<I>Tellina Martinicensis</I>

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Donacidae - Bivalvia)
Bolm. Zool., Univ. S. P aub 3:121-142, 1978 FUNCTIONAL ANATOMY OF DON AX HANLEY ANUS PHILIPPI 1847 (DONACIDAE - BIVALVIA) Walter Narchi Department o f Zoology University o f São Paulo, Brazil ABSTRACT Donax hanleyanus Philippi 1847 occurs throughout the southern half o f the Brazilian littoral. The main organ systems were studied in the living animal, particular attention being paid to the cilia ry feeding and cleasing mechanisms in the mantle cavity. The anatomy, functioning of the stomach and the ciliary sorting mechanisms are described. The stomach unlike that of almost all species of Donax and like the majority of the Tellinacea belongs to type V, as defined by Purchon, and could be regarded as advanced for the Donacidae. A general comparison has been made between the known species of Donax and some features of Iphigenia brasiliensis Lamarck 1818, also a donacid. INTRODUCTION Very little is known of donacid bivalves from the Brazilian littoral. Except for the publications of Narchi (1972; 1974) on Iphigenia brasiliensis and some ecological and adaptative features on Donax hanleyanus, all references to them are brief descrip tions of the shell and cheklists drawn up from systematic surveys. Beach clams of the genus Donax inhabit intertidal sandy shores in most parts of the world. Donax hanleyanus Philippi 1847 is one of four species occuring through out the Brazilian littoral. Its known range includes Espirito Santo State and the sou thern Atlantic shoreline down to Uruguay (Rios, 1975). According to Penchaszadeh & Olivier (1975) the species occur in the littoral of Argentina. 122 Walter Narchi The species is fairly common in São Paulo, Parana and Santa Catarina States whe re it is used as food by the coastal population (Goffeijé, 1950), and is known as “na- nini” It is known by the name “beguara” (Ihering, 1897) in the Iguape region, but not in S.
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Distribution, Abundance, and Diversity of Epifaunal Benthic Organisms in Alitak and Ugak Bays, Kodiak Island, Alaska
DISTRIBUTION, ABUNDANCE, AND DIVERSITY OF EPIFAUNAL BENTHIC ORGANISMS IN ALITAK AND UGAK BAYS, KODIAK ISLAND, ALASKA 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 517 October 1977 279 We thank the following for assistance during this study: the crew of the MV Big Valley; Pete Jackson and James Blackburn of the Alaska Department of Fish and Game, Kodiak, for their assistance in a cooperative benthic trawl study; and University of Alaska Institute of Marine Science personnel Rosemary Hobson for assistance in data processing, Max Hoberg for shipboard assistance, and Nora Foster for taxonomic assistance. 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 Environment Assessment Program (OCSEAP). SUMMARY OF OBJECTIVES, CONCLUSIONS, AND IMPLICATIONS WITH RESPECT TO OCS OIL AND GAS DEVELOPMENT Little is known about the biology of the invertebrate components of the shallow, nearshore benthos of the bays of Kodiak Island, and yet these components may be the ones most significantly affected by the impact of oil derived from offshore petroleum operations. Baseline information on species composition is essential before industrial activities take place in waters adjacent to Kodiak Island. It was the intent of this investigation to collect information on the composition, distribution, and biology of the epifaunal invertebrate components of two bays of Kodiak Island. The specific objectives of this study were: 1) A qualitative inventory of dominant benthic invertebrate epifaunal species within two study sites (Alitak and Ugak bays).
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The Molluscan Fauna of the Alum Bluff Group of Florida Part V
UNITED STATES DEPARTMENT OF THE INTERIOR THE MOLLUSCAN FAUNA OF THE ALUM BLUFF GROUP OF FLORIDA PART V. TELLINACEA, SOLENACEA, MACTRACEA MYACEA, MOLLUSCOIDEA GEOLOGICAL SURVEY PROFESSIONAL PAPER 142-E Please do not destroy or throw away this publication. If you have no further use for it, write to the Geological Survey at Washington and ask for a frank to return it DEPARTMENT OF THE INTERIOR Hubert Work, Secretary U. S. GEOLOGICAL SURVEY George Otis Smith, Director Professional Paper 142 E THE MOLLUSGAN FAUNA OF THE ALUM BLUFF GROUP OF FLORIDA BY JULIA GARDNER PART v. TELLINACEA, SOLENACEA, MACTRACEA, MYACEA, MOLLUSCOIDEA Published June 5,1928 (Pages 185-249) UNITED STATES GOVERNMENT PRINTING OFFICE WASHINGTON 1928 For sale by the Superintendent of Documents, U. S. Government Printing Office, Washington 2.5, D. C. CONTENTS Page Page Introduction.__..___._-._______________________ .__ 185 Svstematic descriptions Continued. Systematic descriptions.___________________________ 189 Phylum Mollusca Continued. Phylum Mollusca__-_-___-_-________.________ 189 Class Pelecypoda Continued. Class Pelecypoda---_--__-_-_-___-__.______ 189 Order Teleodesmacea Continued. Order Teleodesmacea__________________ 189 Superfamily Myacea.__--__--______ 226 Superfamily Tellinacea-____________ 189 Family Corbulidae___-_--______ 226 Family Tellinidae___________ 189 Family Spheniopsidae._________ 236 Family Semelidae. ____________ 203 Family Saxicavidae. ___________ 237 Family Donacidae___--___--___ 211 Family Gastrochaenidae._______ 238 Family Psammobiidae.-.__.-___ 213 Phylum Molluscoidea.-.----------------------- 239 Superfamily Solenacea_____________ 216 Class Brachiopoda___---_-_-_--__-_-------_ 239 Family Solenidae. _____________ 217 Order Neotremata.____________________ 239 Superfamily Mactracea_____._-_.___ 218 Superfamily Discinacea____________ 239 Family Mactridae____-__-___-_ 219 Family Discinidae.____________ 239 Family Mesodesmatidae._______ 223 Index.___________________________________________ i ILLUSTRATIONS Page PLATES XXIX-XXXII.
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Marine Ecology Progress Series 373:25–35 (2008)
The following appendices accompany the article Distributional overlap rather than habitat differentiation characterizes co-occurrence of bivalves in intertidal soft sediment systems Tanya J. Compton1, 2, 3,*, Tineke A. Troost1, Jaap van der Meer1, Casper Kraan1, 2, Pieter J. C. Honkoop1, Danny I. Rogers4, Grant B. Pearson3, Petra de Goeij1, Pierrick Bocher5, Marc S. S. Lavaleye1, Jutta Leyrer1, 2, Mick G. Yates6, Anne Dekinga1, Theunis Piersma1, 2 1Department of Marine Ecology, Royal Netherlands Institute for Sea Research (NIOZ), PO Box 59, 1790 AB Den Burg, Texel, The Netherlands 2Centre for Ecological and Evolutionary Studies, University of Groningen, PO Box 14, 9750 AA Haren, The Netherlands 3Western Australian Department of Environment and Conservation (DEC), WA Wildlife Research Centre, PO Box 51, Wanneroo, Western Australia 6065, Australia 4Institute of Land, Water and Society, Charles Sturt University, PO Box 789, Albury, New South Wales 2640, Australia 5Centre de Recherche sur les Ecosystèmes Littoraux Anthropisés (CRELA), UMR 6217, Pôle science, CNRS-IFREMER-Université de la Rochelle, La Rochelle 17042, France 6Centre for Ecology and Hydrology — Monks Wood, Abbots Ripton, Huntingdon, Cambridgeshire PE28 2LS, UK *Email: [email protected] Marine Ecology Progress Series 373:25–35 (2008) Appendix 1. Maps showing the gridding programme in each system. Benthic sampling points are shown as small dots; sediment sample points are indicated as larger dots. Median grain size values are shown in categories (Wentworth scale). Darker colours are muddy sample points, whereas lighter colours are sandier. The map of the German Wadden Sea has been divided to show the grid sampling at each location (A: 54° 32’ N, 8° 34’ E; B: 53° 59’ N, 8° 51’ E) 2 Appendix 1 (continued) Appendix 1 (continued) 3 4 Appendix 1 (continued) 5 Appendix 2.
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Inverse Life Positions of Three Species in the Genus Cadella (Bivalvia: Tellinidae)
Molluscan Research 30(1): 25–28 ISSN 1323-5818 http://www.mapress.com/mr/ Magnolia Press Inverse life positions of three species in the genus Cadella (Bivalvia: Tellinidae) SUGURU UJINO¹ & AKIHIKO MATSUKUMA² ¹Department of Earth and Planetary Sciences, Graduate School of Sciences, Kyushu University, 6-10-1 Hakozaki, Higashi-ku, Fukuoka,812-8581, Japan. Email [email protected] ²Kyushu University Museum, address as above. Abstract Bivalves have particular life orientations for each species. Species of Tellinidae and Semelidae burrow in sediment and are ori- entated with their commissure plane nearly horizontal and almost always rest on their left side. However, three species of the tellinid genus Cadella, which have the commissure plane nearly horizontal, lie on their right side. It is suggested that this reversed orientation in Cadella is an inversion of the normal left side orientation and appears to be the first example of behav- ioural inversion in bivalves. Key words: Infaunal bivalves, Cadella, Tellinidae, burrowing behaviour Introduction Infaunal bivalves are known to position and orient them- TABLE 1. Literature records of life orientations of the Tellinidae selves in the substrata in a way that is distinctive for each and Semelidae. Eurytellina, Fabulina, Angulus, Scissula and species, which is referred to as ‘life position’ or ‘life orienta- Tellinella are regarded as Tellina in Holme (1961) and Stanley tion’ (e.g. Stanley 1970; Fürsich 1980; Kondo 1987). The (1970). orientations in life of these bivalves can be divided into two Resting Species name References types, one with their commissure plane nearly vertical, and side the other with it inclined.
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Benthic Invertebrate Species Richness & Diversity At
BBEENNTTHHIICC INVVEERTTEEBBRRAATTEE SPPEECCIIEESSRRIICCHHNNEESSSS && DDIIVVEERRSSIITTYYAATT DIIFFFFEERRENNTTHHAABBIITTAATTSS IINN TTHHEEGGRREEAATEERR CCHHAARRLLOOTTTTEE HAARRBBOORRSSYYSSTTEEMM Charlotte Harbor National Estuary Program 1926 Victoria Avenue Fort Myers, Florida 33901 March 2007 Mote Marine Laboratory Technical Report No. 1169 The Charlotte Harbor National Estuary Program is a partnership of citizens, elected officials, resource managers and commercial and recreational resource users working to improve the water quality and ecological integrity of the greater Charlotte Harbor watershed. A cooperative decision-making process is used within the program to address diverse resource management concerns in the 4,400 square mile study area. Many of these partners also financially support the Program, which, in turn, affords the Program opportunities to fund projects such as this. The entities that have financially supported the program include the following: U.S. Environmental Protection Agency Southwest Florida Water Management District South Florida Water Management District Florida Department of Environmental Protection Florida Coastal Zone Management Program Peace River/Manasota Regional Water Supply Authority Polk, Sarasota, Manatee, Lee, Charlotte, DeSoto and Hardee Counties Cities of Sanibel, Cape Coral, Fort Myers, Punta Gorda, North Port, Venice and Fort Myers Beach and the Southwest Florida Regional Planning Council. ACKNOWLEDGMENTS This document was prepared with support from the Charlotte Harbor National Estuary Program with supplemental support from Mote Marine Laboratory. The project was conducted through the Benthic Ecology Program of Mote's Center for Coastal Ecology. Mote staff project participants included: Principal Investigator James K. Culter; Field Biologists and Invertebrate Taxonomists, Jay R. Leverone, Debi Ingrao, Anamari Boyes, Bernadette Hohmann and Lucas Jennings; Data Management, Jay Sprinkel and Janet Gannon; Sediment Analysis, Jon Perry and Ari Nissanka.
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Notes on the Mode of Life of the Tellinidae (Lamellibranchia)
J. mar. biol. Ass. U.K. (1961) 41, 699-703 Printed in Great Britain NOTES ON THE MODE OF LIFE OF THE TELLINIDAE (LAMELLIBRANCHIA) By N. A. HOLME The Plymouth Laboratory (Text-figs. 1-3) Ten species of Tellinidae occur in British waters, belonging to the genera Arcopagia, Tellina, Gastrana and Macoma (Winckworth, 1932, 1951). This paper is concerned only with Arcopagia crassa, and the commoner species of Tellina: T. squalida, T. tenuis, T. fabula, T. donacina and T. pygmaea. These species burrow in sands, muds or gravels, maintaining connexion with the overlying water through their long and extensile siphons. Some account of the habitat of individual species is given by Yonge (1949). The majority of burrowing lamellibranchs occupy a more-or-less vertical position when buried, but a few (e.g. Cochlodesma, see Allen, 1958) lie horizontally beneath the surface. While studying dispersal in a population of T. tenuis (Holme, 1950), it was noticed that the majority of specimens excavated at low tide lay on their sides, but it was not at the time appreciated that they always lay with one side, the right, uppermost. Yonge (1949) assumed that members of the Tellinidae occupy a vertical position when buried, but he is of the opinion (personal communication) that T. tenuis makes considerable vertical movements in the sand according to the state of the tide, so that the position in which it is found at low tide may be rather different from that when covered by water. Both MacGinitie (1935) and Fitch (1953) record that the North American shore clam Macoma nasuta lies on its left side, the posterior end of the shell, which is curved to the right, being inclined upwards, so that it seemed possible that other members of the Tellinidae might show similar habits.
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Stratigraphical Notes on Macoma (Bivalvia) in the Southern Part of the North Sea Basin and Some Remarks on the Arrival of Pacific Species
Stratigraphical notes on Macoma (Bivalvia) in the southern part of the North Sea Basin and some remarks on the arrival of Pacific species T. Meijer T. Meijer. Stratigraphical notes on Macoma (Bivalvia) in the southern part of the North Sea Basin and some remarks on the arrival of Pacific species. — Scripta Geol., Spec. Issue 2: 297-312, 2 Figs., Leiden, December 1993. T. Meijer, Rijks Geologische Dienst, Postbus 157, 2000 AD Haarlem, The Netherlands. Key words: Neogene, Quaternary, North Sea Basin, Pacific immigration, Bivalvia, Macoma. The stratigraphical occurrence in the southern North Sea Basin of the marine bivalve genus Macoma is reviewed. New data concerning first and last appearances are presented. Especially the first appearance of Macoma balthica and the last appearances of M. obliqua and M. praetenuis are discussed. M. balthica appears in the late Middle Tiglian (Early Pleistocene). M. obliqua has been found in offshore deposits dating from the climatic optimum of the last interglacial, the Eemian. M. praetenuis occurs in deposits just underlying the Eemian deposits. The age of these underlying deposits is uncertain but may be Late Saalian/Early Eemian. Both latter species were previously considered to be extinct after the late Middle Tiglian. The age of the arrival of 'Pacific' species in the North Sea Basin in the Pliocene is briefly dis• cussed. Contents Introduction 297 Discussion of the species 298 Conclusions 306 Remarks on the first appearance of Pacific species in the North Sea 309 References 309 Introduction In Neogene and Quaternary deposits of the southern North Sea Basin the marine bivalve genus Macoma (s.s.) is represented with the following four species: Macoma balthica (Linné, 1758) Macoma calcarea (Gmelin, 1791) Macoma obliqua (Sowerby, 1817) Macoma praetenuis (Leathes in Woodward, 1833).
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Three New Species of Tellina (Bivalvia, Tellinidae) from the Panamic Province
Zootaxa 2715: 55–58 (2010) ISSN 1175-5326 (print edition) www.mapress.com/zootaxa/ Correspondence ZOOTAXA Copyright © 2010 · Magnolia Press ISSN 1175-5334 (online edition) Three new species of Tellina (Bivalvia, Tellinidae) from the Panamic Province EUGENE V. COAN1 & PAUL VALENTICH-SCOTT2 Santa Barbara Museum of Natural History, 2559 Puesta del Sol Road, Santa Barbara, California 93105, USA. E-mail: [email protected]; [email protected] In preparing a manual on the marine bivalves of the Panamic Province, we have found three species of the Tellinidae that lack names. The purpose of this paper is to describe a new species of Tellina (Hertellina), a new species of Tellina (Merisca), and a new species of Tellina (Acorylus). The subgenus Acorylus is reported for the first time from the eastern Pacific Ocean. Abbreviations: BMNH—The Natural History Museum, London; CAS—California Academy of Sciences, San Francisco, California; LACM—Natural History Museum of Los Angeles County, Los Angeles, California; SBMNH—Santa Barbara Museum of Natural History, Santa Barbara, California; UMML—University of Miami Marine Laboratory, Miami, Florida; USNM—United States National Museum of Natural History, Washington, D.C. Genus Tellina Linnaeus, 1758 Tellina Linnaeus, 1758. Type species (subsequent designation of Children, 1823): Tellina radiata Linnaeus, 1758. Recent, Caribbean. Shell elongate, compressed; hinge plate with two cardinal teeth in each valve and lateral teeth in one or both valves, sometimes overgrown in adults; often brightly colored and elegantly sculptured. Subgenus Hertellina Olsson, 1961 Hertellina Olsson, 1961. Type species (original designation): Tellina nicoyana Hertlein & Strong, 1949 Shell ovate elongate, thin shelled; sculpture of commarginal striae that become oblique toward posterior end; lateral teeth prominent in right valve; pallial sinuses not approaching anterior adductor muscle scars.
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2,400 Years of Malacology
Version 1.0 – June 16, 2004 2,400 Years of Malacology Eugene V. Coan1 Alan R. Kabat2 Richard E. Petit3 ABSTRACT This paper provides a comprehensive catalog of biographical and bibliographical publications for over 5,000 malacologists, conchologists, paleontologists, and others with an interest in mollusks, from Aristotle to the present. For each person, the birth/death years and nationality are given (when known), followed by bibliographic citations to the literature about that person and his/her collections and publications. Appendices provide citations to (1) publications on oceanographic expeditions that resulted in the collection and description of mollusks; (2) histories of malacological institutions and organizations; and (3) histories and dates of publication of malacological journals and journals that are frequently cited in malacological publications, such as those of the Zoological Society of London. TABLE OF CONTENTS Introduction 2 Materials and Methods 2 Narrative Guide to the Literature 4 General Publications 5 Geographical / Country Publications 7 Taxonomically Oriented Publications 12 Concluding Remarks 12 Future Plans 14 Acknowledgments 14 General References 15 Serials Indexed 22 General Bibliography 24 Appendix A: Publications on Expeditions 586 Appendix B: General Histories of Malacological Institutions and Societies 602 Appendix C: Information about Malacological Serials 610 1. [email protected] 2. [email protected] 3. [email protected] 1 INTRODUCTION Who was X? How can I find out more about X’s life, interests in mollusks, collections, and publications? Every generation of malacologists has been faced with this perennial problem, whether out of curiosity, or driven by a need to solve a problem relating to some aspect of molluscan taxonomy, systematics, or a wide range of other research and collection management issues.
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Three New Species of Tellina (Bivalvia, Tellinidae) from the Panamic Province
Zootaxa 2715: 55–58 (2010) ISSN 1175-5326 (print edition) www.mapress.com/zootaxa/ Correspondence ZOOTAXA Copyright © 2010 · Magnolia Press ISSN 1175-5334 (online edition) Three new species of Tellina (Bivalvia, Tellinidae) from the Panamic Province EUGENE V. COAN1 & PAUL VALENTICH-SCOTT2 Santa Barbara Museum of Natural History, 2559 Puesta del Sol Road, Santa Barbara, California 93105, USA. E-mail: [email protected]; [email protected] In preparing a manual on the marine bivalves of the Panamic Province, we have found three species of the Tellinidae that lack names. The purpose of this paper is to describe a new species of Tellina (Hertellina), a new species of Tellina (Merisca), and a new species of Tellina (Acorylus). The subgenus Acorylus is reported for the first time from the eastern Pacific Ocean. Abbreviations: BMNH—The Natural History Museum, London; CAS—California Academy of Sciences, San Francisco, California; LACM—Natural History Museum of Los Angeles County, Los Angeles, California; SBMNH—Santa Barbara Museum of Natural History, Santa Barbara, California; UMML—University of Miami Marine Laboratory, Miami, Florida; USNM—United States National Museum of Natural History, Washington, D.C. Genus Tellina Linnaeus, 1758 Tellina Linnaeus, 1758. Type species (subsequent designation of Children, 1823): Tellina radiata Linnaeus, 1758. Recent, Caribbean. Shell elongate, compressed; hinge plate with two cardinal teeth in each valve and lateral teeth in one or both valves, sometimes overgrown in adults; often brightly colored and elegantly sculptured. Subgenus Hertellina Olsson, 1961 Hertellina Olsson, 1961. Type species (original designation): Tellina nicoyana Hertlein & Strong, 1949 Shell ovate elongate, thin shelled; sculpture of commarginal striae that become oblique toward posterior end; lateral teeth prominent in right valve; pallial sinuses not approaching anterior adductor muscle scars.
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Oligocene Molluscan Biostratigraphy and Paleontology of the Lower Part of the Type Temblor Formation, California
Oligocene Molluscan Biostratigraphy and Paleontology of the Lower Part of the Type Temblor Formation, California GEOLOGICAL SURVEY PROFESSIONAL PAPER 791 Oligocene Molluscan Biostratigraphy and Paleontology of the Lower Part of the Type Temblor Formation, California By WARREN O. ADDICOTT GEOLOGICAL SURVEY PROFESSIONAL PAPER 791 Marine mollusks from the basal shale (Cymric Shale Member) and the overlying sandstone (Wygal Sandstone Member) are of provincial Oligocene age. Warm-water assemblages from the Wygal Sandstone Member represent a previously unrecognized biostratigraphic unit of late Oligocene age in California UNITED STATES GOVERNMENT PRINTING OFFICE, WASHINGTON : 1973 UNITED STATES DEPARTMENT OF THE INTERIOR ROGERS C. B. MORTON, Secretary GEOLOGICAL SURVEY V. E. McKelvey, Director Library of Congress catalog-card No. 72-600377 For sale by the Superintendent of Documents, U.S. Government Printing OfBce, Washington, D.C. 20402 Price: paper cover-$1.25, domestic postpaid; $1.00, GPO Bookstore Stock No. 2401-00284 CONTENTS Page Page Abstract ___________________________ 1 Systematic descriptions Continued Introduction _________________________ 1 Class Pelecypoda _____________ 22 Acknowledgments _____ _________________ 3 Order Nuculoida _________ 22 Reports dealing with mollusks from the lower part Family Nuculidae ____ 22 of the Temblor Formation ______________________ 3 Family Nuculanidae __ 22 Stratigraphy ____________________________ 4 Order Arcoida ___ ____ 23 Wygal Sandstone Member __________________ 4 Family Arcidae ______ 23 Provincial
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