DOCSLIB.ORG

Bibliografia 1 Bibliografia

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Bibliografia 1 Bibliografia © 978-88-08-26350-6 Bibliografia 1 BIBLIOGRAFIA Riportiamo per intero la bibliografia dell’edizione tedesca dell’opera, anche se alcuni argomenti di dettaglio non sono stati trattati nell’edizione italiana, nella certezza di fornire al lettore un efficace strumento di approfondimento e di indagine bibliografica. Sistematica filogenetica J. (Hrsg.) (1990): Handbook of Protoctista. Jones and Bartlett, Boston. Ax, P. (1984): Das phylogenetische System. Systematisie- Margulis, L., McKhann, H. I.; Oldendzenski, L. (Hrsg.) rung der lebenden Natur aufgrund ihrer Phylogenese. (1993): Illustrated Glossary of Protoctista. Jones and Gustav Fischer, Stuttgart. Bartlett, Boston. Knoop, V., Müller, K. (2006): Gene und Stammbäume – Puytorac, P. de, Grain, J., Mignot, J.-P. (1987): Précis de Ein Handbuch zur molekularen Phylogenetik. Spek- Protistologie. Boubée, Paris. trum Akademischer Verlag, Heidelberg. Röttger, R. (Hrsg.) (1995): Praktikum der Protozoologie. Sudhaus, W., Rehfeld, K. (1992): Einführung in die Phy- Gustav Fischer, Stuttgart. logenetik und Systematik. Gustav Fischer, Stuttgart. Sleigh, M. (1989): Protozoa and Other Protists. 2. Aufl. Wägele, J.-W. (2005): Foundations of Phylogenetic Syste- Arnold, London. matics. Dr. Friedrich Pfeil, München. Wiesemüller, B., Rothe, H., Henke, W. (2003): Phyloge- Monografie su singoli taxa o su singole forme netische Systematik. Eine Einführung. Springer, Hei- biologiche delberg, Berlin. Aikawa, M., Sterling, C. R. (1974): Intracellular Parasitic Protozoa. Acad. Press, London. Eucarioti unicellulari Anderson, O. R. (1983): Radiolaria. Springer, Berlin. Asai, D. J., Forney, J. D. (Hrsg.) (2000): Tetrahymena ther- Opere generali mophila. Acad. Press, London. Anderson, O. R. (1987): Comparative Protozoology. Eco- Berger, H. (1999): Monograph of the Osytrichidae (Cilio- logy, Physiology, Life History. Springer, Heidelberg, phora, Hypotrichia). Kluwer Acad. Publ., Dordrecht. New York. Berger, H., Foissner, W. (2003): Illustrated Guide and Eco- Anderson, O. R., Druger, M. (Hrsg.) (1997): Explore the logical Notes to Ciliate Indicator Species (Protozoa, Ci- World using Protozoa. National Science Teachers Asso- liophora) in Running Waters, Lakes and Sewage Plants. ciations, Arlington. In: Steinberg, C., Calmano, W., Klapper, H., Wilken, Bütschli, O. (1880–1889): Protozoa. In: Bronn, H. G. R. D. (Hrsg.): Handbuch Angewandte Limnologie 17. (Hrsg.): Klassen und Ordnungen des Tierreichs. Win- Ergänzungslieferung 10/03. Ecomed, Landsberg. ter, Heidelberg. Black, S. J., Seed, J. R. (Hesg.) (2001): The African Try- Doflein, F., Reichenow, E. (1949–1953): Lehrbuch der panosomes. Kluwer Acad. Publ., Boston. Protozoenkunde. 6. Aufl. Gustav Fischer, Jena. Buetow, D. E. (1968–1989): The Biology of Euglena. Bd. Grassé, P.-P. (1952/53, 1984, 1994): Protozoaires. In: Trai- I–IV. Acad. Press, London. té de Zoologie. Bd. I, 1+2, II, 1+2. Masson, Paris. Bulla, L. A., Cheng, T. C. (1976, 1977): Comparative Grell, K. G. (1973): Protozoology. 3. Aufl. Springer, New Pathobilogy. Bd. I: Biology of the Microsporidia; Bd. York. II: Systematics of the Microsporidia. Plenum Press, Harrison, F. W., Corliss, J. O. (Hrsg.) (1991): Protozoa. London. In: Harrison, F. W. (Hrsg.): Microscopic Anatomy of Canning, E. U., Lom, J. (1986): The Microsporidia of Invertebrates. Bd. 1. Wiley-Liss, New York. Vertebrates. Acad. Press, London. Hausmann, K., Hülsmann, N., Radek, R. (2003): Proti- Capriulo, G. M. (Hrsg.) (1990): Ecology of Marine Proto- stology. 3. Aufl. Schweizerbart’sche Verlagsbuchhand- zoa. Oxford Univ. Press, New York. lung, Stuttgart. Carey, P. G. (1992): Marine Interstitial Ciliates – An Illus- Kudo, P. R. (1971): Protozoology. 6. Aufl. Thomas, trated Key. Chapman & Hall, London. Springfield. Corliss, J. O. (1979): The Ciliated Protozoa. Characteriza- Lee, J. J., Leedale, G. F., Bradbury, P. C. (Hrsg.) (2001): tion, Classification and Guide to the Literature. 2. Aufl. The Illustrated Guide to the Protozoa. 2. Aufl. Bd. I, II. Pergamon, Oxford. Allen Press, Lawrence. Curds, C. R. (1992): Protozoa in Water Industry. Cam- Levandowsky, M., Hutner, S. H. (1979–1981): Bio chemistry bridge Univ. Press, Cambridge. and Physiology of Protozoa. Bd. I-IV. Acad. Press, London. Darbyshire, J. E. (Hrsg.) (1994): Soil Protozoa. CAB In- Margulis, L., Corliss, J. O., Melkonian, M., Chapman, D. ternational, Wallingford. 2 Bibliografia © 978-88-08-26350-6 Dubey, J. P., Beattie, C. P. (1988): Toxoplasmosis of Ani- Kent, M. L., Andree, K. B., Bartholomew, J. L., El-Mat- mals and Man. CRC Press, Boca Raton. bouli M., Desser, S. S., Devlin, R. H., Feist, S. W., Dubey, J. P., Speer, C. A., Fayer, R. (1990): Cryptosporidi- Hedrick, R. P., Hoffmann, R. W., Khattra, J., Hallett, osis of Man and Animals. CRC Press, Boca Raton. S. L., Lester, R. J., Longshaw, M., Palenzeula, O, Sid- Elliott, A. (1973): The Biology of Tetrahymena. Dowden, dall, M. E., Xiao, C. (2001): Recent advances in our Hutchinson and Ross, Stroudsburg. knowledge of the Myxozoa. J. Eukaryot. Microbiol. 48: Englund, P. T., Haijuk, S. L., Marini, J. C. (1982): The 395–413. molecular biology of trypanosomes. Ann. Rev. Bio- Kessin, R. H. (2001): Dictyostelium – Evolution, Cell Bi- chem. 51:695. ology, and the Development of Multicellularity. Cam- Ettl, H., Gerloff, J., Heynig, H., Mollenhauer, D. (Hrsg.) bridge Univ. Press, Cambridge. (1978): Süßwasserflora von Mitteleuropa. 20 Bände. Kreier, J. P. (1980): Malaria. Bd. I–III. Acad. Press, London. Gustav Fischer, Stuttgart. Kreier, J. P. (Hrsg.) (1991–1994): Parasitic Protozoa, 8 Fayer, D. (Hrsg.) (1997): Cryptosporidium and Cryptospo- Bd., 2. Aufl. Acad. Press, London. ridioses. CRC Press, Boca Raton. Leadbeater, B. S. C., Green, J. C. (Hrsg.) (2000): The Fenchel, T. (1987): Ecology of Protozoa: The Biology of Flagellates – Unity, Diversity and Evolution. Taylor & Free-Living Phagotrophic Protists. Springer, Berlin. Francis, London. Fenchel, T., Finlay, B. J. (1995): Ecology and Evolution Lee, J. J., Anderson, O. R. (1991): Biology of Foraminife- in Anoxic Worlds. In: May, R. M., Harvey, P. (Hrsg.): ra, Acad. Press, London. Oxford Series in Ecology and Evolution. Oxford Univ. Levine, N. D. (1988): The Protozoan Phylum Apicomple- Press, Oxford. xa, Vol. I+II. CRC Press, Boca Raton. Foissner, W. (1993): Class Colpodea (Ciliophora). In: Lom, J., Dykova, I. (1992): Protozoan Parasites of Fishes. Matthes, D. (Hrsg.): Protozoenfauna. Bd. 4/1. Gustav Elsevier Sci. Publ., Amsterdam. Fischer, Stuttgart. Long, P. L. (1982): The Biology of Coccidia. Arnold, Lon- Foissner, W., Berger, H., Schaumburg J. (1999): Identi- don. fication and Ecology of Limnetic Plankton Ciliates. Lumsden, W. H. R., Evans, D. A. (1976, 1979): Biology of Informationsberichte des Bayerischen Landesamtes für the Kinetoplastida. Bd. I, II. Acad. Press, London. Wasserwirtschaft, München, Heft 3, 1–793. Matthes, D., Guhl, W., Haider, G. (1988): Suctoria und Foissner, W., Blatterer, H., Berger, H., Kohmann, F. (1991– Urceolariidae (Peritricha). In: Matthes, D. (Hrsg.): Pro- 1995): Taxonomische und ökologische Revision der Ci- tozoenfauna. Bd. 7, 1. Gustav Fischer, Stuttgart. liaten des Saprobiensystems. Bd. 1: Cyrtophorida, Oli- Mehlhorn, H. (Hrsg.) (2001): Encyclopedic Reference of gotrichida, Hypotrichida, Colpodea. Bd. 2: Peritrichia, Parasitology. Bd. 1: Biology, Structure, Function; Bd. 2: Heterotrichida, Odontostomatida. Bd. 3: Hymenosto- Diseases, Treatment, Therapy (vormals Parasitology in mata, Prostomatida, Nassulida. Bd. 4: Gymnostomatea, Focus), 2. Aufl. Springer Verlag, Heidelberg. Loxodes, Suctoria. Informationsberichte des Bayerischen Olive, L. S. (1975): The Myzetozoans. Acad. Press, London. Landesamtes für Wasserwirtschaft, München. Olson, B. E., Olson, M. E. (Hrsg.) (2002): Giardia: The Giese, A. C. (1973): Blepharisma – The Biology of a Light- Cosmopolitan Parasite. CABI Publishing, Wallingford. Sensitive Protozoon. Stanford Univ. Press, Stanford. Page, F (1988): A New Key to Freshwater and Soil Gym- Goertz, H.-D. (1988): Paramecium. Springer, Berlin. namoebae with Instructions for Culture. Freshwater Bi- Green, J. C., Leadbeater, B. S. C. (Hrsg.) (1994): The ological Association, Ambleside. Haptophyte Algae. Clarendon Press, Oxford. Page, F. C., Siemensma, F.J. (1991): Nackte Rhizopoden Green, J. C., Leadbeater, B. S. C., Diver, W. L. (Hrsg.) und Heliozoea. In: Matthes, D. (Hrsg.): Protozoenfau- (1989): The Chromophyte Algae: Problems and Per- na. Bd. 2. Gustav Fischer, Stuttgart. spectives. Clarendon Press, Oxford. Patterson, D. J., Larsen, J. (1991): The Biology of Free- Gupta, B. K. S. (Hrsg.) (2002): Modern Foraminifera. Living Heterotrophic Flagellates. Clarendon Press, Ox- Kluwer Acad. Publ. Dordrecht. ford. Hammond, D. M., Long, P. L. (1973): The Coccidia. Pickett-Heaps, J. D. (1975): Green Algae – Structure, Re- University Park, Baltimore. production and Evolution in Selected Genera. Sinauer, Hausmann, K., Bradbury, P. C. (Hrsg.) (1996): Ciliates: Sunderland. Cells as Organisms. Gustav Fischer, Stuttgart. Raper, K. B. (1984): The Dictyostelids. Princeton Univ. Harris, E. H. (1989): The Chlamydomonas Sourcebook Press, Princeton. – A Comprehensive Guide to Biology and Laboratory Rondanelli, E. G., Scaglia, M. (1993): Atlas of Human Use. Acad. Press, London. Protozoa. Masson, Milano. Hemleben, C. H., Spindler, M., Anderson, O. R. (1989): Scott, F. J., Marchant, H. J. (Hrsg.) (2005): Antarctic Ma- Modern Planktonic Foraminifera. Springer-Berlin. rine Protists. Australian Biological Reseources Study, Hoek, C. van den, Mann, D. H., Jahns, H. M. (1995):
Load more

Recommended publications
  • Shell Microstructures in Early Cambrian Molluscs
    Shell microstructures in Early Cambrian molluscs ARTEM KOUCHINSKY Kouchinsky, A. 2000. Shell microstructures in Early Cambrian molluscs. - Acta Palaeontologica Polonica 45,2, 119-150. The affinities of a considerable part of the earliest skeletal fossils are problematical, but investigation of their microstructures may be useful for understanding biomineralization mechanisms in early metazoans and helpful for their taxonomy. The skeletons of Early Cambrian mollusc-like organisms increased by marginal secretion of new growth lamel- lae or sclerites, the recognized basal elements of which were fibers of apparently aragon- ite. The juvenile part of some composite shells consisted of needle-like sclerites; the adult part was built of hollow leaf-like sclerites. A layer of mineralized prism-like units (low aragonitic prisms or flattened spherulites) surrounded by an organic matrix possibly existed in most of the shells with continuous walls. The distribution of initial points of the prism-like units on a periostracurn-like sheet and their growth rate were mostly regular. The units may be replicated on the surface of internal molds as shallow concave poly- gons, which may contain a more or less well-expressed tubercle in their center. Tubercles are often not enclosed in concave polygons and may co-occur with other types of tex- tures. Convex polygons seem to have resulted from decalcification of prism-like units. They do not co-occur with tubercles. The latter are interpreted as casts of pore channels in the wall possibly playing a role in biomineralization or pits serving as attachment sites of groups of mantle cells. Casts of fibers and/or lamellar units may overlap a polygonal tex- ture or occur without it.
    [Show full text]
  • Molecular Phylogeny of Echiuran Worms (Phylum: Annelida) Reveals Evolutionary Pattern of Feeding Mode and Sexual Dimorphism
    Molecular Phylogeny of Echiuran Worms (Phylum: Annelida) Reveals Evolutionary Pattern of Feeding Mode and Sexual Dimorphism Ryutaro Goto1,2*, Tomoko Okamoto2, Hiroshi Ishikawa3, Yoichi Hamamura4, Makoto Kato2 1 Department of Marine Ecosystem Dynamics, Atmosphere and Ocean Research Institute, The University of Tokyo, Kashiwa, Chiba, Japan, 2 Graduate School of Human and Environmental Studies, Kyoto University, Kyoto, Japan, 3 Uwajima, Ehime, Japan, 4 Kure, Hiroshima, Japan Abstract The Echiura, or spoon worms, are a group of marine worms, most of which live in burrows in soft sediments. This annelid- like animal group was once considered as a separate phylum because of the absence of segmentation, although recent molecular analyses have placed it within the annelids. In this study, we elucidate the interfamily relationships of echiuran worms and their evolutionary pattern of feeding mode and sexual dimorphism, by performing molecular phylogenetic analyses using four genes (18S, 28S, H3, and COI) of representatives of all extant echiuran families. Our results suggest that Echiura is monophyletic and comprises two unexpected groups: [Echiuridae+Urechidae+Thalassematidae] and [Bone- lliidae+Ikedidae]. This grouping agrees with the presence/absence of marked sexual dimorphism involving dwarf males and the paired/non-paired configuration of the gonoducts (genital sacs). Furthermore, the data supports the sister group relationship of Echiuridae and Urechidae. These two families share the character of having anal chaetae rings around the posterior trunk as a synapomorphy. The analyses also suggest that deposit feeding is a basal feeding mode in echiurans and that filter feeding originated once in the common ancestor of Urechidae. Overall, our results contradict the currently accepted order-level classification, especially in that Echiuroinea is polyphyletic, and provide novel insights into the evolution of echiuran worms.
    [Show full text]
  • Keeping a Lid on It: Muscle Scars and the Mystery of the Mobergellidae
    1 Keeping a lid on it: muscle scars and the mystery of the 2 Mobergellidae 3 4 TIMOTHY P. TOPPER1,2* and CHRISTIAN B. SKOVSTED1 5 6 1Department of Palaeobiology, Swedish Museum of Natural History, P.O. Box 50007, 7 SE-104 05, Stockholm, Sweden. 8 2Palaeoecosystems Group, Department of Earth Sciences, Durham University, Durham 9 DH1 3LE, UK. 10 11 Mobergellans were one of the first Cambrian skeletal groups to be recognized yet have 12 long remained one of the most problematic in terms of biological function and affinity. 13 Typified by a disc-shaped, phosphatic sclerite the most distinctive character of the 14 group is a prominent set of internal scars, interpreted as representing sites of former 15 muscle attachment. Predominantly based on muscle scar distribution, mobergellans 16 have been compared to brachiopods, bivalves and monoplacophorans, however a 17 recurring theory that the sclerites acted as operculum remains untested. Rather than 18 correlate the number of muscle scars between taxa, here we focus on the percentage of 19 the inner surface shell area that the scars constitute. We investigate two mobergellan 20 species, Mobergella holsti and Discinella micans comparing the Cambrian taxa with the 21 muscle scars of a variety of extant and fossil marine invertebrate taxa to test if the 22 mobergellan muscle attachment area is compatible with an interpretation as operculum. 23 The only skeletal elements in our study with a comparable muscle attachment 24 percentage are gastropod opercula. Complemented with additional morphological 25 information, our analysis supports the theory that mobergellan sclerites acted as an 26 operculum presumably from a tube-living organism.
    [Show full text]
  • Deep-Sea Video Technology Tracks a Monoplacophoran to the End of Its Trail (Mollusca, Tryblidia)
    Deep-sea video technology tracks a monoplacophoran to the end of its trail (Mollusca, Tryblidia) Sigwart, J. D., Wicksten, M. K., Jackson, M. G., & Herrera, S. (2018). Deep-sea video technology tracks a monoplacophoran to the end of its trail (Mollusca, Tryblidia). Marine Biodiversity, 1-8. https://doi.org/10.1007/s12526-018-0860-2 Published in: Marine Biodiversity Document Version: Publisher's PDF, also known as Version of record Queen's University Belfast - Research Portal: Link to publication record in Queen's University Belfast Research Portal Publisher rights Copyright 2018 the authors. This is an open access article published under a Creative Commons Attribution License (https://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution and reproduction in any medium, provided the author and source are cited. General rights Copyright for the publications made accessible via the Queen's University Belfast Research Portal is retained by the author(s) and / or other copyright owners and it is a condition of accessing these publications that users recognise and abide by the legal requirements associated with these rights. Take down policy The Research Portal is Queen's institutional repository that provides access to Queen's research output. Every effort has been made to ensure that content in the Research Portal does not infringe any person's rights, or applicable UK laws. If you discover content in the Research Portal that you believe breaches copyright or violates any law, please contact [email protected]. Download date:06. Oct. 2021 Deep-sea video technology tracks a monoplacophoran to the end of its trail (Mollusca, Tryblidia) Sigwart, J.
    [Show full text]
  • The Continuing Debate on Deep Molluscan Phylogeny: Evidence for Serialia (Mollusca, Monoplacophora + Polyplacophora)
    Hindawi Publishing Corporation BioMed Research International Volume 2013, Article ID 407072, 18 pages http://dx.doi.org/10.1155/2013/407072 Research Article The Continuing Debate on Deep Molluscan Phylogeny: Evidence for Serialia (Mollusca, Monoplacophora + Polyplacophora) I. Stöger,1,2 J. D. Sigwart,3 Y. Kano,4 T. Knebelsberger,5 B. A. Marshall,6 E. Schwabe,1,2 and M. Schrödl1,2 1 SNSB-Bavarian State Collection of Zoology, Munchhausenstraße¨ 21, 81247 Munich, Germany 2 Faculty of Biology, Department II, Ludwig-Maximilians-Universitat¨ Munchen,¨ Großhaderner Straße 2-4, 82152 Planegg-Martinsried, Germany 3 Queen’s University Belfast, School of Biological Sciences, Marine Laboratory, 12-13 The Strand, Portaferry BT22 1PF, UK 4 Department of Marine Ecosystems Dynamics, Atmosphere and Ocean Research Institute, University of Tokyo, 5-1-5 Kashiwanoha, Kashiwa, Chiba 277-8564, Japan 5 Senckenberg Research Institute, German Centre for Marine Biodiversity Research (DZMB), Sudstrand¨ 44, 26382 Wilhelmshaven, Germany 6 Museum of New Zealand Te Papa Tongarewa, P.O. Box 467, Wellington, New Zealand Correspondence should be addressed to M. Schrodl;¨ [email protected] Received 1 March 2013; Revised 8 August 2013; Accepted 23 August 2013 Academic Editor: Dietmar Quandt Copyright © 2013 I. Stoger¨ et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited. Molluscs are a diverse animal phylum with a formidable fossil record. Although there is little doubt about the monophyly of the eight extant classes, relationships between these groups are controversial. We analysed a comprehensive multilocus molecular data set for molluscs, the first to include multiple species from all classes, including five monoplacophorans in both extant families.
    [Show full text]
  • Rapid Biodiversity Assessment of REPUBLIC of NAURU
    RAPID BIODIVERSITY ASSESSMENT OF REPUBLIC OF NAURU JUNE 2013 NAOERO GO T D'S W I LL FIRS SPREP Library/IRC Cataloguing-in-Publication Data McKenna, Sheila A, Butler, David J and Wheatley, Amanda. Rapid biodiversity assessment of Republic of Nauru / Sheila A. McKeena … [et al.] – Apia, Samoa : SPREP, 2015. 240 p. cm. ISBN: 978-982-04-0516-5 (print) 978-982-04-0515-8 (ecopy) 1. Biodiversity conservation – Nauru. 2. Biodiversity – Assessment – Nauru. 3. Natural resources conservation areas - Nauru. I. McKeena, Sheila A. II. Butler, David J. III. Wheatley, Amanda. IV. Pacific Regional Environment Programme (SPREP) V. Title. 333.959685 © SPREP 2015 All rights for commercial / for profit reproduction or translation, in any form, reserved. SPREP authorises the partial reproduction or translation of this material for scientific, educational or research purposes, provided that SPREP and the source document are properly acknowledged. Permission to reproduce the document and / or translate in whole, in any form, whether for commercial / for profit or non-profit purposes, must be requested in writing. Secretariat of the Pacific Regional Environment Programme P.O. Box 240, Apia, Samoa. Telephone: + 685 21929, Fax: + 685 20231 www.sprep.org The Pacific environment, sustaining our livelihoods and natural heritage in harmony with our cultures. RAPID BIODIVERSITY ASSESSMENT OF REPUBLIC OF NAURU SHEILA A. MCKENNA, DAVID J. BUTLER, AND AmANDA WHEATLEY (EDITORS) NAOERO GO T D'S W I LL FIRS CONTENTS Organisational Profiles 4 Authors and Participants 6 Acknowledgements
    [Show full text]
  • Introduced Species Survey
    ISSN: 1328-5548 Marine and Freshwater Resources Institute Report No. 4 Exotic Marine Pests in the Port of Hastings, Victoria. D. R. Currie and D. P. Crookes December 1997 Marine and Freshwater Resources Institute PO Box 114 Queenscliff 3225 CONTENTS SUMMARY 1 1. BACKGROUND 2 2. DESCRIPTION OF THE PORT OF HASTINGS 3 2.1 Shipping movements 3 2.2 Port development and maintenance activities 4 2.21 Dredge and spoil dumping 4 2.22 Pile construction and cleaning 5 3. EXISTING BIOLOGICAL INFORMATION 5 4. SURVEY METHODS 6 4.1 Phytoplankton 6 4.11 Sediment sampling for cyst-forming species 6 4.12 Phytoplankton sampling 6 4.2 Trapping 7 4.3 Zooplankton 7 4.4 Diver observations and collections on wharf piles 7 4.5 Visual searches 7 4.6 Epibenthos 8 4.7 Benthic infauna 8 4.8 Seine netting 8 4.9 Sediment analysis 8 5. SURVEY RESULTS 9 5.1 Port environment 9 5.2 Introduced species in port 9 5.21 ABWMAC target introduced species 9 5.22 Other target species 11 5.23 Additional exotic species detected 12 5.24 Adequacy of survey intensity 13 6. IMPACT OF EXOTIC SPECIES 13 7. ORIGIN AND POSSIBLE VECTORS FOR THE INTRODUCTION OF EXOTIC SPECIES FOUND IN THE PORT. 14 8. INFLUENCES OF THE PORT ENVIRONMENT ON THE SURVIVAL OF INTRODUCED SPECIES. 15 ACKNOWLEDGMENTS 16 REFERENCES 17 TABLES 1-6 21 FIGURES 1-5 25 APPENDICES 1 & 2 36 SUMMARY The Port of Hastings in Westernport Bay was surveyed for introduced species between 4th and 15th of March 1997.
    [Show full text]
  • Views from the Citizen Health Information Portal: Qualitative Study (E43) Tracie Risling, Juan Martinez, Jeremy Young, Nancy Thorp-Froslie
    JMIR Medical Informatics Clinical informatics, decision support for health professionals, electronic health records, and eHealth infrastructures Volume 6 (2018), Issue 3 ISSN: 2291-9694 Contents Original Papers Extraction and Standardization of Patient Complaints from Electronic Medication Histories for Pharmacovigilance: Natural Language Processing Analysis in Japanese (e11021) Misa Usui, Eiji Aramaki, Tomohide Iwao, Shoko Wakamiya, Tohru Sakamoto, Mayumi Mochizuki. 2 Uncovering a Role for Electronic Personal Health Records in Reducing Disparities in Sexually Transmitted Infection Rates Among Students at a Predominantly African American University: Mixed-Methods Study (e41) Kevon-Mark Jackman, Stefan Baral, Lisa Hightow-Weidman, Tonia Poteat. 16 Defining Empowerment and Supporting Engagement Using Patient Views From the Citizen Health Information Portal: Qualitative Study (e43) Tracie Risling, Juan Martinez, Jeremy Young, Nancy Thorp-Froslie. 30 Emergency Physician Use of the Alberta Netcare Portal, a Province-Wide Interoperable Electronic Health Record: Multi-Method Observational Study (e10184) Timothy Graham, Mark Ballermann, Eddy Lang, Michael Bullard, Denise Parsons, Gabriella Mercuur, Pat San Agustin, Samina Ali. 40 Task-Data Taxonomy for Health Data Visualizations: Web-Based Survey With Experts and Older Adults (e39) Sabine Theis, Peter Rasche, Christina Bröhl, Matthias Wille, Alexander Mertens. 53 Implementing a National Electronic Referral Program: Qualitative Study (e10488) Marcella McGovern, Maria Quinlan, Gerardine Doyle, Gemma Moore, Susi Geiger. 73 Validating a Framework for Coding Patient-Reported Health Information to the Medical Dictionary for Regulatory Activities Terminology: An Evaluative Study (e42) Sonja Brajovic, David Blaser, Meaghan Zisk, Christine Caligtan, Sally Okun, Marni Hall, Carol Pamer. 89 Review Three-Dimensional Portable Document Format (3D PDF) in Clinical Communication and Biomedical Sciences: Systematic Review of Applications, Tools, and Protocols (e10295) Axel Newe, Linda Becker.
    [Show full text]
  • NEAT Mollusca
    NEAT (North East Atlantic Taxa): Scandinavian marine Mollusca Check-List compiled at TMBL (Tjärnö Marine Biological Laboratory) by: Hans G. Hansson 1994-02-02 / small revisions until February 1997, when it was published on Internet as a pdf file and then republished August 1998.. Citation suggested: Hansson, H.G. (Comp.), NEAT (North East Atlantic Taxa): Scandinavian marine Mollusca Check-List. Internet Ed., Aug. 1998. [http://www.tmbl.gu.se]. Denotations: (™) = Genotype @ = Associated to * = General note PHYLUM, CLASSIS, SUBCLASSIS, SUPERORDO, ORDO, SUBORDO, INFRAORDO, Superfamilia, Familia, Subfamilia, Genus & species N.B.: This is one of several preliminary check-lists, covering S Scandinavian marine animal (and partly marine protoctistan) taxa. Some financial support from (or via) NKMB (Nordiskt Kollegium för Marin Biologi), during the last years of the existence of this organization (until 1993), is thankfully acknowledged. The primary purpose of these checklists is to faciliate for everyone, trying to identify organisms from the area, to know which species that earlier have been encountered there, or in neighbouring areas. A secondary purpose is to faciliate for non-experts to put as correct names as possible on organisms, including names of authors and years of description. So far these checklists are very preliminary. Due to restricted access to literature there are (some known, and probably many unknown) omissions in the lists. Certainly also several errors may be found, especially regarding taxa like Plathelminthes and Nematoda, where the experience of the compiler is very rudimentary, or. e.g. Porifera, where, at least in certain families, taxonomic confusion seems to prevail. This is very much a small modernization of T.
    [Show full text]
  • Jahresbericht 2006
    Jahresbericht 2006 der Generaldirektion der Staatlichen Naturwissenschaftlichen Sammlungen Bayerns Herausgegeben von: Prof. Dr. Gerhard Haszprunar Generaldirektor Der Staatlichen Naturwissenschaftlichen Sammlungen Bayerns Menzinger Straße 71, 80638 München München Juli 2007 Zusammenstellung und Endredaktion: Dr. Eva Maria Natzer (Generaldirektion) Unterstützung durch: Maria-Luise Kaim (Generaldirektion) Susanne Legat (Generaldirektion) Dr. Jörg Spelda (Generaldirektion) Marion Teubler (Generaldirektion) Druck: Digitaldruckzentrum, Amalienstrasse, München Inhaltsverzeichnis Bericht des Generaldirektors ...................................................................................................5 Wissenschaftliche Publikationen .................................................................................................7 Drittmittelübersicht ...................................................................................................................32 Organigramm ............................................................................................................................47 Generaldirektion .....................................................................................................................48 Personalvertretung ..................................................................................................................50 Museen Museum Mensch und Natur (MMN) ........................................................................................51 Museum Reich der Kristalle (MRK) .........................................................................................55
    [Show full text]
  • Shell Microstructures in Early Mollusks
    Vol. XLII(4): 2010 THE FESTIVUS Page 43 SHELL MICROSTRUCTURES IN EARLY MOLLUSKS MICHAEL J. VENDRASCO1*, SUSANNAH M. PORTER1, ARTEM V. KOUCHINSKY2, GUOXIANG LI3, and CHRISTINE Z. FERNANDEZ4 1Institute for Crustal Studies, University of California, Santa Barbara, CA, 93106, USA 2Department of Palaeozoology, Swedish Museum of Natural History, Box 50007, SE-104 05 Stockholm, Sweden 3LPS, Nanjing Institute of Geology and Palaeontology, Chinese Academy of Sciences, 39 East Beijing Road, Nanjing 210008, P.R. China, 414601 Madris Ave., Norwalk, CA 90650, USA Abstract: Shell microstructures in some of the oldest known mollusk fossils (from the early to middle Cambrian Period; 542 to 510 million years ago) are diverse, strong, and in some cases unusual. We herein review our recent work focused on different aspects of shell microstructures in Cambrian mollusks, briefly summarizing some of the major conclusions from a few of our recent publications and adding some new analysis. Overall, the data suggest that: (1) mollusks rapidly evolved disparate shell microstructures; (2) early mollusks had a complex shell with a different type of shell microstructure in the outer layer than in the inner one; (3) the modern molluscan biomineralization system, with precise control over crystal shapes and arrangements in a mantle cavity bounded by periostracum, was already in place during the Cambrian; (4) shell microstructure data provide a suite of characters useful in phylogenetic analyses of mollusks and mollusk-like Problematica, allowing better determination
    [Show full text]
  • RESEARCH NOTE Field Collection of Laevipilina Hyalina Mclean, 1979 from Southern California, the Most Accessible Living Monoplacophoran
    RESEARCH NOTE Field collection of Laevipilina hyalina McLean, 1979 from southern California, the most accessible living monoplacophoran Nerida G. Wilson1, Danwei Huang1,2, Miriam C. Goldstein1, Harim Cha1, Gonzalo Giribet3 and Greg W. Rouse1 1Scripps Institution of Oceanography, University of California, San Diego, 9500 Gilman Drive, La Jolla, CA 92093-0202, USA; 2Department of Biological Sciences, National University of Singapore, 14 Science 4, Singapore 117543, Singapore; and 3Department of Organismic and Evolutionary Biology and Museum of Comparative Zoology, Harvard University, 26 Oxford Street, Cambridge, MA 02138, USA Downloaded from https://academic.oup.com/mollus/article/75/2/195/1205729 by guest on 01 October 2021 Monoplacophora remain one of the most understudied and only freshly broken-off pieces of substrate. However, even grabs enigmatic molluscan groups to date. Thought to exist only as a that retrieved only one or two nodules often yielded L. hyalina. fossil group, living specimens were recovered in 1952 from The nodules themselves were covered with a sparse invert- abyssal Pacific waters off Costa Rica (Lemche, 1957). This sen- ebrate community (Fig. 2A). We found an average of 1.4 speci- sational discovery (Yonge, 1957) energized the debate about mens of L. hyalina per successful grab (n ¼ 36) with a molluscan evolution. A suite of new monoplacophoran species maximum of nine individuals taken in a single grab (Fig. 3). was subsequently described, mostly from abyssal and hadal The highest number of individuals collected on a single nodule depths worldwide (Schwabe, 2008), including the Antarctic was three but, when present, there was generally only one (e.g.
    [Show full text]