DOCSLIB.ORG

Reference List

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Reference List ___________________________________________ BIBLIOGRAPHY Of The COLLECTED PAPERS FROM MOTE MARINE LABORATORY Vols. 1-17 1957-2011 Compiled by Edited by Kay K. Hale Susan M. Stover Mote Library Volunteer Library & Archives Director Arthur Vining Davis Library at Mote Marine Laboratory ___________________________________________ December 2013 1600 Ken Thompson Parkway · Sarasota, FL 34236 · (941)388-4441 · www.mote.org/library Collected Papers from Mote Marine Laboratory 1957 - 2011 Contribution No. Citation 1. Cape Haze Marine Laboratory. 1957. Cape Haze Marine Laboratory, Placida, Florida [brochure]. Placida, FL: The Laboratory. 11 p. 2. Heller, J. H., M. S. Heller, W. Springer, and E. Clark. 1957. Squalene content of various shark livers. Nature 179: 919-20. 3. Woodburn, K. D., B. Eldred, E. Clark, R. F. Hutton, and R. M. Ingle. 1957. The Live Bait ShrimpIindustry of the West Coast of Florida (Cedar Key to Naples). Collected Papers, Florida State Board of Conservation Marine Laboratory, St. Petersburg, FL. 33 p. 4. Clark, E. 1958. Jellied condition in Paralichthys squamilentus from the Gulf of Mexico. Quarterly Journal of the Florida Academy of Sciences 21(2): 187-89. 5. Penner, L. R. 1958. The use of naked snails in the study of larval trematode infections. Journal of Parasitology 44, no.4, Section 2: 18-19. 6. Saunders, D. C. 1959. The taxonomic separation of microfilarial species. In: Proceedings of the 6th International Congress on Tropical Medicine and Malaria, pp. 412-17. Lisbon: Instituto de Medicina Tropical. 7. Saunders, D. C. 1958. Blood parasites of marine fishes of the Florida Keys. Year Book of the American Philosophical Society, pp. 261-66. 8. Tavolga, W. N. 1958. The significance of underwater sounds produced by males of the gobiid fish, Bathygobius soporator. Physiological Zoology 31, no. 4: 259-71. 9. Tavolga, W. N. 1958. Underwater sounds produced by males of the blenniid fish, Chasmodes bosquianus. Ecology 39, no. 4: 759-80. 10. Breder, C. M. 1959. Studies on social groupings in fishes. Bulletin of the American Museum of Natural History 117, Article 6: 393-482. 11. Breder, C. M. 1959. Observations on the spawning behavior and egg development of Strongylura notata (Poey). Zoologica 44, no. 4: 141-48. 12. Clark, E. 1959. Instrumental conditioning of sharks. Anatomical Record 134, no. 3: 545. 13. Clark, E. 1959. Reproductive behavior in hermaphroditic fishes. Anatomical Record 134, no. 3: 545-46. 1 14. Clark, E. 1959. Functional hermaphroditism and self-fertilization in a serranid fish. Science 129, no. 3343: 215-16. 15. Clark, E. 1959. Instrumental conditioning of lemon sharks. Science 130, no. 3369: 217- 18. 16. Heller, J. H. 1959. The function of abdominal pores in elasmobranchs. Year Book of the American Philosophical Society, pp. 238-40. 17. Phillips, J. G. 1959. Adrenocorticosteroids in fish. Journal of Endocrinology 18: 37-39. 18. Saunders, D. C. 1959. Trypanosoma balistes n.sp. from Balistes capriscus Gmelin, the common triggerfish, from the Florida Keys. Journal of Parasitology 45, no. 6: 623-26. 19. Bullock, W. L. 1960. Some acanthocephalan parasites of Florida fishes. Bulletin of Marine Science of the Gulf and Caribbean 10, no. 4: 481-84. 20. Clark, E. 1960. Four shark attacks on the west coast of Florida, summer 1958. Copeia no. 1: 63-67. 21. Moore, J. C. 1960. New records of the Gulf-Stream beaked whale, Mesoplondon gervaisi, and some taxonomic considerations. American Museum Novitates no.1993: 1-35. 22. Penner, L. R. 1960. Studies on the biology of marine acquired avian schistosomiasis: new gastropod isolation equipment to facilitate determination of cercarial incidence. In: Sobretiro del Libro Homenaje al DoctorEduardo Caballero y Caballero, pp. 234-36. Mexico City: Editorial Politecnica. 23. Royal, W., and E. Clark. 1960. Natural preservation of human brain, Warm Mineral Springs, Florida. American Antiquity 26, no. 2: 285-87. 24. Tavolga, W. N. 1960. Sound production and underwater communication in fishes. In: Animal Sounds and Communications, eds. W. E. Lanyon, and W. N. Tavolga. pp. 93-136. Washington, DC: American Institute of Biological Sciences. 25. Clark, E. 1961. Visual discrimination in lemon sharks. In: Symposium on Factors Affecting the Behavior of Predaceous Marine Fishes, Especially Sharks; Abstracts of Symposium Papers, 10th Pacific Science Congress. pp. 175-76. 26. Cape Haze Marine Laboratory. 1961. Current research at the Cape Haze Marine Laboratory and reports for 1955-1961 [brochure]. Sarasota: The Laboratory. 15 p. 27. Saunders, G. B. 1962. Yellow-billed cuckoo in stomach of tiger shark. The Auk 79, January, p. 118. 2 28. Raj, P. J. S., and L. R. Penner. 1962. Concerning Ozobranchus branchiatus (Menzies, 1791) (Piscicolidae: Hirudinea) from Florida and Sarawak. Transactions of the American Microscopical Society 81, no. 4: 364-71. 29. Carmichael, R. I. 1962-1963. Marine scientists conduct educational summer program. FAST Journal, December/January, 3 p. 30. Penner, L. R. 1962. Stinging due to Linuche unguiculata (Schwartz) in Florida waters. Quarterly Journal of the Florida Academy of Sciences 25, no. 2: 122-26. 31. Penner, L. R. 1962. Notes on Campanularia marginata (Allman, 1877) as a stinging hydroid. Quarterly Journal of the Florida Academy of Sciences 25, no. 3: 177-79. 32. Clark, E. 1962. Maintenance of sharks in captivity. Part I. General. Bulletin De L'Institut Océanographique. Numéro Spécial 1 A: 7-13. 33. Clark, E. 1963. Maintenance of sharks in captivity. Part II. Experimental work on shark behavior. Bulletin De L’Institut Océanographique. Numéro Spécial 1 D: 1-10. 34. Moore, J. C. 1963. Discovery of right whales in the Gulf of Mexico. Science 141, no. 3577: 269. 35. Clark, E. 1963. Cape Haze Marine Laboratory. American Zoologist 3, no. 3: 263-65. 36. Clark, E. 1963. Massive aggregations of large rays and sharks in and near Sarasota, Florida. Zoologica 48, no. 2: 61-64. 37. Heller, J. H., V. Z. Pasternak, J. P. Ransom, and M. S. Heller. 1963. A new reticuloendothelial system stimulating agent ('restim') from shark livers. Nature 199, no. 4896: 904-5. 38. Clark, E. 1963. The maintenance of sharks in captivity, with a report on their instrumental conditioning. In: Sharks and Survival, ed. P. W. Gilbert. pp. 115-49. Boston: Heath. 39. Penner, L. R., and B. Fried. 1963. Philophthalmus hegeneri sp.n., an ocular trematode from birds. Journal of Parasitology 49, no. 6: 974-77. 40. Saunders, D. C. 1964. Blood parasites of marine fish of southwest Florida, including a new haemogregarine from the menhaden, Brevoortia tyrannus (Latrobe). Transactions of the American Microscopical Society 83, no. 2: 218-25. 41. Oguri, M. 1964. Rectal glands of marine and fresh-water sharks: comparative histology. Science 144, no. 3622: 1151-52. 42. Wright, T., and R. Jackson. 1964. Instrumental conditioning of young sharks. Copeia no. 2: 409-12. 3 43. Clark, E. 1964. Spinal deformity noted in bull shark. Underwater Naturalist 2: 25-28. 44. Woolever, J. D. 1964. Sarasota: spawning ground for marine biologists. ASB Bulletin 11, no. 4: 87-89. 45. Clark, E., and K. Von Schmidt. 1964. Shark research at the Cape Haze Marine Laboratory, Florida. In: Ninth International Game Fish Conference, pp. 17-21. Miami: Institute of Marine Science, University of Miami. 46. Clark, E. 1965. Parasitic stone crab? Sea Frontiers 11, no. 1: 52-53. 47. Clark, E., and K. Von Schmidt. 1965. Sharks of the central Gulf coast of Florida. Bulletin of Marine Science 15, no. 1: 13-83. 48. Clark, E. 1965. Mating of groupers; new studies detect reversal of stripes in hermaphroditic fish. Natural History 74, no. 6: 22-25. 49. Yerger, R. W. 1965. The leatherback turtle on the Gulf coast of Florida. Copeia no. 3: 365-66. 50. Atz, J. W. 1965. Hermaphroditic fish. Science 150, no. 3697: 789-97. 51. Saunders, D. C. 1966. A survey of the blood parasites of the marine fishes of Puerto Rico. Transactions of the American Microscopical Society 85, no. 2: 193-99. 52. Baldridge, H. D., and L. J. Reber. 1966. Reaction of sharks to a mammal in distress. Military Medicine 131, no. 5: 440-446. 53. Saunders, D. C. 1966. Elasmobranch blood cells. Copeia no. 2: 348-51. 54. Perks, A. M. 1966. Pharmacological and chromatographic studies of the neurohypophysial activities of the pituitary of further elasmobranch species. General and Comparative Endocrinology 6, no. 3: 428-42. 55. Saunders, D. C. 1966. Differential blood cell counts of 121 species of marine fishes of Puerto Rico. Transactions of the American Microscopical Society 85, no. 3: 427- 49. 56. Fricke, H. W. 1966. Der Nahrungserwerb des Gorgonenhauptes Astroboa nuda (Lyman). Natur und Museum 96, no. 12: 501-10. 57. Clark, E. 1966. Pipefishes of the genus Siokunichthys Herald in the Red Sea with description of a new species. Sea Fisheries Research Station, Haifa, Bulletin 41: 3-6. 58. Clark, E., and K. Von Schmidt. 1966. A new species of Trichonotus (Pisces, Trichonotidae) from the Red Sea. Sea Fisheries Research Station, Haifa, Bulletin 42: 29-36. 4 59. Fricke, H. W. 1967. Garnelen als Kommensalen der tropischen Seeanemone Discosoma. Natur und Museum 97, no. 2: 53-58. 60. Cressey, R. 1967. Revision of the family Pandaridae (Copepoda: Caligoida). Proceedings of the United States National Museum 121, no. 3570: 1-133. 61. Dawes, C. J., S. A. Earle, and F. C. Croley. 1967. The offshore benthic flora of the southwest coast of Florida. Bulletin of Marine Science 17, no. 1: 211-31. 62. Trams, E. G., and E. A. B. Brown. 1967. Metabolic alterations of catecholamines and other compounds in elasmobranch tissues. Proceedings of the Society for Experimental Biology and Medicine 125: 253-56. 63. Aronson, L. R., F. R. Aronson, and E. Clark. 1967. Instrumental conditioning and light- dark discrimination in young nurse sharks. Bulletin of Marine Science 17, no. 2: 249-56.
Load more

Recommended publications
  • Sharks for the Aquarium and Considerations for Their Selection1 Alexis L
    FA179 Sharks for the Aquarium and Considerations for Their Selection1 Alexis L. Morris, Elisa J. Livengood, and Frank A. Chapman2 Introduction The Lore of the Shark Sharks are magnificent animals and an exciting group Though it has been some 35 years since the shark in Steven of fishes. As a group, sharks, rays, and skates belong to Spielberg’s Jaws bit into its first unsuspecting ocean swim- the biological taxonomic class called Chondrichthyes, or mer and despite the fact that the risk of shark-bite is very cartilaginous fishes (elasmobranchs). The entire supporting small, fear of sharks still makes some people afraid to swim structure of these fish is composed primarily of cartilage in the ocean. (The chance of being struck by lightning is rather than bone. There are some 400 described species of greater than the chance of shark attack.) The most en- sharks, which come in all different sizes from the 40-foot- grained shark image that comes to a person’s mind is a giant long whale shark (Rhincodon typus) to the 2-foot-long conical snout lined with multiple rows of teeth efficient at marble catshark (Atelomycterus macleayi). tearing, chomping, or crushing prey, and those lifeless and staring eyes. The very adaptations that make sharks such Although sharks have been kept in public aquariums successful predators also make some people unnecessarily since the 1860s, advances in marine aquarium systems frightened of them. This is unfortunate, since sharks are technology and increased understanding of shark biology interesting creatures and much more than ill-perceived and husbandry now allow hobbyists to maintain and enjoy mindless eating machines.
    [Show full text]
  • Growth of Florida Fighting Conch, Strombus Alatus, in Recirculating Systems
    Contribution No. 666 Growth of Florida Fighting Conch, Strombus alatus, in Recirculating Systems 2 AMBER SHAWL', DAVE JENKINS , :tvlEGAN DAVIS I, and KEVAN MAIN2 I Harbor Branch Oceanographic Institution Aquaculture Division 5600 US 1 North Ft. Pierce, Florida 34946 USA [email protected],· mdavis@hboi. edu 2 Mote Marine Laboratory 1600 Ken Thompson Parkway Sarasota, Florida 34236 USA [email protected][email protected] ABSTRACT With the increased interest in water conservation and the need to reduce the discharge of effluent from aquaculture production systems, there has been a shift from open, flow-through systems to recirculating aquaculture production systems. In 2001, Harbor Branch Oceanographic Institution developed the first recirculating conch aquaculture program. Two important aspects of conch aquaculture are detennining the stocking density and water quality parameters in growout systems that yield the fastest growth rate and the highest survival. An experiment was conducted from March 11 - June 3, 2003 at two Florida sites, Harbor Branch Oceanographic Institution and Mote Marine Laboratory, to compare survival and growth of juvenile conch in a recirculating growout system. The recirculating system consisted of raceways troughs with an elevated sand substrate. The three replicate raceway troughs at each site were stocked with juvenile (16.9 ± 1.9 shell length) Florida fighting conch, Strom­ bus alatus at 75 conchlm2 (l09 and 140 conch per replicate at Harbor Branch and Mote, respectively). In 12 weeks, the conch grew 18.8 mm or 0.22 mmI day at Harbor Branch and 22.5 mm or 0.27 mmJday at Mote. There was a significantly faster growth rate at Mote, which appeared to be due to a lower stocking density throughout the experiment.
    [Show full text]
  • Ensiklopedia Keanekaragaman Invertebrata Di Zona Intertidal Pantai Gesing Sebagai Sumber Belajar
    ENSIKLOPEDIA KEANEKARAGAMAN INVERTEBRATA DI ZONA INTERTIDAL PANTAI GESING SEBAGAI SUMBER BELAJAR SKRIPSI Untuk memenuhi sebagian persyaratan mencapai derajat Sarjana S-1 Program Studi Pendidikan Biologi Diajukan Oleh Tika Dwi Yuniarti 15680036 PROGRAM STUDI PENDIDIKAN BIOLOGI FAKULTAS SAINS DAN TEKNOLOGI UIN SUNAN KALIJAGA YOGYAKARTA 2019 ii iii iv MOTTO إ َّن َم َع إلْ ُع ْ ِْس يُ ْ ًْسإ ٦ ِ Sesungguhnya sesudah kesulitan itu ada kemudahan (Q.S. Al-Insyirah: 6) “Hidup tanpa masalah berarti mati” (Lessing) v HALAMAN PERSEMBAHAN Skripsi ini saya persembahkan untuk: Keluargaku: Ibu, bapak, dan kakak tercinta Simbah Kakung dan Simbah Putri yang selalu saya cintai Keluarga di D.I. Yogyakarta Teman-teman seperjuangan Pendidikan Biologi 2015 Almamater tercinta: Program Studi Pendidikan Biologi Fakultas Sains dan Teknologi Universitas Islam Negeri Sunan Kalijaga Yogyakarta vi KATA PENGANTAR Puji syukur penulis panjatkan atas kehadirat Allah Yang Maha Pengasih lagi Maha Penyayang yang telah melimpahkan segala rahmat dan hidayah-Nya sehingga penulis dapat menyelesaikan skripsi ini dengan baik. Selawat serta salam senantiasa tercurah kepada Nabi Muhammad SAW beserta keluarga dan sahabatnya. Skripsi ini dapat diselesaikan berkat bimbingan, arahan, dan bantuan dari berbagai pihak. Oleh karena itu, penulis mengucapkan terimakasih kepada: 1. Bapak Dr. Murtono, M.Si., selaku Dekan Fakultas Sains dan Teknologi UIN Sunan Kalijaga Yogyakarta. 2. Bapak M. Ja’far Luthfi, Ph.D., selaku Wakil Dekan Fakultas Sains dan Teknologi. 3. Bapak Dr. Widodo, S.Pd., M.Pd., selaku Ketua Program Studi Pendidikan Biologi 4. Ibu Sulistyawati, S.Pd.I., M.Si., selaku dosen pembimbing skripsi dan dosen pembimbing akademik yang selalu mengarahkan dan memberikan banyak ilmu selama menjadi mahasiswa Pendidikan Biologi.
    [Show full text]
  • Characterization of the Artisanal Elasmobranch Fisheries Off The
    3 National Marine Fisheries Service Fishery Bulletin First U.S. Commissioner established in 1881 of Fisheries and founder NOAA of Fishery Bulletin Abstract—The landings of the artis- Characterization of the artisanal elasmobranch anal elasmobranch fisheries of 3 com- munities located along the Pacific coast fisheries off the Pacific coast of Guatemala of Guatemala from May 2017 through March 2020 were evaluated. Twenty- Cristopher G. Avalos Castillo (contact author)1,2 one elasmobranch species were iden- 3,4 tified in this study. Bottom longlines Omar Santana Morales used for multispecific fishing captured ray species and represented 59% of Email address for contact author: [email protected] the fishing effort. Gill nets captured small shark species and represented 1 Fundación Mundo Azul 3 Facultad de Ciencias Marinas 41% of the fishing effort. The most fre- Carretera a Villa Canales Universidad Autónoma de Baja California quently caught species were the longtail km 21-22 Finca Moran Carretera Ensenada-Tijuana 3917 stingray (Hypanus longus), scalloped 01069 Villa Canales, Guatemala Fraccionamiento Playitas hammerhead (Sphyrna lewini), and 2 22860 Ensenada, Baja California, Mexico Pacific sharpnose shark (Rhizopriono- Centro de Estudios del Mar y Acuicultura 4 don longurio), accounting for 47.88%, Universidad de San Carlos de Guatemala ECOCIMATI A.C. 33.26%, and 7.97% of landings during Ciudad Universitaria Zona 12 Avenida del Puerto 2270 the monitoring period, respectively. Edificio M14 Colonia Hidalgo The landings were mainly neonates 01012 Guatemala City, Guatemala 22880 Ensenada, Baja California, Mexico and juveniles. Our findings indicate the presence of nursery areas on the continental shelf off Guatemala.
    [Show full text]
  • Bayesian Estimation of the Age and Growth of the Golden Cownose Ray
    10 National Marine Fisheries Service Fishery Bulletin First U.S. Commissioner established in 1881 of Fisheries and founder NOAA of Fishery Bulletin Abstract—The aim of this study was to Bayesian estimation of the age and growth of the use a Bayesian approach to estimate age and growth parameters for the golden golden cownose ray (Rhinoptera steindachneri) cownose ray (Rhinoptera steindachneri) in the southern Gulf of California in in the southern Gulf of California in Mexico Mexico. Age estimates were obtained through analysis of vertebrae of 249 Luis D. Carrillo-Colín1 individuals. The von Bertalanffy growth J. Fernando Márquez-Farías (contact author)2 function (VBGF) and Gompertz growth 3 model (GM) were fit to length-at- age Raúl E. Lara-Mendoza 4 data by using a Markov chain Monte Oscar G. Zamora-García Carlo algorithm for parameter estima- tion. Prior distributions of parameters Email address for contact author: [email protected] were included for an informative prior for disc width at birth (DW0) and unin- 1 Posgrado en Ciencias del Mar y Limnología 3 Dirección General Adjunta de Investigación formative priors for the theoretical Universidad Nacional Autónoma Pesquera en el Atlántico maximum disc width (DW∞) and growth de Mexico Instituto Nacional de Pesca y Acuacultura coefficients (k and g, for the VBGF and Avenida Ciudad Universitaria 3000 Secretaría de Agricultura y Desarrollo Rural GM, respectively). Our results indicate 04510 Coyoacán, Mexico City, Avenida Mexico 190 that the golden cownose ray lives up to Mexico Colonia del Carmen 13 years. The GM for combined sexes 04100 Coyoacán, Mexico City, Mexico was selected as the best model by using 2 Facultad de Ciencias del Mar the Watanabe–Akaike information cri- Universidad Autónoma de Sinaloa 4 Servicios Integrales de Recursos Biológicos, terion for model selection suitable for Paseo Claussen s/n Acuáticos y Ambientales Bayesian estimation.
    [Show full text]
  • Review of Migratory Chondrichthyan Fishes
    Convention on the Conservation of Migratory Species of Wild Animals Secretariat provided by the United Nations Environment Programme 14 TH MEETING OF THE CMS SCIENTIFIC COUNCIL Bonn, Germany, 14-17 March 2007 CMS/ScC14/Doc.14 Agenda item 4 and 6 REVIEW OF MIGRATORY CHONDRICHTHYAN FISHES (Prepared by the Shark Specialist Group of the IUCN Species Survival Commission on behalf of the CMS Secretariat and Defra (UK)) For reasons of economy, documents are printed in a limited number, and will not be distributed at the meeting. Delegates are kindly requested to bring their copy to the meeting and not to request additional copies. REVIEW OF MIGRATORY CHONDRICHTHYAN FISHES IUCN Species Survival Commission’s Shark Specialist Group March 2007 Taxonomic Review Migratory Chondrichthyan Fishes Contents Acknowledgements.........................................................................................................................iii 1 Introduction ............................................................................................................................... 1 1.1 Background ...................................................................................................................... 1 1.2 Objectives......................................................................................................................... 1 2 Methods, definitions and datasets ............................................................................................. 2 2.1 Methodology....................................................................................................................
    [Show full text]
  • Biodiversidad De Sanguijuelas (Annelida: Euhirudinea) En México
    Revista Mexicana de Biodiversidad, Supl. 85: S183-S189, 2014 Revista Mexicana de Biodiversidad, Supl. 85: S183-S189, 2014 DOI: 10.7550/rmb.33212 DOI: 10.7550/rmb.33212183 Biodiversidad de sanguijuelas (Annelida: Euhirudinea) en México Biodiversity of leeches (Annelida: Euhirudinea) in Mexico Alejandro Oceguera-Figueroa1 y Virginia León-Règagnon2 1Laboratorio de Helmintología, Instituto de Biología, Universidad Nacional Autónoma de México. Tercer circuito s/n, Ciudad Universitaria, 04510 México, D. F., México. Laboratorio de Genética Evolutiva, Instituto Cavanilles de Biodiversidad y Biología Evolutiva, Universidad de Valencia, Valencia, España. Calle Catedrático José Beltrán 2, Paterna, 46980 Valencia, España. 2Estación de Biología Chamela, Sede Colima. Instituto de Biología, Universidad Nacional Autónoma de México, 48980 San Patricio, Jalisco, México. [email protected] Resumen. El número total de especies de sanguijuelas verdaderas (Annelida: Euhirudinea) registradas en México asciende a 31, las cuales representan el 4.5% de las aproximadamente 680 especies conocidas en el mundo. De las 14 familias reconocidas de euhirudíneos, 10 de ellas tiene representantes en México. Veinte especies y los géneros Limnobdella y Diestecostoma pueden ser considerados como endémicos de México. Los estados de Jalisco y Michoacán son los mejor representados con 10 y 11 registros respectivamente, por el contrario Baja California, Campeche, Quintana Roo y Zacatecas carecen completamente de registros. Palabras clave: sanguijuelas, hirudíneos, Euhirudinea, México. Abstract. The total number of true leech species (Annelida: Euhirudinea) recorded in Mexico now reaches 31, representing 4.5% of the approximately 680 known species in the world. Of the 14 currently recognized families of euhirudineans, 10 occur in Mexico. Twenty species and the genera Diestecostoma and Limnobdella can be considered endemic to Mexico.
    [Show full text]
  • Molluscs (Mollusca: Gastropoda, Bivalvia, Polyplacophora)
    Gulf of Mexico Science Volume 34 Article 4 Number 1 Number 1/2 (Combined Issue) 2018 Molluscs (Mollusca: Gastropoda, Bivalvia, Polyplacophora) of Laguna Madre, Tamaulipas, Mexico: Spatial and Temporal Distribution Martha Reguero Universidad Nacional Autónoma de México Andrea Raz-Guzmán Universidad Nacional Autónoma de México DOI: 10.18785/goms.3401.04 Follow this and additional works at: https://aquila.usm.edu/goms Recommended Citation Reguero, M. and A. Raz-Guzmán. 2018. Molluscs (Mollusca: Gastropoda, Bivalvia, Polyplacophora) of Laguna Madre, Tamaulipas, Mexico: Spatial and Temporal Distribution. Gulf of Mexico Science 34 (1). Retrieved from https://aquila.usm.edu/goms/vol34/iss1/4 This Article is brought to you for free and open access by The Aquila Digital Community. It has been accepted for inclusion in Gulf of Mexico Science by an authorized editor of The Aquila Digital Community. For more information, please contact [email protected]. Reguero and Raz-Guzmán: Molluscs (Mollusca: Gastropoda, Bivalvia, Polyplacophora) of Lagu Gulf of Mexico Science, 2018(1), pp. 32–55 Molluscs (Mollusca: Gastropoda, Bivalvia, Polyplacophora) of Laguna Madre, Tamaulipas, Mexico: Spatial and Temporal Distribution MARTHA REGUERO AND ANDREA RAZ-GUZMA´ N Molluscs were collected in Laguna Madre from seagrass beds, macroalgae, and bare substrates with a Renfro beam net and an otter trawl. The species list includes 96 species and 48 families. Six species are dominant (Bittiolum varium, Costoanachis semiplicata, Brachidontes exustus, Crassostrea virginica, Chione cancellata, and Mulinia lateralis) and 25 are commercially important (e.g., Strombus alatus, Busycoarctum coarctatum, Triplofusus giganteus, Anadara transversa, Noetia ponderosa, Brachidontes exustus, Crassostrea virginica, Argopecten irradians, Argopecten gibbus, Chione cancellata, Mercenaria campechiensis, and Rangia flexuosa).
    [Show full text]
  • Casgy09002.Pdf
    UNIVERSITY OF CALIFORNIA, SAN DIEGO Movement patterns, habitat preferences, and fisheries biology of the common thresher shark (Alopias vulpinus) in the Southern California Bight A dissertation submitted in partial satisfaction of the requirements for the degree Doctor of Philosophy in Marine Biology by Daniel Patrick Cartamil Committee in charge: Professor Jeffrey B. Graham, Chair Professor David M. Checkley Professor Philip A. Hastings Professor Cleridy E. Lennert Professor Richard H. Rosenblatt Professor David S. Woodruff 2009 i IGNATURE PAGE The dissertation of Daniel Patrick Cartamil is approved, and it is acceptable in quality and form for publication on microfilm and electronically: ________________________________________ ________________________________________ ________________________________________ ________________________________________ ________________________________________ Chair University of California, San Diego 2009 iii EPIGRAPH “The swordfish swimmes under the whale, and pricketh him upward. The thresher keepeth above him, and with a mighty great thing like unto a flail, hee so bangeth the whale, that hee will roare as though it thundered, and doth give him such blowes with his weapon, that you would think it to be the crake of a great shot” Block Island fisherman, 1609 iv TABLE OF CONTENTS Signature Page .......................................................................................................... iii Epigraph ...................................................................................................................
    [Show full text]
  • Os Nomes Galegos Dos Moluscos 2020 2ª Ed
    Os nomes galegos dos moluscos 2020 2ª ed. Citación recomendada / Recommended citation: A Chave (20202): Os nomes galegos dos moluscos. Xinzo de Limia (Ourense): A Chave. https://www.achave.ga /wp!content/up oads/achave_osnomesga egosdos"mo uscos"2020.pd# Fotografía: caramuxos riscados (Phorcus lineatus ). Autor: David Vilasís. $sta o%ra est& su'eita a unha licenza Creative Commons de uso a%erto( con reco)ecemento da autor*a e sen o%ra derivada nin usos comerciais. +esumo da licenza: https://creativecommons.org/ icences/%,!nc-nd/-.0/deed.g . Licenza comp eta: https://creativecommons.org/ icences/%,!nc-nd/-.0/ ega code. anguages. 1 Notas introdutorias O que cont!n este documento Neste recurso léxico fornécense denominacións para as especies de moluscos galegos (e) ou europeos, e tamén para algunhas das especies exóticas máis coñecidas (xeralmente no ámbito divulgativo, por causa do seu interese científico ou económico, ou por seren moi comúns noutras áreas xeográficas) ! primeira edición d" Os nomes galegos dos moluscos é do ano #$%& Na segunda edición (2$#$), adicionáronse algunhas especies, asignáronse con maior precisión algunhas das denominacións vernáculas galegas, corrixiuse algunha gralla, rema'uetouse o documento e incorporouse o logo da (have. )n total, achéganse nomes galegos para *$+ especies de moluscos A estrutura )n primeiro lugar preséntase unha clasificación taxonómica 'ue considera as clases, ordes, superfamilias e familias de moluscos !'uí apúntanse, de maneira xeral, os nomes dos moluscos 'ue hai en cada familia ! seguir
    [Show full text]
  • Database of Bibliography of Living/Fossil
    www.shark-references.com Version 16.01.2018 Bibliography database of living/fossil sharks, rays and chimaeras (Chondrichthyes: Elasmobranchii, Holocephali) Papers of the year 2017 published by Jürgen Pollerspöck, Benediktinerring 34, 94569 Stephansposching, Germany and Nicolas Straube, Munich, Germany ISSN: 2195-6499 DOI: 10.13140/RG.2.2.32409.72801 copyright by the authors 1 please inform us about missing papers: [email protected] www.shark-references.com Version 16.01.2018 Abstract: This paper contains a collection of 817 citations (no conference abstracts) on topics related to extant and extinct Chondrichthyes (sharks, rays, and chimaeras) as well as a list of Chondrichthyan species and hosted parasites newly described in 2017. The list is the result of regular queries in numerous journals, books and online publications. It provides a complete list of publication citations as well as a database report containing rearranged subsets of the list sorted by the keyword statistics, extant and extinct genera and species descriptions from the years 2000 to 2017, list of descriptions of extinct and extant species from 2017, parasitology, reproduction, distribution, diet, conservation, and taxonomy. The paper is intended to be consulted for information. In addition, we provide data information on the geographic and depth distribution of newly described species, i.e. the type specimens from the years 1990 to 2017 in a hot spot analysis. New in this year's POTY is the subheader "biodiversity" comprising a complete list of all valid chimaeriform, selachian and batoid species, as well as a list of the top 20 most researched chondrichthyan species. Please note that the content of this paper has been compiled to the best of our abilities based on current knowledge and practice, however, possible errors cannot entirely be excluded.
    [Show full text]
  • SHARKS an Inquiry Into Biology, Behavior, Fisheries, and Use DATE
    $10.00 SHARKS An Inquiry into Biology, Behavior, Fisheries, and Use DATE. Proceedings of the Conference Portland, Oregon USA / October 13-15,1985 OF OUT IS information: PUBLICATIONcurrent most THIS For EM 8330http://extension.oregonstate.edu/catalog / March 1987 . OREGON STATG UNIVERSITY ^^ GXTENSION S€RVIC€ SHARKS An Inquiry into Biology, Behavior, Fisheries, and Use Proceedings of a Conference Portland, Oregon USA / October 13-15,1985 DATE. Edited by Sid Cook OF Scientist, Argus-Mariner Consulting Scientists OUT Conference Sponsors University of Alaska Sea Grant MarineIS Advisory Program University of Hawaii Sea Grant Extension Service Oregon State University Extension/Sea Grant Program University of Southern California Sea Grant Program University of Washington Sea Grant Marine Advisory Program West Coast Fisheries Development Foundation Argus-Mariner Consulting Scientistsinformation: PUBLICATIONcurrent EM 8330 / March 1987 most THISOregon State University Extension Service For http://extension.oregonstate.edu/catalog TABLE OF CONTENTS Introduction, Howard Horton 1 Why, Are We Talking About Sharks? Bob Schoning 3 Shark Biology The Importance of Sharks in Marine Biological Communities Jose Castro.. 11 Estimating Growth and Age in Sharks Gregor Cailliet 19 Telemetering Techniques for Determining Movement Patterns in SharksDATE. abstract Donald Nelson 29 Human Impacts on Shark Populations Thomas Thorson OF 31 Shark Behavior Understanding Shark Behavior Arthur MyrbergOUT 41 The Significance of Sharks in Human Psychology Jon Magnuson 85 Pacific Coast Shark Attacks: What is theIS Danger? abstract Robert Lea... 95 The Forensic Study of Shark Attacks Sid Cook 97 Sharks and the Media Steve Boyer 119 Recent Advances in Protecting People from Dangerous Sharks abstract Bernard Zahuranec information: 127 Shark Fisheries and Utilization U.S.
    [Show full text]