DOCSLIB.ORG

Invertebrate Fauna of Korea

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Invertebrate Fauna of Korea Invertebrate Fauna of Korea Volume 19, Number 1 Mollusca: Gastropoda: Eupulmonata, Sorbeoconcha Gastropods I Flora and Fauna of Korea National Institute of Biological Resources Ministry of Environment National Institute of Biological Resources Ministry of Environment Russia CB Chungcheongbuk-do CN Chungcheongnam-do HB GB Gyeongsangbuk-do China GG Gyeonggi-do YG GN Gyeongsangnam-do GW Gangwon-do HB Hamgyeongbuk-do JG HN Hamgyeongnam-do HWB Hwanghaebuk-do HN HWN Hwanghaenam-do PB JB Jeollabuk-do JG Jagang-do JJ Jeju-do JN Jeollanam-do PN PB Pyeonganbuk-do PN Pyeongannam-do YG Yanggang-do HWB HWN GW East Sea GG GB (Ulleung-do) Yellow Sea CB CN GB JB GN JN JJ South Sea Invertebrate Fauna of Korea Volume 19, Number 1 Mollusca: Gastropoda: Eupulmonata, Sorbeoconcha Gastropods I 2013 National Institute of Biological Resources Ministry of Environment Invertebrate Fauna of Korea Volume 19, Number 1 Mollusca: Gastropoda: Eupulmonata, Sorbeoconcha Gastropods I Jun-Sang Lee Kangwon National University Copyright ⓒ 2013 by the National Institute of Biological Resources Published by the National Institute of Biological Resources Environmental Research Complex, Hwangyeong-ro 42, Seo-gu Incheon, 404-708, Republic of Korea www.nibr.go.kr All rights reserved. No part of this book may be reproduced, stored in a retrieval system, or transmitted, in any form or by any means, electronic, mechanical, photocopying, recording, or otherwise, without the prior permission of the National Institute of Biological Resources. ISBN : 9788968110580-96470 Government Publications Registration Number 11-1480592-000639-01 Printed by Junghaengsa, Inc. in Korea on acid-free paper Publisher : Sang Pal Lee Project Staff : Joo-Lae Cho, Ye Eun, Sang-Hoon Han Published on December 20, 2013 The Flora and Fauna of Korea logo was designed to represent six major target groups of the project including vertebrates, invertebrates, insects, algae, fungi, and bacteria. The book cover and the logo were designed by Jee-Yeon Koo. Preface In 2010, the 10th Conference of the Parties of the Convention on Biological Diversity (CBD) adopted the Nagoya Protocol on access and benefit-sharing of biological resources. Since then, the national and international environment of the use and management of biological resources has been rapidly changed. Therefore, it is imperative to identify indigenous biological species in details and to build scientific data worthy of international recognition in order to take the initiative in bio-industry. The National Institute of Biological Resources of the Ministry of Environment has been publishing the Flora and Fauna of Korea to generally manage biological resources and to enhance national competitiveness by setting the foundation for the sovereignty over biological resources. Professional research group consisting of professors of taxonomy and related experts has systematically examined a variety of and wide range of taxa for the last 6 years since 2006. As a result, 90 issues of the Flora and Fauna of Korea, both in Korean and in English, covering a total of 8,888 species and 2 issues of World Monograph covering 216 species were published. And 30 issues of the Flora and Fauna of Korea, both in Korean and in English, covering 1,665 species of invertebrates, insects and algae are additionally published this year. These efforts serve to identify indigenous species living in Korea, to investigate biota, to improve the quality of national biological resources management and to provide the opportunity to lay the groundwork for the biotechnological industrialization of biological resources. I would like to express my sincere appreciation for those who spared no effort to publish the bio- logical magazines; Dr. Jun-Sang Lee of Kangwon National University. And I hope he will help to discover useful biological resources in Korea and to create high value-added activities including natural product, gene resource and medical substance development. Sang-pal Lee President National Institute of Biological Resources 1 Contents List of Taxa 3 Introduction 5 Materials and Methods 6 Taxonomic Notes 7 1. Volutopsius middendorffi middendorffi (Dall) 8 2. Lussivolutopsius furukawai (Oyama) 10 3. Pseudoliomesus ooides ooides (Middendorff) 11 4. Plicifusus (Plicifusus) aurantius (Dall) 13 5. Neptunea (Neptunea) polycostata polycostata Scarlato 14 6. Neptunea (Neptunea) intersculpta (Sowerby) 15 7. Neptunea (Neptunea) constricta (Dall) 16 8. Neptunea (Neptunea) lyrata (Gmelin) 17 9. Neptunea (Neptunea) elegantula Ito and Habe 18 10. Neptunea (Barbitonia) arthritica (Bernardi) 19 11. Neptunea (Barbitonia) cumingi Crosse 20 12. Neptunea (Barbitonia) subdilatata Yen 21 13. Siphonalia cassidariaeformis (Reeve) 23 14. Siphonalia fusoides (Reeve) 24 15. Siphonalia spadicea (Reeve) 24 16. Kelletia lischkei Kuroda 26 17. Japeuthria ferrea (Reeve) 27 18. Searlesia modesta (Gould) 28 19. Buccinum opisoplectum Dall 31 20. Buccinum middendorffi Verkrüzen 31 21. Buccinum ochotensis ochotensis (Middendorff) 32 22. Buccinum mirandum koreanum Choe, Yoon and Habe 33 23. Buccinum bayani (Jousseaume) 34 24. Buccinum osagawai Habe and Ito 35 25. Buccinum striatissimum Sowerby 36 26. Buccinum tenuissimum Kuroda 37 27. Buccinum rossicum Dall 38 28. Buccinum kushiroensis Habe and Ito 39 29. Buccinum yokomaruae Yamashita and Habe 40 30. Reticubuccinum acutispiratum (Dall) 41 31. Aegista (Aegista) chejuensis (Pilsbry and Hirase) 44 32. Aegista (Aegista) gottschei (Middendorff) 45 33. Aegista (Aegista) gottschei fusanica (Pilsbry) 47 34. Aegista (Aegista) pyramidata (Pilsbry) 49 35. Aegista (Aegista) proxima (Pilsbry and Hirase) 51 36. Aegista (Aegista) chosenica (Pilsbry) 52 2 Invertebrate Fauna of Korea·Gastropods I 37. Aegista (Aegista) hebes (Pilsbry) 54 38. Aegista (Aegista) tenuissima (Pilsbry and Hirase) 56 39. Aegista (Plectotropis) quelpartensis (Pilsbry and Hirase) 58 40. Aegista (Plectotropis) diversa Kuroda and Miyanaga 59 41. Lepidopisum verrucosum (Reinhardt) 61 42. Trishoplita ottoi (Pilsbry) 64 43. Acusta despecta sieboldiana (Pfeiffer) 66 44. Chosenelix problematica (Pilsbry) 68 45. Karaftohelix adamsi (Kuroda and Hukuda) 70 46. Koreanohadra kurodana (Pilsbry) 72 47. Koreanohadra koreana (Pfeiffer) 74 48. Euhadra herklotsi (v. Martens) 76 49. Euhadra dixoni (Pilsbry) 78 50. Nesiohelix samarangae Kuroda and Miyanaga 80 Literature Cited 83 Plates 88 Index to Korean Names 98 Index to Korean Names as Pronounced 100 Index to Scientific Names 102 3 List of Taxa Phylum Mollusca Linnaeus, 1758 Class Gastropoda Cuvier, 1797 Order Sorbeoconcha Ponder and Lindberg, 1997 Family Buccinidae Rafinesque, 1815 Subfamily Volutopsiinae Habe and Sato, 1973 Genus Volutopsius Mörch, 1857 Volutopsius middendorffi middendorffi (Dall, 1891) Genus Lussivolutopsius Kantor, 1983 Lussivolutopsius furukawai (Oyama, 1951) Subfamily Ancistrolepisinae Habe and Sato, 1973 Genus Pseudoliomesus Habe and Sato, 1973 Pseudoliomesus ooides ooides (Middendorff, 1848) Subfamily Neptuneinae Stimpson, 1865 Genus Plicifusus Dall, 1902 Plicifusus (Plicifusus) aurantius (Dall, 1907) Genus Neptunea Röding, 1798 Neptunea (Neptunea) polycostata polycostata Scarlato, 1952 Neptunea (Neptunea) intersculpta (Sowerby, 1899) Neptunea (Neptunea) constricta (Dall, 1907) Neptunea (Neptunea) lyrata (Gmelin, 1789) Neptunea (Neptunea) elegantula Ito and Habe, 1965 Neptunea (Barbitonia) arthritica (Bernardi, 1858) Neptunea (Barbitonia) cumingi Crosse, 1862 Neptunea (Barbitonia) subdilatata Yen, 1936 Subfamily Sipholiinae Finlay, 1928 Genus Siphonalia A. Adams, 1863 Siphonalia cassidariaeformis (Reeve, 1846) Siphonalia fusoides (Reeve, 1846) Siphonalia spadicea (Reeve, 1846) Genus Kelletia Fischer, 1884 Kelletia lischkei Kuroda, 1938 Subfamily Pisaniinae Gray, 1857 Genus Japeuthria Iredale, 1918 Japeuthria ferrea (Reeve, 1847) Genus Searlesia Harmer, 1915 Searlesia modesta (Gould, 1860) Subfamily Buccininae Rafinesque, 1815 Genus Buccinum Linnaeus, 1758 Buccinum opisoplectum Dall, 1907 Buccinum middendorffi Verkrüzen, 1882 Buccinum ochotensis ochotensis (Middendorff, 1848) 4 Invertebrate Fauna of Korea·Gastropods I Buccinum mirandum koreanum Choe, Yoon and Habe, 1992 Buccinum bayani (Jousseaume, 1883) Buccinum osagawai Habe and Ito, 1968 Buccinum striatissimum Sowerby, 1899 Buccinum tenuissimum Kuroda, 1933 Buccinum rossicum Dall, 1907 Buccinum kushiroensis Habe and Ito, 1976 Buccinum yokomaruae Yamashita and Habe, 1965 Genus Reticubuccinum Habe and Ito, 1980 Reticubuccinum acutispiratum (Dall, 1907) Order Eupulmonata Haszprunar and Huber, 1990 Family Bradybenidae Pilsbry, 1934 Subfamily Aegistinae Kuroda and Habe, 1949 Genus Aegista Albers, 1860 Subgenus Aegist Albers, 1850 Aegista (Aegista) chejuensis (Pilsbry and Hirase, 1908) Aegista (Aegista) gottschei (Middendorff, 1887) Aegista (Aegista) gottschei fusanica (Pilsbry, 1926) Aegista (Aegista) pyramidata (Pilsbry, 1926) Aegista (Aegista) proxima (Pilsbry and Hirase, 1909) Aegista (Aegista) chosenica (Pilsbry, 1926) Aegista (Aegista) hebes (Pilsbry, 1926) Aegista (Aegista) tenuissima (Pilsbry and Hirase, 1908) Subgenus Plectotropis Martens, 1860 Aegista (Plectotropis) quelpartensis (Pilsbry and Hirase, 1908) Aegista (Plectotropis) diversa Kuroda and Miyanaga, 1936 Genus Lepidopisum Habe, 1957 Lepidopisum verrucosum (Reinhardt, 1877) Genus Trishoplita Jacobi, 1898 Trishoplita ottoi (Pilsbry, 1926) Subfamily Bradybaeninae Pilsbry, 1934 Genus Acusta Albers, 1860 Acusta despecta sieboldiana (Pfeiffer, 1850) Genus Chosenelix Pilsbry, 1926 Chosenelix problematica (Pilsbry, 1926) Genus Karaftohelix
Load more

Recommended publications
  • The Peristerniinae (Mollusca: Gastropoda, Buccinoidea, Fasciolariidae) from the Neogene of Venezuela
    Cainozoic Research, 9(1), pp. 87-99, June 2012 The Peristerniinae (Mollusca: Gastropoda, Buccinoidea, Fasciolariidae) from the Neogene of Venezuela Bernard Landau!* & Geerat J. Vermeij" 1Centro de Geologia da Universidade de Lisboa. Campo Grande, 1749-016 Lisboa, Portugal and International Health Centres, Av. Infante de Henrique 7, Areias São João, P-8200 Albufeira, Portugal; [email protected] 2Department of Geology, University of California at Davis, One Shields Avenue, Davis, CA 95616 USA; gjver- [email protected] *Corresponding author Received: 15 April 2012; revised version accepted 16 April 2012 The Latirus-group of Peristerniinae Tryon, 1881 present in the early Miocene, late Burdigalian, Cantaure Formation assemblage of Ven- ezuela, and other less well-known Venezuelan Miocene assemblages, is described and discussed. Seven species taxa representing three genera are present in the northern Venezuelan Miocene assemblages, six are new to science; Hemipolygona snyderi nov. sp., Hemipoly- gona carrizalensis nov. sp., Polygona praeanapetes nov. sp., Polygona barbascoensis nov. sp., Polygona sepulcralis nov. sp. and Poly- gona buenevaraensis nov. sp. The presence of Pustulatirus tumbeziensis (Olsson, 1932) in the Cantaure Formation of Venezuela is con- firmed. For all three genera, Pustulatirus, Hemipolygona and Polygona these represent the earliest records in the Caribbean portion of the Tropical American Neogene Gatunian biogeographical province. KEY WORDS: Peristerniinae, Mollusca, Miocene, Cantaure Formation, Venezuela, new species Introduction Systematic palaeontology In this paper we continue with the description of the mol- Superfamily Buccinoidea Rafinesque, 1815 luscan assemblage found in the early Miocene, late Burdi- Family Fasciolariidae Gray, 1853 galian, Cantaure Formation of Venezuela, describing the Subfamily Peristerniinae Tryon, 1881 Latirus-group (sensu Vermeij & Snyder, 2006) of Genus Pustulatirus Vermeij & Snyder, 2006 Peristerniinae Tryon, 1881 found in these deposits.
    [Show full text]
  • Geometric Morphometric Analysis Reveals That the Shells of Male and Female Siphon Whelks Penion Chathamensis Are the Same Size and Shape Felix Vaux A, James S
    MOLLUSCAN RESEARCH, 2017 http://dx.doi.org/10.1080/13235818.2017.1279474 Geometric morphometric analysis reveals that the shells of male and female siphon whelks Penion chathamensis are the same size and shape Felix Vaux a, James S. Cramptonb,c, Bruce A. Marshalld, Steven A. Trewicka and Mary Morgan-Richardsa aEcology Group, Institute of Agriculture and Environment, Massey University, Palmerston North, New Zealand; bGNS Science, Lower Hutt, New Zealand; cSchool of Geography, Environment & Earth Sciences, Victoria University, Wellington, New Zealand; dMuseum of New Zealand Te Papa Tongarewa, Wellington, New Zealand ABSTRACT ARTICLE HISTORY Secondary sexual dimorphism can make the discrimination of intra and interspecific variation Received 11 July 2016 difficult, causing the identification of evolutionary lineages and classification of species to be Final version received challenging, particularly in palaeontology. Yet sexual dimorphism is an understudied research 14 December 2016 topic in dioecious marine snails. We use landmark-based geometric morphometric analysis to KEYWORDS investigate whether there is sexual dimorphism in the shell morphology of the siphon whelk Buccinulidae; conchology; Penion chathamensis. In contrast to studies of other snails, results strongly indicate that there fossil; geometric is no difference in the shape or size of shells between the sexes. A comparison of morphometrics; mating; P. chathamensis and a related species demonstrates that this result is unlikely to reflect a paleontology; reproduction; limitation of the method. The possibility that sexual dimorphism is not exhibited by at least secondary sexual some species of Penion is advantageous from a palaeontological perspective as there is a dimorphism; snail; true whelk rich fossil record for the genus across the Southern Hemisphere.
    [Show full text]
  • Status of the Fisheries Report an Update Through 2008
    STATUS OF THE FISHERIES REPORT AN UPDATE THROUGH 2008 Photo credit: Edgar Roberts. Report to the California Fish and Game Commission as directed by the Marine Life Management Act of 1998 Prepared by California Department of Fish and Game Marine Region August 2010 Acknowledgements Many of the fishery reviews in this report are updates of the reviews contained in California’s Living Marine Resources: A Status Report published in 2001. California’s Living Marine Resources provides a complete review of California’s three major marine ecosystems (nearshore, offshore, and bays and estuaries) and all the important plants and marine animals that dwell there. This report, along with the Updates for 2003 and 2006, is available on the Department’s website. All the reviews in this report were contributed by California Department of Fish and Game biologists unless another affiliation is indicated. Author’s names and email addresses are provided with each review. The Editor would like to thank the contributors for their efforts. All the contributors endeavored to make their reviews as accurate and up-to-date as possible. Additionally, thanks go to the photographers whose photos are included in this report. Editor Traci Larinto Senior Marine Biologist Specialist California Department of Fish and Game [email protected] Status of the Fisheries Report 2008 ii Table of Contents 1 Coonstripe Shrimp, Pandalus danae .................................................................1-1 2 Kellet’s Whelk, Kelletia kelletii ...........................................................................2-1
    [Show full text]
  • Caenogastropoda: Truncatelloidea) from the Aegean Islands: a Long Or Short Story?
    Org Divers Evol DOI 10.1007/s13127-015-0235-5 ORIGINAL ARTICLE Pseudamnicola Paulucci, 1878 (Caenogastropoda: Truncatelloidea) from the Aegean Islands: a long or short story? Magdalena Szarowska1 & Artur Osikowski2 & Sebastian Hofman2 & Andrzej Falniowski1 Received: 31 January 2015 /Accepted: 18 August 2015 # The Author(s) 2015. This article is published with open access at Springerlink.com Abstract The aims of the study were (i) to reveal the pattern entities coinciding with clades of the ML tree based on 44 of phylogeny of Pseudamnicola inhabiting the Aegean haplotypes and 189 sequences. The present pattern of diversi- Islands, (ii) to describe and analyse the variation of the mor- ty, together with dating of divergence time, reflects a short phology in 17 populations of Pseudamnicola from the springs story of colonisation/recolonisation, supported by the Late on the Aegean Islands not studied so far and considering also Pleistocene land bridges, rather than the consequences of ear- another seven populations studied earlier and (iii) to find out lier geological events. The principal component analysis which model is more applicable to the island Pseudamnicola (PCA) on the shells of the molecularly distinct clades showed populations: either a model in which a relict fauna rich in differences, although variability ranges often overlap. Female endemics is differentiated in a way that mainly reflects the reproductive organs showed no differences between the geological history of the area or a model in which a relatively clades, and penile characters differed only in some cases. young fauna is composed of more or less widely distributed taxa, with relatively high levels of gene flow among the Keywords mtDNA .
    [Show full text]
  • 공개특허공보(A) (43) 공개일자 2011년01월25일 (71) 출원인 (51) Int
    공개특허 10-2011-0007666 (19) 대한민국특허청(KR) (11) 공개번호 10-2011-0007666 (12) 공개특허공보(A) (43) 공개일자 2011년01월25일 (71) 출원인 (51) Int. Cl. 한국해양연구원 C12Q 1/68 (2006.01) C12N 15/11 (2006.01) 경기 안산시 상록구 사동 1270번지 (21) 출원번호 10-2009-0065213 (주)지노첵 (22) 출원일자 2009년07월17일 경기도 안산시 사1동 1271 한양대학교 창업보육센 심사청구일자 2009년07월17일 타 630호 (72) 발명자 이윤호 서울 강남구 도곡1동 961번지 현대아파트 2동 1011호 김충곤 경기도 용인시 수지구 상현동 만현마을 현대아이 파크 10단지 1002동 1401호 (뒷면에 계속) (74) 대리인 진천웅, 정종옥, 조현동 전체 청구항 수 : 총 12 항 (54) 해양생물의 종 판별 방법과 이에 따른 종 판별용 폴리뉴클레오티드 프로브, DNA 칩 및 키트 (57) 요 약 본 발명은 해양생물의 종 판별 방법과 이에 따른 종 판별용 폴리뉴클레오티드 프로브, DNA 칩 및 키트에 대한 것 으로, 해양생물로부터 추출한 DNA에 대해 중합효소연쇄반응(PCR)을 수행하여 PCR 산물을 얻는 단계; 상기 PCR 산 물을, 서열번호 9 내지 서열번호 41의 각 DNA 서열과 동일하거나 그에 상보적인(complementary) 염기서열을 각각 포함하는 프로브에 결합시키는 단계; 및, 상기 결합 여부에 따라 상기 해양생물이 속하는 종을 판별하는 단계;를 포함하는 것이 특징이다. 이러한 본 발명은 다양한 해양생물 종의 단염기다형성(single nucleotide polymorphism, SNPs)을 기반으로, 해양생물에 대한 유전자형을 분석하여, 간단하고 신속, 정확하게 종을 판별할 수 있는 효과가 있다. 대 표 도 - 도2 - 1 - 공개특허 10-2011-0007666 (72) 발명자 황승용 배세진 경기 안산시 단원구 고잔동 호수공원아파트 116동 경기도 안산시 단원구 고잔동 호수공원대림아파트 1202호 108동 702호 정진욱 김성 서울특별시 구로구 고척1동 334번지 벽산블루밍아 경기도 안산시 상록구 사2동 1429번지 301호 파트 206동 901호 정다금 김예림 충북 청주시 흥덕구 운천동 1296번지 경기도 안산시 상록구 본오3동 신안2차아파트 201 동 903호 김고은 윤현규 서울특별시 마포구 도화동 마포삼성아파트 108동 1601호 서울 양천구 신월3동 188-8 박흥식 서울특별시 동대문구 답십리1동 대우아파트 102동 1502호 - 2 - 공개특허 10-2011-0007666 특허청구의 범위 청구항 1 해양생물로부터 추출한 DNA에 대해 중합효소연쇄반응(PCR)을 수행하여 PCR 산물을 얻는 단계; 상기 PCR 산물을, 서열번호 9 내지 서열번호 41의 각 DNA 서열과 동일하거나 그에 상보적인(complementary) 염 기서열을 각각 포함하는 프로브에 결합시키는 단계; 및, 상기 결합 여부에 따라 상기 해양생물이 속하는 종을 판별하는 단계;를 포함하여 이루어지는 해양생물 종의 판 별 방법.
    [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]
  • 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]
  • Fish Bulletin 161. California Marine Fish Landings for 1972 and Designated Common Names of Certain Marine Organisms of California
    UC San Diego Fish Bulletin Title Fish Bulletin 161. California Marine Fish Landings For 1972 and Designated Common Names of Certain Marine Organisms of California Permalink https://escholarship.org/uc/item/93g734v0 Authors Pinkas, Leo Gates, Doyle E Frey, Herbert W Publication Date 1974 eScholarship.org Powered by the California Digital Library University of California STATE OF CALIFORNIA THE RESOURCES AGENCY OF CALIFORNIA DEPARTMENT OF FISH AND GAME FISH BULLETIN 161 California Marine Fish Landings For 1972 and Designated Common Names of Certain Marine Organisms of California By Leo Pinkas Marine Resources Region and By Doyle E. Gates and Herbert W. Frey > Marine Resources Region 1974 1 Figure 1. Geographical areas used to summarize California Fisheries statistics. 2 3 1. CALIFORNIA MARINE FISH LANDINGS FOR 1972 LEO PINKAS Marine Resources Region 1.1. INTRODUCTION The protection, propagation, and wise utilization of California's living marine resources (established as common property by statute, Section 1600, Fish and Game Code) is dependent upon the welding of biological, environment- al, economic, and sociological factors. Fundamental to each of these factors, as well as the entire management pro- cess, are harvest records. The California Department of Fish and Game began gathering commercial fisheries land- ing data in 1916. Commercial fish catches were first published in 1929 for the years 1926 and 1927. This report, the 32nd in the landing series, is for the calendar year 1972. It summarizes commercial fishing activities in marine as well as fresh waters and includes the catches of the sportfishing partyboat fleet. Preliminary landing data are published annually in the circular series which also enumerates certain fishery products produced from the catch.
    [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]
  • 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]
  • Entre Los Stylommatophora (Mollusca: Gastropoda)
    Rev. peru. biol. 16(1): 051- 056 (Agosto 2009) © Facultad de Ciencias Biológicas UNMSM Posición evolutiva de BOSTRYX y SCUTALUS dentroVersión de Online los Stylommatophora ISSN 1727-9933 Posición evolutiva de caracoles terrestres peruanos (Orthalicidae) entre los Stylommatophora (Mollusca: Gastropoda) Evolutionary position of Peruvian land snails (Orthalicidae) among Stylommatophora (Mollusca: Gastropoda) Jorge Ramirez1,2, Rina Ramírez1,2, Pedro Romero1,2, Ana Chumbe1,2, Pablo Ramírez3 1Laboratorio de Sistemática Mole- cular y Filogeografía, Facultad de Resumen Ciencias Biológicas, Universidad Nacional Mayor de San Marcos. Los géneros Bostryx y Scutalus (Orthalicidae: Bulimulinae) son endémicos de América del Sur y están principal- Email Jorge Ramirez: jolobio@ mente distribuidos en la vertiente occidental de los Andes del Perú. El objetivo del presente trabajo fue evaluar hotmail.com su posición evolutiva dentro de los gastrópodos Stylommatophora basada en el marcador mitocondrial 16S 2Departamento de Malacología y Carcinología, Museo de Historia rRNA. Fueron obtenidas cuatro secuencias las que, junto con 28 de otros Stylommatophora disponibles en el Natural, Universidad Nacional GenBank, fueron alineadas con ClustalX. La reconstrucción filogenética se realizó mediante los métodos de Mayor de San Marcos. Neighbor-Joining, Máxima Parsimonia, Máxima Verosimilitud e Inferencia Bayesiana. El alineamiento resultó en Av. Arenales 1256, Apartado 14- 371 sitios, con presencia de indels. Los dos géneros de la Familia Orthalicidae por primera vez incluidos en una 0434, Lima-14, Perú. Email Rina filogenia molecular (Bostryx y Scutalus), formaron un grupo monofilético con otro miembro de la superfamilia Ramírez: [email protected] Orthalicoidea (Placostylus), tal como lo obtenido con marcadores nucleares. Se discute también su relación 3Laboratorio de Microbiología Molecular, Facultad de Ciencias evolutiva con otros caracoles terrestres.
    [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]