DOCSLIB.ORG

Benthic Invertebrates of the Eastern Bering Sea: a Synopsis of the Life History and Ecology of Snails of the Genus Neptunea

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Benthic Invertebrates of the Eastern Bering Sea: a Synopsis of the Life History and Ecology of Snails of the Genus Neptunea NOAA Technical Memorandum NMFS-AFSC-231 Benthic Invertebrates of the Eastern Bering Sea: A Synopsis of the Life History and Ecology of Snails of the Genus Neptunea by K. R. Smith, R. A. McConnaughey, and C. E. Armistead U.S. DEPARTMENT OF COMMERCE National Oceanic and Atmospheric Administration National Marine Fisheries Service Alaska Fisheries Science Center December 2011 NOAA Technical Memorandum NMFS The National Marine Fisheries Service's Alaska Fisheries Science Center uses the NOAA Technical Memorandum series to issue informal scientific and technical publications when complete formal review and editorial processing are not appropriate or feasible. Documents within this series reflect sound professional work and may be referenced in the formal scientific and technical literature. The NMFS-AFSC Technical Memorandum series of the Alaska Fisheries Science Center continues the NMFS-F/NWC series established in 1970 by the Northwest Fisheries Center. The NMFS-NWFSC series is currently used by the Northwest Fisheries Science Center. This document should be cited as follows: Smith, K. R., R. A. McConnaughey, and C. E. Armistead. 2011. Benthic invertebrates of the Eastern Bering Sea: A synopsis of the life history and ecology of snails of the genus Neptunea. U.S. Dep. Commer., NOAA Tech. Memo. NMFS-AFSC-231, 59 p. Reference in this document to trade names does not imply endorsement by the National Marine Fisheries Service, NOAA. NOAA Technical Memorandum NMFS-AFSC-231 Benthic Invertebrates of the Eastern Bering Sea: A Synopsis of the Life History and Ecology of Snails of the Genus Neptunea by K. R. Smith1, R. A. McConnaughey1, and C. E. Armistead2 1Alaska Fisheries Science Center Resource Assessment and Conservation Engineering Division 7600 Sand Point Way N.E. Seattle, WA 98115 2Alaska Fisheries Science Center Resource Assessment and Conservation Engineering Division Kodiak Laboratory 301 Research Court Kodiak, AK 99615 www.afsc.noaa.gov U.S. DEPARTMENT OF COMMERCE John E. Bryson, Secretary National Oceanic and Atmospheric Administration Jane Lubchenco, Under Secretary and Administrator National Marine Fisheries Service Eric C. Schwaab, Assistant Administrator for Fisheries December 2011 This document is available to the public through: National Technical Information Service U.S. Department of Commerce 5285 Port Royal Road Springfield, VA 22161 www.ntis.gov ABSTRACT Snails of the genus Neptunea have a significant presence among the benthic fauna inhabiting the North American continental shelf in the eastern Bering Sea (EBS). This is reflected by the catch of annual bottom trawl-net surveys of the continental shelf conducted by the Resource Assessment and Conservation Engineering Division of the Alaska Fisheries Science Center, National Oceanic and Atmospheric Administration. Together these surveys comprise a time-series assessing stocks of groundfish and benthic invertebrates in the EBS, from 1971 to the present. In the 1975 survey of shelf and upper slope, gastropods constituted 6.6% of the biomass of invertebrates caught. In some areas catch per unit effort (CPUE; i.e., catch per unit of area swept) exceeded 30 kg/ha. Gastropods, mostly of the order Neogastropoda which includes Neptunea, in more recent EBS shelf surveys remain one of the top 50 EBS invertebrate taxa in both total abundance and frequency of occurrence at trawl stations. Among gastropods, by far the most abundant species in these surveys are those of the genus Neptunea, particularly the four species N. pribiloffensis, N. heros, N. lyrata, and N. ventricosa. Based on hauls at standard EBS shelf stations in surveys of selected years from 1983 to 2010, we include maps for each species showing the year-by-year distribution of abundance over the area as extrapolated from haul CPUE. Because of its high abundance in the benthic fauna, the genus probably constitutes a significant element in the benthic ecology of the region. However, little direct study of local populations has occurred to date, leaving a dearth of information available on biology and ecological relationships. More extensive observations have been made of species of Neptunea in other marine regions of the Northern Hemisphere, and this paper presents information available from these studies along with that from local studies. The information forms a synopsis of the iii probable characteristics of life history, trophic webs, and anthropogenic effects relating to the genus in the EBS. iv CONTENTS ABSTRACT ................................................................................................................................... iii INTRODUCTION ...........................................................................................................................1 PHYLOGENY AND GEOGRAPHIC ORIGIN OF NEPTUNEA .................................................2 GEOGRAPHIC DISTRIBUTION OF NEPTUNEA IN THE EASTERN BERING SEA ...............................................................................................3 Methods................................................................................................................................3 RACE Bottom Trawl Survey Design .......................................................................4 Abundance ...............................................................................................................4 Distribution Maps ....................................................................................................5 Regional Species Assemblages ......................................................................................................24 LIFE HISTORY AND ECOLOGY ...............................................................................................24 Extent of Information .........................................................................................................24 Growth and Development ..................................................................................................25 Morphogenesis .......................................................................................................25 Sexes ......................................................................................................................25 Average Length ......................................................................................................26 Maximum Length...................................................................................................26 Weight Versus Length ...........................................................................................27 Growth Rate ...........................................................................................................27 Maximum Average Length-at-Age ........................................................................29 Greatest Age Observed ..........................................................................................29 Maturation of Sexes ...........................................................................................................31 Length at Maturity .................................................................................................31 Age at Maturity ......................................................................................................33 Annual Cycles of Reproduction .........................................................................................34 Mate Selection .......................................................................................................34 Copulation and Spawning Seasons ........................................................................34 Incubation ..............................................................................................................35 Spawning Physiology.............................................................................................37 Brood Size ..............................................................................................................37 Spawning Habitat ...................................................................................................38 Feeding Methods and Diet .................................................................................................38 Prey ........................................................................................................................39 Diet Strategies ........................................................................................................40 Mortality ............................................................................................................................41 Rates .......................................................................................................................41 Predators ................................................................................................................42 v ANTHROPOGENIIC INTERACTIONS ......................................................................................43 Incidental Results of Commercial Fishing .........................................................................43 Snail Bycatch .........................................................................................................43 Changes to the Benthos ..........................................................................................44 Pollution-induced Imposex ................................................................................................45 Human Consumption .........................................................................................................46
Load more

Recommended publications
  • Of Corncobs and Flat Artichokes (Pdf) [Neptunea]
    Of Corncobs and Flat Artichokes by Ronald L. Shimek, Ph. D. Here in the Pacific Northwest many shell collectors tend to think that we have been short-changed with regard to large-shelled snails. A couple of larger snail species are relatively common, Ceratostoma foliatum (Gmelin, 1791) and Fusitriton oregonesis (Redfield, 1848) come to mind but, by and large, the sizes of most local shelled gastropods range from small to smaller. There is, however, one relatively diverse group that contains several species whose individuals may become relatively large. Even better, depending on the area where they are found, some individuals are spectacularly- colored with interesting sculpture. These animals are, of course, the larger species in the genus Neptunea. The mention of Neptunea in a recent issue of The Dredgings, prompted me to write this essay. For some time I’ve wanted to contribute a short article and I guess it just took the necessary stimulus. A B C Figure A. Neptunea pribiloffensis. Specimen is about 10 cm (4 inches) long. Collected from the eastern Bering Sea. Figure B. Neptunea lyrata. Specimen is about 12 cm (5 inches) long. Collected from the Strait of Juan de Fuca, south of San Juan Island, Washington. Figure C. Neptunea heros (Gray, 1850) is one of the more “flashy” northern Neptunea species. This specimen was about 19 cm (7 inches) long and, when living, the shell color was an intense magenta. Figure D. Neptunea pribiloffensis female depositing her egg-capsule mass. The snail is about 75 mm (3 inches) long. Note the flaccid, baby- sitting anemone in the lower left corner.
    [Show full text]
  • (Approx) Mixed Micro Shells (22G Bags) Philippines € 10,00 £8,64 $11,69 Each 22G Bag Provides Hours of Fun; Some Interesting Foraminifera Also Included
    Special Price £ US$ Family Genus, species Country Quality Size Remarks w/o Photo Date added Category characteristic (€) (approx) (approx) Mixed micro shells (22g bags) Philippines € 10,00 £8,64 $11,69 Each 22g bag provides hours of fun; some interesting Foraminifera also included. 17/06/21 Mixed micro shells Ischnochitonidae Callistochiton pulchrior Panama F+++ 89mm € 1,80 £1,55 $2,10 21/12/16 Polyplacophora Ischnochitonidae Chaetopleura lurida Panama F+++ 2022mm € 3,00 £2,59 $3,51 Hairy girdles, beautifully preserved. Web 24/12/16 Polyplacophora Ischnochitonidae Ischnochiton textilis South Africa F+++ 30mm+ € 4,00 £3,45 $4,68 30/04/21 Polyplacophora Ischnochitonidae Ischnochiton textilis South Africa F+++ 27.9mm € 2,80 £2,42 $3,27 30/04/21 Polyplacophora Ischnochitonidae Stenoplax limaciformis Panama F+++ 16mm+ € 6,50 £5,61 $7,60 Uncommon. 24/12/16 Polyplacophora Chitonidae Acanthopleura gemmata Philippines F+++ 25mm+ € 2,50 £2,16 $2,92 Hairy margins, beautifully preserved. 04/08/17 Polyplacophora Chitonidae Acanthopleura gemmata Australia F+++ 25mm+ € 2,60 £2,25 $3,04 02/06/18 Polyplacophora Chitonidae Acanthopleura granulata Panama F+++ 41mm+ € 4,00 £3,45 $4,68 West Indian 'fuzzy' chiton. Web 24/12/16 Polyplacophora Chitonidae Acanthopleura granulata Panama F+++ 32mm+ € 3,00 £2,59 $3,51 West Indian 'fuzzy' chiton. 24/12/16 Polyplacophora Chitonidae Chiton tuberculatus Panama F+++ 44mm+ € 5,00 £4,32 $5,85 Caribbean. 24/12/16 Polyplacophora Chitonidae Chiton tuberculatus Panama F++ 35mm € 2,50 £2,16 $2,92 Caribbean. 24/12/16 Polyplacophora Chitonidae Chiton tuberculatus Panama F+++ 29mm+ € 3,00 £2,59 $3,51 Caribbean.
    [Show full text]
  • INVERTEBRATE SPECIES in the EASTERN BERING SEA By
    Effects of areas closed to bottom trawling on fish and invertebrate species in the eastern Bering Sea Item Type Thesis Authors Frazier, Christine Ann Download date 01/10/2021 18:30:05 Link to Item http://hdl.handle.net/11122/5018 e f f e c t s o f a r e a s c l o s e d t o b o t t o m t r a w l in g o n fish a n d INVERTEBRATE SPECIES IN THE EASTERN BERING SEA By Christine Ann Frazier RECOMMENDED: — . /Vj Advisory Committee Chair Program Head / \ \ APPROVED: M--- —— [)\ Dean, School of Fisheries and Ocean Sciences • ~7/ . <-/ / f a Dean of the Graduate Sch6oI EFFECTS OF AREAS CLOSED TO BOTTOM TRAWLING ON FISH AND INVERTEBRATE SPECIES IN THE EASTERN BERING SEA A THESIS Presented to the Faculty of the University of Alaska Fairbanks in Partial Fulfillment of the Requirements for the Degree of MASTER OF SCIENCE 6 By Christine Ann Frazier, B.A. Fairbanks, Alaska December 2003 UNIVERSITY OF ALASKA FAIRBANKS ABSTRACT The Bering Sea is a productive ecosystem with some of the most important fisheries in the United States. Constant commercial fishing for groundfish has occurred since the 1960s. The implementation of areas closed to bottom trawling to protect critical habitat for fish or crabs resulted in successful management of these fisheries. The efficacy of these closures on non-target species is unknown. This study determined if differences in abundance, biomass, diversity and evenness of dominant fish and invertebrate species occur among areas open and closed to bottom trawling in the eastern Bering Sea between 1996 and 2000.
    [Show full text]
  • Distribution and Abundance of Some Epibenthic Invertebrates of the Northeastern Gulf of Alaska with Notes on the Feeding Biology of Selected Species
    DISTRIBUTION AND ABUNDANCE OF SOME EPIBENTHIC INVERTEBRATES OF THE NORTHEASTERN GULF OF ALASKA WITH NOTES ON THE FEEDING BIOLOGY OF SELECTED SPECIES by Howard M. Feder and Stephen C. Jewett Institute of Marine Science University of Alaska Fairbanks, Alaska 99701 Final Report Outer Continental Shelf Environmental Assessment Program Research Unit 5 August 1978 357 We thank Max Hoberg, University of Alaska, and the research group from the Northwest Fisheries Center, Seattle, Washington, for assistance aboard the MV North Pucijk. We also thank Lael Ronholt, Northwest Fisheries Center, for data on commercially important invertebrates. Dr. D. P. Abbott, of the Hopkins Marine Station, Stanford University, identified the tunicate material. We appreciate the assistance of the Marine Sorting Center and Max Hoberg of the University of Alaska for taxonomic assistance. We also thank Rosemary Hobson, Data Processing, University of Alaska, for help with coding problems and ultimate resolution of those problems. This study was funded by the Bureau of Land Management, Department of the Interior, through an interagency agreement with the National Oceanic and Atmospheric Administration, Department of Commerce, as part of the Alaska Outer Continental Shelf Environmental Assessment Program. SUMMARY OF OBJEC!CIVES, CONCLUSIONS, AND IMPLICATIONS WITH RESPECT TO OCS OIL AND GAS DEVELOPMENT The objectives of this study were to obtain (1) a qualitative and quantitative inventory of dominant epibenthic species within the study area, (2) a description of spatial distribution patterns of selected benthic invertebrate species, and (3) preliminary observations of biological interrelationships between selected segments of the benthic biota. The trawl survey was effective, and excellent spatial coverage was obtained, One hundred and thirty-three stations were successfully occupied, yielding a mean epifaunal invertebrate biomass of 2.6 g/mz.
    [Show full text]
  • Pliocene to Quaternary Sinistral Neptunea Species (Mollusca, Gastropoda, Buccinidae) from the NE Atlantic
    Cainozoic Research, 14(1), pp. 17-34, July 2014 17 Pliocene to Quaternary sinistral Neptunea species (Mollusca, Gastropoda, Buccinidae) from the NE Atlantic Marcel Vervoenen1, Freddy van Nieulande2, Koen Fraussen3, Frank P. Wesselingh4, 6 & Ronald Pouwer5 1 Beekstraat 86A, B-9300 Aalst, Belgium 2 Scheldepoortstraat 56, NL-4339 BN Nieuw- en Sint Joosland, The Netherlands; [email protected] 3 Leuvensestraat 25, B-3200 Aarschot, Belgium; [email protected] 4 Naturalis Biodiversity Center, P.O. Box 9517, NL-2300 RA Leiden, The Netherlands; [email protected] 5 Naturalis Biodiversity Center, P.O. Box 9517, NL-2300 RA Leiden, The Netherlands; [email protected] 6 corresponding author. Received 29 April 2014, revised version accepted 23 May 2014 The taxonomy of sinistral Neptunea species from the Pliocene of the North Sea Basin and the Quaternary of NW Europe is investigated. All sinistral forms are considered to be part of a single clade. Morphological varieties from the Pliocene successions of the southern North Sea Basin are documented. A remarkable increase in the number of varieties occurs in a short stratigraphic interval in the latest Piacenzian (Lillo Formation, Kruisschans Member, Antwerp area, Belgium). The Pliocene morphs are for the moment grouped as forms within Neptunea angulata Harmer, 1914 (non N. angulata Wood, 1848). Several of the morphs appear to lack intermediate forms and thus the presence of sibling species may be demonstrated when more material will become available. During the Pleistocene, the sinistral species N. inversa Harmer, 1918, occurred in NW Europe. South of the North Sea Basin the last occurrence of the species is at least the Middle Pleistocene MIS 13.
    [Show full text]
  • Proceedings of the United States National Museum
    PROCEEDINGS OF THE UNITED STATES NATIONAL MUSEUM SMITHSONIAN INSTITUTION U. S. NATIONAL MUSEUM VoL 109 WMhington : 1959 No. 3412 MARINE MOLLUSCA OF POINT BARROW, ALASKA Bv Nettie MacGinitie Introduction The material upon which this study is based was collected by G. E. MacGinitie in the vicinity of Point Barrow, Alaska. His work on the invertebrates of the region (see G. E. MacGinitie, 1955j was spon- sored by contracts (N6-0NR 243-16) between the OfRce of Naval Research and the California Institute of Technology (1948) and The Johns Hopkins L^niversity (1949-1950). The writer, who served as research associate under this project, spent the. periods from July 10 to Oct. 10, 1948, and from June 1949 to August 1950 at the Arctic Research Laboratory, which is located at Point Barrow base at ap- proximately long. 156°41' W. and lat. 71°20' N. As the northernmost point in Alaska, and representing as it does a point about midway between the waters of northwest Greenland and the Kara Sea, where collections of polar fauna have been made. Point Barrow should be of particular interest to students of Arctic forms. Although the dredge hauls made during the collection of these speci- mens number in the hundreds and, compared with most "expedition standards," would be called fairly intensive, the area of the ocean ' Kerckhofl Marine Laboratory, California Institute of Technology. 473771—59 1 59 — 60 PROCEEDINGS OF THE NATIONAL MUSEUM vol. los bottom touched by the dredge is actually small in comparison with the total area involved in the investigation. Such dredge hauls can yield nothing comparable to what can be obtained from a mudflat at low tide, for instance.
    [Show full text]
  • Phylogenetic Positions of Some Genera and Species of the Family Buccinidae (Gastropoda: Mollusca) from China Based on Ribosomal RNA and COI Sequences
    CORE Metadata, citation and similar papers at core.ac.uk Provided by Springer - Publisher Connector Article SPECIAL TOPIC: Change of Biodiversity Patterns in Coastal Zone July 2013 Vol.58 No.19: 23152322 doi: 10.1007/s11434-013-5922-z Phylogenetic positions of some genera and species of the family Buccinidae (Gastropoda: Mollusca) from China based on ribosomal RNA and COI sequences HOU Lin1*, DAHMS Hans-Uwe2, DONG ChangYong1, CHEN YiFei1, HOU HaoChen1, YANG WanXi3 & ZOU XiangYang4 1 College of Life Science, Liaoning Normal University, Dalian 116081, China; 2 Sangmyung University, Green Life Science Department, 7 Hongji-dong, Jongno-gu, Seoul 110-743, Korea; 3 College of Life Sciences, Zhejiang University, Hangzhou 310058, China; 4 Department of Biotechnology, Dalian Medical University, Dalian 116044, China Received January 21, 2013; accepted March 27, 2013 A phylogenetic analysis of members of the family Buccinidae was conducted using 18S rRNA gene, 28S rRNA gene and the mi- tochondrial cytochrome oxidase I gene. We studied 18 species of Buccinidae that belong to eight different genera and inhabit the China coastal seas. We analyzed the patterns of divergence between an outgroup and basal ingroup taxa, the monophyly of the genus Neptunea, and the position of one unnamed species within the Buccinidae. A phylogenetic tree (neighbor-joining (NJ) method) was reconstructed based on the sequences of 18S rRNA, 28S rRNA and COI, with Rapana venosa as outgroup. The NJ tree indicated that the 18 species could be divided into five groups. The genus Buccinum was monophyletic, whereas Neptunea was shown to be paraphyletic since it included Siphonalia subdilatata and Neptunea sp., a new species.
    [Show full text]
  • Deep-Water Buccinidae (Gastropoda: Neogastropoda) from Sunken Wood, Vents and Seeps: Molecular Phylogeny and Taxonomy Yu.I
    Deep-water Buccinidae (Gastropoda: Neogastropoda) from sunken wood, vents and seeps: molecular phylogeny and taxonomy Yu.I. Kantor, N. Puillandre, K. Fraussen, A.E. Fedosov, P. Bouchet To cite this version: Yu.I. Kantor, N. Puillandre, K. Fraussen, A.E. Fedosov, P. Bouchet. Deep-water Buccinidae (Gas- tropoda: Neogastropoda) from sunken wood, vents and seeps: molecular phylogeny and taxonomy. Journal of the Marine Biological Association of the UK, Cambridge University Press (CUP), 2013, 93 (8), pp.2177-2195. 10.1017/S0025315413000672. hal-02458197 HAL Id: hal-02458197 https://hal.archives-ouvertes.fr/hal-02458197 Submitted on 28 Jan 2020 HAL is a multi-disciplinary open access L’archive ouverte pluridisciplinaire HAL, est archive for the deposit and dissemination of sci- destinée au dépôt et à la diffusion de documents entific research documents, whether they are pub- scientifiques de niveau recherche, publiés ou non, lished or not. The documents may come from émanant des établissements d’enseignement et de teaching and research institutions in France or recherche français ou étrangers, des laboratoires abroad, or from public or private research centers. publics ou privés. Deep-water Buccinidae (Gastropoda: Neogastropoda) from sunken wood, vents and seeps: Molecular phylogeny and taxonomy KANTOR YU.I.1, PUILLANDRE N.2, FRAUSSEN K.3, FEDOSOV A.E.1, BOUCHET P.2 1 A.N. Severtzov Institute of Ecology and Evolution of Russian Academy of Sciences, Leninski Prosp. 33, Moscow 119071, Russia, 2 Muséum National d’Histoire Naturelle, Departement Systematique et Evolution, UMR 7138, 43, Rue Cuvier, 75231 Paris, France, 3 Leuvensestraat 25, B–3200 Aarschot, Belgium ABSTRACT Buccinidae - like other canivorous and predatory molluscs - are generally considered to be occasional visitors or rare colonizers in deep-sea biogenic habitats.
    [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]
  • Diversity of Shell-Bearing Gastropods Along the Western Coast of the Arctic Archipelago Novaya Zemlya: an Evaluation of Modern and Historical Data
    Diversity of shell-bearing gastropods along the western coast of the Arctic archipelago Novaya Zemlya: an evaluation of modern and historical data Ivan O. Nekhaev & Ekaterina N. Krol Polar Biology ISSN 0722-4060 Polar Biol DOI 10.1007/s00300-017-2140-1 1 23 Your article is protected by copyright and all rights are held exclusively by Springer- Verlag GmbH Germany. This e-offprint is for personal use only and shall not be self- archived in electronic repositories. If you wish to self-archive your article, please use the accepted manuscript version for posting on your own website. You may further deposit the accepted manuscript version in any repository, provided it is only made publicly available 12 months after official publication or later and provided acknowledgement is given to the original source of publication and a link is inserted to the published article on Springer's website. The link must be accompanied by the following text: "The final publication is available at link.springer.com”. 1 23 Author's personal copy Polar Biol DOI 10.1007/s00300-017-2140-1 ORIGINAL PAPER Diversity of shell-bearing gastropods along the western coast of the Arctic archipelago Novaya Zemlya: an evaluation of modern and historical data 1 2 Ivan O. Nekhaev • Ekaterina N. Krol Received: 27 June 2016 / Revised: 15 May 2017 / Accepted: 6 June 2017 Ó Springer-Verlag GmbH Germany 2017 Abstract Accurate estimation of biodiversity is necessary between local coastal gastropod faunas from various parts to provide a baseline for further ecosystem investigations of the Barents Sea (including Novaya Zemlya).
    [Show full text]
  • Corel Ventura
    Ruthenica, 2005, 15(1): 17-22. ©Ruthenica, 2005 Neptunea alabaster sp. nov., a new species of the genus Neptunea (Neogastropoda, Buccinidae) from the Bering Sea D. O. ALEXEYEV*, K. FRAUSSEN** * Federal Research Institute of Fisheries and Oceanography (VNIRO), Verkhnyaya Krasnoselskaya 17, Moscow 107140, Russia; ** Leuvensestraat 25, B-3200, Aarschot, Belgium ABSTRACT. A new species, Neptunea alabaster sp.n. The important conchological differencies be- (Neogastropoda, Buccinidae) from the Bering Sea is tween these two species are sufficient to establish a described. This species closely related to “Neptunea new taxon in the “N. lyrata complex”. lyrata” complex of species. Neptunea alabaster sp. nov. Neptunea lyrata (Gmelin, 1791) is a very well Type material. Holotype: Zoological Museum of Mos- cow State University (ZMMU), No. Lc-25896; dried shell, known North Pacific species, with a wide distribu- shell height (H) 118.3 mm. Bering Sea, 59°06’4 N, tion from Korea and North Japan to California. Spe- 166°02’7 E, 330-335 m, 22.09.2001. cimens attributed to N. lyrata demonstrate a very Paratypes: ZMMU, No. Lc-25897; dried shell, H 117.0 high variability. In the present paper we consider N. mm. Bering Sea, 60°04’0 N, 168°20’7 E, 370 m, 21.12.1997. lyrata a complex of closely related species and (or) ZMMU, No. Lc-25898; dried shell, H 86.6 mm. Bering subspecies. Sea, 59°13’4 N, 166°28’8 E, 280-420 m, 25.09.2001. ZMMU, No. Lc-25899; shell with animal in alcohol, One of these numerous so-called “forms” of Nep- H 109.3 mm, male.
    [Show full text]
  • Energy Values of Marine Benthic Invertebrates from the Canadian Arctic
    MARINE ECOLOGY - PROGRESS SERIES Published September 10 Mar. Ecol. Prog. Ser. 1 Energy values of marine benthic invertebrates from the Canadian Arctic J. W. Wacasey, E. G.Atkinson Arctic Biological Station, Department of Fisheries and Oceans, 555 St. Pierre Boulevard, Ste-Anne-de-Bellevue, Quebec H9X 3R4,Canada ABSTRACT: Calonc values were determined for 121 species of cold-water benthic invertebrates, 109 of which are representative of a soft bottom community in Frobisher Bay, Northwest Territories (Canada). The mean calonc value for the community was 5.424 kcal g-' ash-free dry weight (SD f 0.403). This is not significantly different from values from lower latitudes, as has been suggested for planktonic communities. With one exception, the Ascidiacea, there were no significant differences in mean caloric value among major taxa. The lnterspecific distnbution of AFDW caloric value is discussed; present data support the growlng evidence that the natural pattern is symmetrical with values concentrated about a mean of 5.4 to 5.7 kcal g-' AFDW for benthic invertebrates. Caloric equivalents for biomass estimates and large-scale community comparisons may be derived from the regression of dry weight caloric value on percent organic content (dry weight): Y (kcal g-' AFDW) = -0.3897 + 0.0605 X (% organic content). when the organic fraction is determined directly. Two problematical taxa, Porifera and Echinodermata, are discussed and separate regressions are presented. INTRODUCTION community mean value, taxonomic variations, and interspecific distribution pattern of caloric values is Although energy values of many cold-water marine discussed. The relationships between caloric value and zoobenthic invertebrates are available (Ellis 1960, organic content gives equations from which fast, reli- Brawn et al.
    [Show full text]