve biodiversity? 7. Conservation biology: the science of scarcity 8. Evaluating the status of a species: extinct until proven extant 9. What is to be done? Conservation options 9.1. Increasing our knowledge 9.2. Restore habitats and manage them 9.3.
    [Show full text]
  • Comparative Anatomy of Four Primitive Muricacean Gastropods: Implications for Trophonine Phylogeny
    ^/ -S/ COMPARATIVE ANATOMY OF FOUR PRIMITIVE MURICACEAN GASTROPODS: IMPLICATIONS FOR TROPHONINE PHYLOGENY M. G. HARASEWYCH DEPARTMENT OF INVERTEBRATE ZOOLOGY NATIONAL MUSEUM OF NATURAL HISTORY SMITHSONIAN INSTITUTION WASHINGTON, D.C. 20560, U.S.A. ABSTRACT The main features of the shell, head-foot, palliai complex, alimentary and reproductive systems of Trophon geversianus (Pallas), Boreotrophon aculeatus (Watson), Paziella pazi (Crosse), and Nucella lamellosa (Gmelin) are described, and phonetic and cladistic analyses based on subsets of these data presented. Similarities in shell morphology revealed by phenetic studies are interpreted as being due to convergence, and are indicative of similar habitats rather than of close phylogenetic relationships. Convergences are also noted in radular and stomach characters. Cladistic analyses of anatomical data support the following conclusions: 1 ) Thaididae are a primitive and ancient family of muricaceans forming a clade equal in taxonomic rank with Muncidae; 2) Within Muricidae, P. pazi more closely resembles the ancestral muricid phenotype than any trophonine; 3) Trophoninae comprise a comparatively recent monophyletic group with differences due to a subsequent austral adaptive radiation. The Muricidae are considered to be the most primitive and D'Attilio, 1976:13) a personal communication from E. H. family within Neogastropoda according to most (Thiele, Vokes "it appears likely that the most northern trophons are 1929; Wenz, 1941; Taylor and Sohl, 1962; Boss, 1982) but derived from the Paziella-Poiheha line, and that the several not all (Golikov and Starobogatov, 1975) recent classifica- austral forms that are unquestionably "trophonine" are prob- tions. Of the five subfamilies of Muricidae, the Trophoninae, ably derived from the Thaididae". proposed by Cossmann (1903) on the basis of shell and Thus, according to most published work, the Tropho- opercular characters to include a number of boreal and ninae are in a position to shed light on the systematics and austral species, are the most poorly understood.
    [Show full text]
  • Policy Drafting Template SE-NIS-1 HLMO Living Through
    Policy drafting template SE-NIS-1 HLMO Living through Sub bullet(s) Our oceans support environmental limits viable populations of representative, rare, vulnerable, and valued species. Grouping Invasive non-native Code SE-NIS-1 species Policy SE-NIS-1 Proposals that reduce the risk of spread and/or introduction of non-native invasive species within the south east marine plan area and adjacent plan areas should be supported. Proposals must put in place appropriate measures to avoid or minimise significant adverse impacts that would arise through the introduction and transport of non-native invasive species, particularly when: 1) moving equipment, boats or livestock (for example fish or shellfish) from one water body to another 2) introducing structures suitable for settlement of non-native invasive species, or the spread of non-native invasive species known to exist in the area. What are non-native and non-native invasive species? 1. Non-native (sometimes referred to as non-indigenous) species are those introduced outside of their natural past or present distribution which might survive and subsequently reproduce. In many cases non-native species do not cause harm to the local environment or economy. The Great Britain Non-Native Species Secretariat describes non-native invasive species as any non-native species that has the ability to spread, causing damage to the environment, economy, human health or the way we live. Non-native species can become ‘invasive’ when they cause significant adverse impacts. For example, the carpet sea squirt (Didemnum vexillum) was confirmed in British waters in 2008. It spreads quickly and smothers equipment, boat hulls, fishing equipment and native habitats, such as mussel beds.
    [Show full text]
  • Oyster Culture in Long Island Sound 1966-69
    ARTICLES OYSTER CULTURE IN LONG ISLAND SOUND 1966-69 Clyde L. MacKenzie Jr. The oyster industry in the Long Island ter mortalities, and the development and ap­ Sound waters of Connecticut and New York plication of methods for preventing these (Fig. 1) is rapidly developing improved meth­ mortalities. Future increases in production ods for raising oysters. Prospects are good will probably be made through even more ef­ for a return to production levels equaling or fective control ofmortalities--and collection exceeding those of some earlier periods. of much larger numbers of seed oysters as a The resurgence of the industry has resulted result of better preparation of private setting . from de termination of the causes of seed oys- beds and restoration of public seed areas. CON N. I scale I o ! III STATUTE MILES Housatoni f:>.. ~ 0, \ S \. \.O~G ATLANTIC o C E A N Fig. 1 _ Chart of Long Island Sound showing coastlines of Connecticut and New York. Solid black areas show extent of oyster bottoms, only about 1 percent of which were actually planted with oysters in 1969. ----~------------------------------------ The author is Fishery Biologist, BCF Biological Laboratory, Milford, Conne cticut 06460. U.S. DEPARTME NT OF THE INTER IOR Fish and Wildlife Service Sep. No. 859 27 28 Production of oysters in the Sound declined determining the percentage kill e d by each sharply after the early 1950s from an aver­ cause at different periods; (3) Finding or de­ age of about 1,300,000 bushels in 1950-52 to veloping methods for reducing the effects of only 40,000 bushels in 1967 (Lyles, 1969).
    [Show full text]
  • An Annotated Checklist of the Marine Macroinvertebrates of Alaska David T
    NOAA Professional Paper NMFS 19 An annotated checklist of the marine macroinvertebrates of Alaska David T. Drumm • Katherine P. Maslenikov Robert Van Syoc • James W. Orr • Robert R. Lauth Duane E. Stevenson • Theodore W. Pietsch November 2016 U.S. Department of Commerce NOAA Professional Penny Pritzker Secretary of Commerce National Oceanic Papers NMFS and Atmospheric Administration Kathryn D. Sullivan Scientific Editor* Administrator Richard Langton National Marine National Marine Fisheries Service Fisheries Service Northeast Fisheries Science Center Maine Field Station Eileen Sobeck 17 Godfrey Drive, Suite 1 Assistant Administrator Orono, Maine 04473 for Fisheries Associate Editor Kathryn Dennis National Marine Fisheries Service Office of Science and Technology Economics and Social Analysis Division 1845 Wasp Blvd., Bldg. 178 Honolulu, Hawaii 96818 Managing Editor Shelley Arenas National Marine Fisheries Service Scientific Publications Office 7600 Sand Point Way NE Seattle, Washington 98115 Editorial Committee Ann C. Matarese National Marine Fisheries Service James W. Orr National Marine Fisheries Service The NOAA Professional Paper NMFS (ISSN 1931-4590) series is pub- lished by the Scientific Publications Of- *Bruce Mundy (PIFSC) was Scientific Editor during the fice, National Marine Fisheries Service, scientific editing and preparation of this report. NOAA, 7600 Sand Point Way NE, Seattle, WA 98115. The Secretary of Commerce has The NOAA Professional Paper NMFS series carries peer-reviewed, lengthy original determined that the publication of research reports, taxonomic keys, species synopses, flora and fauna studies, and data- this series is necessary in the transac- intensive reports on investigations in fishery science, engineering, and economics. tion of the public business required by law of this Department.
    [Show full text]
  • Gastropods: of the Oligocene to Recent Genera and Description Of
    Research 2006 Cainozoic , 4(1-2), pp. 71-96, February The Cantharus Group of Pisaniine Buccinid Gastropods: Review of the Oligocene to Recent Genera and Description of Some New Species of Gemophos and Hesperisternia ¹ Geerat+J. Vermeij ' Departmentof Geology, University ofCalifornia at Davis, One Shields Avenue, Davis, CA 95616, USA; e-mail: vermeij @geology,ucdavis. edu Received: 12 May 2004; revised version accepted 22 December 2004 The Cantharus of buccinid is in the Recent interval twelve of group pisaniine gastropods represented Oligocene to by genera, two which extinct. I review the and fossil record of these Anna 1826 are species composition, synonymy, characteristics, genera: Risso, (early Oligocene to Recent, eastern Atlantic); Cancellopollia Vermeij and Bouchet, 1998 (Recent, Indo-West Pacific); Cantharus Rdding, 1798 (Pliocene to Recent, Indo-West Pacific); Editharus Vermeij, 2001a (early Eocene to early Oligocene, Europe); Gemophos Olsson and Harbison, 1953 (late Miocene to Recent, tropical and subtropical America, one species in West Africa); Hes- peristernia Gardner, 1944 (late Oligocene to Recent, tropical and subtropical America); Pallia Gray in Sowerby, 1834 (early Mio- cene to Recent, Indo-West Pacific; one species in West Africa); Preangeria Martin, 1921 (early Miocene to Recent, Indo-West Pa- cific); Prodotia Dali, 1924 (?late Miocene to Recent, Indo-West Pacific); Pusio Gray in Griffith and Pidgeon, 1834 (?early and middle Miocene, late Miocene to Recent, eastern Pacific); Solenosteira Dali, 1890 (late Miocene to Recent, tropical America); and Zeapollia Finlay, 1927 (Oligocene to Pliocene, Australia and New Zealand). Besides many generic reassignments, I describe the basidentatus Pleistocene, Pliocene, following new species: Gemophos (early Florida); G.
    [Show full text]
  • Habitat Disturbance Combined with Life History Traits Facilitate Establishment of Rapana Venosa in the Chesapeake Bay
    W&M ScholarWorks VIMS Articles Virginia Institute of Marine Science 2016 Habitat Disturbance Combined With Life History Traits Facilitate Establishment Of Rapana Venosa In The Chesapeake Bay Juliana M. Harding Virginia Institute of Marine Science Roger L. Mann Virginia Institute of Marine Science Follow this and additional works at: https://scholarworks.wm.edu/vimsarticles Part of the Marine Biology Commons Recommended Citation Harding, Juliana M. and Mann, Roger L., "Habitat Disturbance Combined With Life History Traits Facilitate Establishment Of Rapana Venosa In The Chesapeake Bay" (2016). VIMS Articles. 308. https://scholarworks.wm.edu/vimsarticles/308 This Article is brought to you for free and open access by the Virginia Institute of Marine Science at W&M ScholarWorks. It has been accepted for inclusion in VIMS Articles by an authorized administrator of W&M ScholarWorks. For more information, please contact [email protected]. Journal of Shellfish Research, Vol. 35, No. 4, 885–910, 2016. HABITAT DISTURBANCE COMBINED WITH LIFE HISTORY TRAITS FACILITATE ESTABLISHMENT OF RAPANA VENOSA IN THE CHESAPEAKE BAY JULIANA M. HARDING1,2* AND ROGER MANN1 1Department of Fisheries Science, Virginia Institute of Marine Science, College of William and Mary, P.O. Box 1346, Gloucester Point, VA 23062; 2Department of Marine Science, Coastal Carolina University, P.O. Box 261954, Conway, SC 29528 ABSTRACT The veined rapa whelk (Rapana venosa) invasion of the Chesapeake Bay in the United States was first observed in 1998. Chesapeake Bay rapa whelk population demographics, age-at-length relationships, and invasion progression (temporal, spatial) from 1998 to 2009 are described. Between June 1998 and November 2009, 27,624 rapa whelks, ranging from 11- to 195-mm shell length (SL), were collected from the lower Bay.
    [Show full text]
  • Non-Native and Invasive Animals of Alaska: a Comprehensive List and Select Species Status Reports
    NON-NATIVE AND INVASIVE ANIMALS OF ALASKA: A COMPREHENSIVE LIST AND SELECT SPECIES STATUS REPORTS FINAL REPORT Jodi McClory Tracey Gotthardt NON-NATIVE AND INVASIVE ANIMALS OF ALASKA: A COMPREHENSIVE LIST AND SELECT SPECIES STATUS REPORTS FINAL REPORT Jodi McClory and Tracey Gotthardt Alaska Natural Heritage Program Environment and Natural Resources Institute University of Alaska Anchorage 707 A Street, Anchorage AK 99501 January 2008 TABLE OF CONTENTS EXECUTIVE SUMMARY 4 INTRODUCTION 5 METHODOLOGY 5 RESULTS 6 DISCUSSION AND FUTURE DIRECTION 6 ACKNOWLEDGEMENTS 7 LITERATURE CITED 8 APPENDICES I: LIST OF NON-NATIVE ANIMAL SPECIES DOCUMENTED IN ALASKA 9 II: LIST OF NON-NATIVE ANIMAL SPECIES WITH THE POTENTIAL FOR INVASION IN ALASKA 17 III: STATUS REPORTS FOR SELECT NON-NATIVE ANIMAL SPECIES OF ALASKA 21 PACIFIC CHORUS FROG.......................................................................................................................... 22 RED-LEGGED FROG ................................................................................................................................24 ATLANTIC SALMON................................................................................................................................. 27 NORTHERN PIKE ..................................................................................................................................... 30 AMBER-MARKED BIRCH LEAFMINER .................................................................................................... 33 BIRCH LEAFMINER ................................................................................................................................
    [Show full text]
  • Marine Invasive Species in Nordic Waters - Fact Sheet
    NOBANIS - Marine invasive species in Nordic waters - Fact Sheet Rapana venosa Author of this species fact sheet: Kathe R. Jensen, Zoological Museum, Natural History Museum of Denmark, Universitetsparken 15, 2100 København Ø, Denmark. Phone: +45 353-21083, E-mail: [email protected] Bibliographical reference – how to cite this fact sheet: Jensen, Kathe R. (2010): NOBANIS – Invasive Alien Species Fact Sheet – Rapana venosa – From: Identification key to marine invasive species in Nordic waters – NOBANIS www.nobanis.org, Date of access x/x/201x. Species description Species name Rapana venosa, (Valenciennes, 1846) – Veined rapa whelk Synonyms Purpura venosa Valenciennes, 1846; Rapana thomasiana Crosse, 1861; ?Rapana marginata (Valenciennes, 1846); ?Rapana pechiliensis Grabau & King, 1928; Rapana pontica Nordsieck, 1969. Common names Veined rapa whelk, Asian rapa whelk (USA, UK); Thomas’ whelk (English common name for Black Sea whelks identified as R. thomasiana); Cocozza, Bobolone (IT); Geaderde stekelhoorn (NL); Bai top shell (commercial name for Bulgarian Black Sea specimens); Akanishi (JP). Taxonomic note The genus Rapana is sometimes referred to the family Muricidae (e.g., DAISIE, 2006), sometimes to Thaididae (e.g., Koutsoubas & Voultsiadou-Koukoura, 1991; Mann & Harding, 2000). According to World Register of Marine Species (WoRMS) the family should be Muricidae, and the Thaididae is considered a synonym of Rapaninae, a subfamily of Muricidae (see Bouchet & Rocroi, 2005). Identification Rapana venosa is a large, 9-16 cm shell length, species with a heavy, strongly sculptured shell. Specimens up to 17.5 cm have been recorded in the Black Sea (Micu et al., 2008). The spire is relatively short, less than half the height of the aperture.
    [Show full text]
  • Annotated Checklist of Mollusks of Chesapeake Bay
    W&M ScholarWorks Reports 1956 Annotated checklist of mollusks of Chesapeake Bay J. D. Andrews Virginia Fisheries Laboratory Follow this and additional works at: https://scholarworks.wm.edu/reports Part of the Marine Biology Commons Recommended Citation Andrews, J. D. (1956) Annotated checklist of mollusks of Chesapeake Bay. Virginia Institute of Marine Science, William & Mary. https://scholarworks.wm.edu/reports/2399 This Report is brought to you for free and open access by W&M ScholarWorks. It has been accepted for inclusion in Reports by an authorized administrator of W&M ScholarWorks. For more information, please contact [email protected]. ANNOTATED CHECKLIST OF MOLLUSKS OF CHESAPEAKE BAY (Revised April 1956) J. D. Andrews Virginia Fisheries Laboratory Gloucester Point This preliminary checklist has been prepared for the use of students and biologists working in the Chesapeake Bay area. The list is conservative and probably omits a number of species, especially small snails and parasitic groups like the pyrams. All species listed, with one or two exceptions, have been collected as live specimens by the author, and collections of each have been deposited in the U. S. National Museum. Species given in the literature but not yet confirmed by specimens in the National Museum have been purposely omitted. The checklist includes all species collected in the brackish waters of Chesapeake Bay except certain fresh-water groups, e.g. the hydrobiids, which invade salty waters a short distance. The ocean shore of Virginia, both on Eastern Shore and the mainland, has been excluded. The families are arranged in the order found in Johnson's checklist and the nomenclature follows Johnson except where Abbott or Johnsonia give changes.
    [Show full text]
  • Puget Sound Marine Invasive Species Identification Guide
    Puget Sound Marine Invasive Species Identification Guide Puget Sound Marine Invasive Species Volunteer Monitoring Program (MISM) Program Contact: Nahkeeta Northwest Wildlife Services P.O. Box 176 Bow, WA 98232 ph 360-766-6008 email: [email protected] Sponsored by: Washington Department of Fish and Wildlife Aquatic Nuisance Species Program 600 Capitol Way North Olympia, WA 98501 April 2008 MISM Target Species List 2/2008 MARINE/ESTUARINE ORGANISMS* Common Scientific Name Name PLANTS (5 sp) (Spartina 4 sp) non-target but included due to association with green crab Japanese eelgrass Zostera japonica MACRO ALGAE (3 sp) Japanese kelp Undaria pinnatifida Caulerpa seaweed Caulerpa taxifolia Sargassum seaweed Sargassum muticum INVERTEBRATES (24 sp) Mollusks - Bivalves (9 sp): Clam, Asian Potamocorbula amurensis Clam, Atlantic gem Gemma gemma Clam, Northern quahog Mercenaria mercenaria Clam, purple varnish/mahogany Nuttalia obscurata Clam, Japanese Neotrapezium liratum Mussel, Atlantic ribbed Geukensia demissa Mussel, New Zealand green Perna spp Mussel, Japanese Musculista senhousia Mussel, gallo Mytilus galloprovincialis Gastropods (5 sp): Oyster drill, Japanese Ceratostoma inornatum Oyster drill, Atlantic/Eastern Urosalpinx cinerea Whelk, channeled Busycotypus canaliculatus Whelk, veined rapa Rapana venosa Asian mudsnail Batallaria attramentaria Crustaceans (3 sp.): Crab, European green Carcinus maenus Crab, mitten Eriocheir sinensis Crab, Japanese shore Hemigrapsus sanguineus Polychaeta (1 sp) Bamboo worm Clymenella torquata Tunicates (6 sp):
    [Show full text]