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LISTE GÉNÉRALE DES MOLLUSQUES RECUEILLIS Les Mollusques ayant été traités clans plusieurs fascicules différents, il nous semble utile de donner une vue d'ensemble de toute la collection. Celle-ci com¬ prend 571 espèces et races géographiques, dont 9 espèces nouvelles. Ces espèces et races se répartissent comme suit parmi les différents groupes : Amphineura : 8, dont une nouvelle; Gastropoda prosobranchia : 348; Gastropoda opisthobranchia : 7, dont une nouvelle; Gastropoda pulmonata : 52, dont sept nouvelles; Scaphopoda : 1; Bivalvia : 142; Cephalopoda : 13. Dans le tableau suivant (p. 104) nous avons donné une liste systématique de toutes les espèces et races récoltées au cours du voyage, avec indications des lieux d'origine; les localités ont été groupées par île ou par groupe d'îles. Une liste complète des localités (J) a été donnée sous la carte I. Quoique la collection contienne un grand nombre d'espèces, elle ne suffit pas à donner un aperçu général de la faune malacologique de l'archipel Indien. (*) Dans cette liste nous avons rectifié quelques erreurs concernant l'orthographe des noms géographiques employés dans les fascicules précédents. 104 W. ADAM ET E. LELOUP. — GASTROPODA-PULMONATA, LIEUX D'ORIGINE (*). ESPÈCES. Publications (2). Java. Bali. Bornéo. Célèbes. Ternate. jjBanda. Guinée. Iles We.Poelo Sumatra. Soembawa. |Halmahera. Amboine. ||Misool.Arch. Nouvelle- Aroe. |Philippines. Amphineura. II, 13. Chiton reticulatus Nierstrasz II, 13, p. 16, pl. I, XX f. 5-8. Squamopleura curtlsiana (Smith) 11,13, p. 17, pl. I, f. 3. XX Squamopleura imitator Nierstrasz II, 13, p. 19, pl. I, XX XX f.1,2,4. Acanthopleura spiniger (Sowerby) II, 13,p. 19. XX XX XX XX XX XX XX Acantliopleura spinosa (Bruguière). ... II, 13,p. 24. X X Schizochiton incisus (Sowerby) II, 13,p. 25. XX Acanthochites leopoldi Leloup II, 13,p. 27. XX Crgptoplax larvaeformis (Burrow) II, 13,p. 30. XX Gastropoda Prosobranchia. Haliotis squamata Beeve II, 19, p. 5. X X Haliotis varia Linné II, 19, p. 5. XX XX X X XX X Haliotis glabra Chemnitz II, 19, p. 6. X Haliotis asinina Linné II, 19, p. 7. X X Hemitoma. panhi (Q. et G.) II, 19, p. 7. X Clypidina notata (Linné) 11,19, p. 8, pl. II, f. 1. X Diodora galeata (Helbling) II, 19, p. 8, f. 1, XX pl. II, f. 2. Patella pica Reeve II, 19,p. 10. X Cellana testudinaria (Linné) II, 19, p. 10, f. 2. XX X X X X Cellana rota (Gmelin) II, 19, p. 12, f. 3, X XX X pl. II, f. 3. Acmaea striata (Q. et G.) II, 19, p. 14, f. 4, XX X XX pl. II, f-4. Acmaea saccharina (Linné) II, 19, p. 15, f. 5. X XX XX *x X Acmaea crucis Tenison-Woods II, 19, p. 17, f. 6, XX pl. II, f. 5. Acmaea flammea (Q. et G.) II, 19, çl 18, f. 7, XX pl. II, f. 6. Gibbula cicer (Menke) II, 19, p. 19. X Cantharidus gilberti (Fischer) II, 19, p. 19, pl. II, X f. 7. Monodonta labio (Linné) II, 19,p. 20. X X X X X X X X Monodonta canalifera Lamarck II, 19,p. 21. X X (!) Le signe x signifie que le matériel est à sec; x x que le matériel contient l'animal et se trouve en alcool. (2) Dans les indications de la publication, le chiffre romain indique le numéro du volume, le numéro suivant celui du fascicule, les autres ceux des pages, planches et figures. f I i SCAPHOPODA ET BIYALVIA 105 LIEUX D'ORIGINE (suite). ai * ESPÈCES. Publications. o œ Java. Bali. o Bornéo. Banda. Guinée. 0H Célèbes. Ternate. Iles Sumatra. Soembawa. Halmahera. Amboine. Misool.Arch. Nouvelle- Aroe. |Philippines. Clanculus margarltarius (Philippi). ... 11,19, p. 21, pl. II, X f. 8. Clanculus atropurpureus (Gould) 11,19, p. 22, pl. II, X X f. 9. Trochus niloticus Linné II, 19, p. 22. X X X X X Trochus maximus Koch II, 19,p. 23. X X Trochus maculatus Linné II, 19, P-24, pl. II, X X X X X X f. 10. Trochus radiatus Gmelin II, 19,p. 25. X Trochus incrassatus Lamarck II, 19,p. 26. X X X Trochus pyramis Born II, 19,p. 26. X X X Trochus triserlalis Lamarck II, 19,p. 27. X Trochus fenestratus Gmelin II, 19, p. 27, f. 8. X X X X XX Trochus acutangulus Chemnitz II, 19, p. 29, pl. III, X f.l. Monilea callifera (Lamarck) II, 19, p. 29, pl. III, X X f. 2. Angaria delphinus (Linné) II, 19,p. 30. X X X X Turbo marmoratus Linné II, 19,p. 31. X X Turbo petholatus Linné II, 19,p. 31. X X X X Turbo chrysostomus Linné II, 19,p. 32. X X Turbo setosus Gmelin II, 19,p. 32. X X Turbo argyrostomus Linné 11,19, p. 33. X X X Turbo radiatus Gmelin II, 19, p. 34, pl. III, X X f. 3. Turbo bruneus (Röding) II, 19, p. 34, f. 9, XX X XX X XX pl. III, f. 4. Turbo cinereus Born II, 19. p. 37, f. 10, XX X X X X X pl. III, f. 5. Astraea calcar (Linné) II, 19, p. 40, pl. III, XXX X X f. 6. Phasianella histrio Reeve II, 19,p. 41. X Nerita plicata Linné II, 19, p. 41, f. 11, XX XX X X X XX pl. III, f. 8. Nerita costata Chemnitz II, 19, p. 43. f. 12, XX XX X X X X pl. III, f. 9. Nerita undata Linné II, 19, p. 45, f. 13, X XX XX X X XX X pl. III. f. 7. Nerita albicilla Linné II, 19, p. 48, f. 14. XX X XX X X XX X pl. IV, f. 1. Nerita exuvia Linné II, 19, p. 49, f. 15, X XX X pl. IV, f. 2. Nerita chamaeleon Linné II, 19, p. 50, pl. IV, X X f. 3. Nerita planospira Anton II, 19, P- 51, f. 16, XX XX pl. IV, f. 4. Nerita reticulata Karsten II, 19, p. 52, pl. IV, X X f. 5. 14 106 W. ADAM ET E. LELOUP. — GASTROPODA-PULMONATA, LIEUX D'ORIGINE (suite). CÖ > ESPÈCES. Publications. CÖ »-5 Bali. Bornéo. Célèbes. Ternate. |Banda. Guinée. Iles We.Poelo Sumatra. |Soembawa. |Halmahera. || Amboine. 1Arch.Misool. Nouvelle- Aroe. |Philippines. Nerita nigerrima Cliemnitz II, 19, p. 52, pl. IV, X f. 6. Nerita polila Linné II, 19, p. 53, f. 17, XX X X X XX XX pl. IV, f. 7. Nerita morio Sowerby II, 19, p. 54, pl. IV, X X f. 8. Nerita picea Récluz II, 19, p. 55, f. 18, XX X XX X pl. IV, f. 9. Nerita insculpta Récluz II, 19, p. 57, pl. IV, X X f. 10. Theodoxus corona (Linné) II, 19, p. 58, f. 19. XX X Theodoxus wallacei (Dohrn) II, 19, p. 59, f. 20, XX pl. I, f. 1. Neritina bicolor (Récluz) II, 19, p. 63, pl. IV, X f. 15. Neritina fuliginosa v. d. Busch II, 19, p. 63, pl. IV, X f. 11. Neritina gagates Lamarck II, 19, p. 64, pl. IV, X f. 12. Neritina perottetiana Récluz II, 19, p. 64, pl. IV, X f. 13. Neritina pulligera (Linné) II, 19,p. 65. X Neritina sowerbiana (Récluz) II, 19, p. 65, pl. IV, X X f. 14. Neritina variegata Lesson II, 19, p. 66, f. 21. X X XX Septaria janelli (Récluz) II, 19, p. 67. f. 22, XX pl.IV.f. 16. Geophorus oxytropis (Gray) II, 19,p. 68. X Suifurina parva (Sowerby) II, 19,p. 68. X Aphanoconia musiva (Gould) II, 19,p. 69. X Leptopoma perlucida (Grateloup) II, 19, p. 69, f. 23, X XX X XX pl. V.f.l. X Theobaldius dautzenbergi (Fulton). ... II, 19, p. 71. Cyclophorus egregius v. Mariens II, 19,p. 71. XX Cyclophorus eximius (Mousson) II, 19,p. 71. X Cyclophorus tuba (Sowerby) II, 19, p. 71. X Pterocyclus barnensis Rolle II, 19, p. 72. X Cyclotus guttatus (Pfeiffer) II, 19, p. 72. X Pupina superba Pfeiffer II, 19, p. 72. X Pupinella luteola Braucsic II, 20, p. 101. X Viviparus fragilis Preston II, 19, p. 73, f. 24. XX Viviparus javanicus (v. d. Busch) II, 19, p. 73, pl. V, XX X f. 2. Pila ampullacea (Linné) II, 19, p. 74. X Pila conica Gray II, 19,p. 75. X XX XX SCAPHOPODA ET BIVALVIA 107 LIEUX D'ORIGINE (suite). ESPÈCES. Publications. Java. Bali. Bornéo. Célèbes. Ternate. Banda. Guinée. Iles We.Poelo Sumatra. Soembawa. Halmahera. Amboine. Misool.Arch. Nouvelle- Aroe. Philippines. Littorina scabra (Linné) II, 19, p. 75, f. 25, X X XX XX XX pl. I, f. 2. Littorina undulata Gray II, 19, p. 77, XX XX X XX X XX XX II, 20, p. 101. Tectarius bullalus (Martyn) II, 19, p. 79. XX Tectarius granularls (Gray) II, 19, p. 80, f. 27. XX XX X Tectarius malaccanus (Philippi) 11,19, p. 81, f. 28. XX X X Tectarius pagodus (Linné) II, 19, p. 82. X Truncatella valida Pfeiffer II, 19, p. 82, pl. V, X f. 3. Architectonica perspectiva (L.) II, 19,p. 83. X Architectonica picta (Philippi) II, 19,p. 83. X Philippia oxytropis Adams II, 19, p. 84, pl.V, X f. 4. Brotia perfecta (Mousson) II, 19, p. 84, f. 29, XX pl.V, f. 5. Brotia variabilis (Benson) 11,19, p. 85, f. 30. XX Sulcospira testudinaria (v. d. Busch) ... 11,19, p. 87, f. 31. XX Faunus ater (Linné) 11,19, p. 88. X Melania diadema Lea 11,19, p. 89. X Melania winteri v. d. Busch 11,19, p.
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  • Alien Species in the Mediterranean Sea by 2010

    Alien Species in the Mediterranean Sea by 2010

    Mediterranean Marine Science Review Article Indexed in WoS (Web of Science, ISI Thomson) The journal is available on line at http://www.medit-mar-sc.net Alien species in the Mediterranean Sea by 2010. A contribution to the application of European Union’s Marine Strategy Framework Directive (MSFD). Part I. Spatial distribution A. ZENETOS 1, S. GOFAS 2, M. VERLAQUE 3, M.E. INAR 4, J.E. GARCI’A RASO 5, C.N. BIANCHI 6, C. MORRI 6, E. AZZURRO 7, M. BILECENOGLU 8, C. FROGLIA 9, I. SIOKOU 10 , D. VIOLANTI 11 , A. SFRISO 12 , G. SAN MART N 13 , A. GIANGRANDE 14 , T. KATA AN 4, E. BALLESTEROS 15 , A. RAMOS-ESPLA ’16 , F. MASTROTOTARO 17 , O. OCA A 18 , A. ZINGONE 19 , M.C. GAMBI 19 and N. STREFTARIS 10 1 Institute of Marine Biological Resources, Hellenic Centre for Marine Research, P.O. Box 712, 19013 Anavissos, Hellas 2 Departamento de Biologia Animal, Facultad de Ciencias, Universidad de Ma ’laga, E-29071 Ma ’laga, Spain 3 UMR 6540, DIMAR, COM, CNRS, Université de la Méditerranée, France 4 Ege University, Faculty of Fisheries, Department of Hydrobiology, 35100 Bornova, Izmir, Turkey 5 Departamento de Biologia Animal, Facultad de Ciencias, Universidad de Ma ’laga, E-29071 Ma ’laga, Spain 6 DipTeRis (Dipartimento per lo studio del Territorio e della sue Risorse), University of Genoa, Corso Europa 26, 16132 Genova, Italy 7 Institut de Ciències del Mar (CSIC) Passeig Mar tim de la Barceloneta, 37-49, E-08003 Barcelona, Spain 8 Adnan Menderes University, Faculty of Arts & Sciences, Department of Biology, 09010 Aydin, Turkey 9 c\o CNR-ISMAR, Sede Ancona, Largo Fiera della Pesca, 60125 Ancona, Italy 10 Institute of Oceanography, Hellenic Centre for Marine Research, P.O.
  • Marine Molluscs in Environmental Monitoring II

    Marine Molluscs in Environmental Monitoring II

    Helgol Mar Res (2003) 57:206–211 DOI 10.1007/s10152-003-0155-1 ORIGINAL ARTICLE Vladimir Bresler · Ofer Mokady · Lev Fishelson · Tamar Feldstein · Avigdor Abelson Marine molluscs in environmental monitoring II. Experimental exposure to selected pollutants Received: 24 September 2002 / Revised: 30 May 2003 / Accepted: 12 June 2003 / Published online: 7 August 2003 Springer-Verlag and AWI 2003 Abstract In an effort to establish biomonitoring pro- Keywords Cadmium · DDT · Littoral molluscs · grammes for routine and emergency monitoring of littoral Mediterranean Sea · Red Sea marine habitats, organismal responses are examined in two ways: firstly, in controlled, laboratory studies, where the response may be accurately characterized; secondly, Introduction in field-collected specimens, with the hope of obtaining evidence regarding disturbances such as the ones caused In recent decades, coastal zones worldwide have experi- by anthropogenic pollution. In many cases, there is a gap enced accelerated urban and industrial development between the two types of studies, and different species leading to increasingly heavy effluent loads on littoral and experimental and/or analytical procedures are used. marine ecosystems. One of the prominent symptoms of In a series of recent studies, we have examined responses ecosystem deterioration is a decline or disappearance of of field-collected molluscs, and interpreted our findings populations of sensitive species. However, other species with respect to pollution. Here, we report a complemen- in the same habitat sometimes display a remarkable tary study, in which molluscs collected from reference resistance, which may be attributed to a range of and polluted sites were exposed to cadmium or DDT preventive responses, enabling them to withstand envi- under controlled laboratory conditions.
  • Marine Molluscs in Environmental Monitoring III

    Marine Molluscs in Environmental Monitoring III

    Helgol Mar Res (2003) 57:212–219 DOI 10.1007/s10152-003-0156-0 ORIGINAL ARTICLE Tamar Feldstein · Yoel Kashman · Avigdor Abelson · Lev Fishelson · Ofer Mokady · Vladimir Bresler · Yigal Erel Marine molluscs in environmental monitoring III. Trace metals and organic pollutants in animal tissue and sediments Received: 24 September 2002 / Revised: 30 May 2003 / Accepted: 12 June 2003 / Published online: 25 July 2003 Springer-Verlag and AWI 2003 Abstract Concentrations of trace elements and organic effects between these compounds and between them and pollutants were determined in marine sediments and metals can lead to acute toxicity. molluscs from the Mediterranean and Red Sea coasts of Israel. Two bivalve species (Donax trunculus, Pteria Keywords Chemical monitoring · Marine pollution · aegyptia), two gastropod species (Patella caerulea, Heavy metals · Trace elements · Bio-concentration Cellana rota) and sediments were sampled at polluted and relatively clean, reference, sites. Along the Mediter- ranean coast of Israel, sediments and molluscs from Haifa Introduction Bay stations were enriched with both organic and trace element contaminants. In the Red Sea, differences More than half the world’s population lives within 60 km between the polluted and reference sites were less of the shoreline, and this could rise to three-quarters by pronounced. Bio-concentration factors indicate a signif- the year 2020. Adverse anthropogenic effects on the icant concentration of Zn, As, Cd, Sn and Pb in animal coastal environment include eutrophication, heavy metals, tissue relative to the concentrations of these elements in organic and microbial pollution and oil spills (Kingston the sediments. In contrast, Ce, La and U were not 1992; Costello and Read 1994; Muir et al.
  • 2. the Fortified Settlement of Macapainara, Lautem District, Timor‑Leste 15

    2. the Fortified Settlement of Macapainara, Lautem District, Timor‑Leste 15

    2 The fortified settlement of Macapainara, Lautem District, Timor‑Leste Sue O’Connor, David Bulbeck, Noel Amano Jr, Philip J. Piper, Sally Brockwell, Andrew McWilliam, Jack N. Fenner, Jack O’Connor- Veth, Rose Whitau, Tim Maloney, Michelle C. Langley, Mirani Litster, James Lankton, Bernard Gratuze, William R. Dickinson, Anthony Barham and Richard C. Willan Introduction The hilltop location known as Macapainara is an extensive fortified settlement complex near the modern coastal village of Com (Figure 2.1). Although the settlement is no longer occupied, families living in the modern harbour village of Com identify it as their ancestral homeland and visit the ancestral graves in the settlement to perform rituals. Macapainara is 175 m above sea level and approximately 2 km in from the northern coastline of Timor-Leste (Figure 2.1). In 2008, excavations were carried out within the walls in order to assess the nature and chronology of occupation. The phenomenon of fort building and its chronology in Timor-Leste have been examined elsewhere (Fenner and Bulbeck 2013; O’Connor et al. 2012). Here we focus on describing the excavated cultural assemblage. The Macapainara settlement occurs over two levels. The upper level, known as Ili Vali, references the large rocky bluff on which this part of the complex is located. Ili Vali has a narrow stone entrance way, several graves made of dressed stone and several large flat circular dressed disks made of a fine-grained sedimentary rock, identified locally by the term ‘batu Makassar’ (see McWilliam et al. 2012; Figure 2.2). The lower level, known as Macapainara, is surrounded by massive encircling stone walls to the north and south that are up to 3 m high and 2 m thick at the base.