The following bibliography has been generated by bringing together all references provided by our content partners. There may be duplication.

References

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  • Boss, K. J. and Turner., R. D. (1980). The Giant White Clam from the Galapagos Rift, Calyptogena magnifica species novum. Malacologia. 20(1), 161-194.
  • Boss, K., R. Turner. 1980. The giant white clam from the Galapagos Rift, Calyptogena magnifica species novum. Malacologia, 20(1): 161-194.
  • Boss, K.J. & Turner, R.D., 1980. The giant white clam from the Galapagos Rift, Calyptogena magnifica species novum. Malacologia 20: 161-194.
  • Boss, K.J. & Turner, R.D.,. 1980. The giant white clam from the Galapagos Rift, Calyptogena magnifica species novum. Malacologia 20: 161-194.
  • Bouchet P.,Gofas S. & Rosenberg G. (2013). WoRMS Mollusca: World Marine Mollusca database (version Feb 2013). In: Species 2000 & ITIS Catalogue of Life, 11th March 2013 (Roskov Y., Kunze T., Paglinawan L., Orrell T., Nicolson D., Culham A., Bailly N., Kirk P., Bourgoin T., Baillargeon G., Hernandez F., De Wever A., eds). Digital resource at www.catalogueoflife.org/col/. Species 2000: Reading, UK.
  • Bouchet, P.; Huber, M.; Rosenberg, G. (2014). Calyptogena magnifica Boss & Turner, 1980. Accessed through: World Register of Marine Species at http://www.marinespecies.org/aphia.php?p=taxdetails&id=464366
  • CHILDRESS J.J., FISHER C.R., FAVUZZI J.A. & N.K. SANDERS (1991) Physiol. Zool.64: 1444-1470.
  • Cary, S., S. Giovannoni. 1993. Transovarial inheritance of endosymbiotic bacteria in clams inhabiting deep-sea hydrothermal vents and cold seeps. Proceedings of the National Academy of Sciences of the United States of America, 90: 5695-5699. Accessed October 19, 2012 at http://www.pnas.org/content/90/12/5695.full.pdf+html.
  • Childress, J., C. Fisher, J. Favuzzi, A. Arp, D. Oros. 1993. The role of a zinc-based, serum-borne sulfide-binding component in the uptake and transport of dissolved sulfide by the chemoautotrophic symbiont-containing clam Calyptogena elongata. The Journal of Experimental Biology, 179: 131-158. Accessed October 20, 2012 at http://jeb.biologists.org/content/179/1/131.short.
  • Coan E.V. & Valentich-Scott P. 2012. Bivalve seashells of tropical West America. Marine bivalve mollusks from Baja California to northern Peru. 2 vols, 1258
  • Desbruyeres, D., Segonzac M., & Bright M. (2006). Handbook of Deep-Sea Hydrothermal Vent Fauna. Denisia. 18, 544.
  • FATTON E. & M. ROUX (1981) C. R. Acad. Sc. Paris, Série III 293: 63-68.
  • FIALA-MÉDIONI A. & C. METIVIER (1986) Mar. Biol. 90: 215-222.
  • FISHER C. et al. (1988) Deep-Sea Res. 35: 1811-1831.
  • Fujikura, K., K. Amaki, J. Barry, Y. Fujiwara, V. Furushima, R. Iwase, H. Yamamoto, T. Maruyama. 2007. Long-term in situ monitoring of spawining behavior and fecundity in Calyptogena spp. Marine Ecology Progress Series, 333: 185-193.
  • Grassle, J. 1985. Hydrothermal vent animals: distribution and biology. Science, 229(4715): 713-717.
  • HURTADO L.A., MATEOS M., LUTZ R.A. & R.C. VRIJENHOEK (2003) Appl. Environm.
  • Hart, S., J. Blusztajn. 1998. Clams as recorders of ocean ridge volcanism and hydrothermal vent field activity. Science, 280(5365): 883-886.
  • Huber M. 2010. Compendium of bivalves. A full-color guide to 3,300 of the world’s marine bivalves. A status on Bivalvia after 250 years of research. Hackenheim: ConchBooks. 901
  • Jones, D. 1983. Sclerochronology: reading the record of the molluscan shell. American Scientist, 71(4): 384-391. Accessed October 20, 2012 at http://www.jstor.org/stable/10.2307/27852138.
  • KENNISH M. & R. LUTZ (1992) Rev. Aquat. Sci. 6: 29-66.
  • KOJIMA S., FUJIKURA K. & T. OKUTANI (2004) Mol. Phylogen. Evol. 32: 396-406
  • Kennish, M., R. Lutz. 1999. Calcium carbonate dissolution rates in deep-sea bivalve shells on the East Pacific Rise at 21°N: results of an 8-year in-situ experiment. Palaeogeography, Palaeoclimatology, Palaeoecology, 154(4): 293-299. Accessed October 20, 2012 at http://www.sciencedirect.com/science/article/pii/S0031018299001029.
  • Kicklighter, C., C. Fisher, M. Hay. 2004. Chemical defense of hydrothermal vent and hydrocarbon seep organisms: a preliminary assessment using shallow-water consumers. Marine Ecology Progress Series, 275: 11-19. Accessed October 20, 2012 at http://smartech.gatech.edu/bitstream/handle/1853/34063/2004_Hay_MEPS_002.pdf?sequence=1.
  • Krylova, E., H. Sahling. 2005. Recent bivalve molluscs of the genus Calyptogena (Vesicomyidae). Journal of MolluscanStudies, 72(4): 359-395. Accessed October 20, 2012 at http://mollus.oxfordjournals.org/content/72/4/359.full.pdf+html.
  • LUTZ R.A., FRITZ L.W. & R.M. CERRATO (1988) Deep-Sea Res. I 35: 1793-1810.
  • Michael, J., R. Lutz. 1999. Calcium carbonate dissolution rates in deep-sea bivalve shells on the East Pacific Rise at 21 deg N: results of an 8-year in-situ experiment. Palaeogeography, Palaeoclimatology, Palaeoecology, 154: 293-299.
  • Micheli, F., C. Peterson, L. Mullineaux, C. Fisher, S. Mills, G. Sancho, G. Johnson, H. Lenihan. 2002. Predation structures communities at deep-sea hydrothermal vents. Ecological Monographs, 72(3): 365–382. Accessed January 03, 2013 at http://micheli.stanford.edu/pdf/69-Michelietal2002EcolMonog.pdf.
  • Microbiol. 69(4): 2058-2064.
  • Powell, M., G. Somero. 1986. Adaptations to sulfide by hydrothermal vent animals: sites and mechanisms of detoxification and metabolism. The Biological Bulletin, 171: 274-290. Accessed October 20, 2012 at http://www.biolbull.org/content/171/1/274.full.pdf+html.
  • RIO M. & M. ROUX (1984) C. R.Acad Sci. Paris, Série II 299: 167-172.
  • Rosenberg, G. 1992. Encyclopedia of Seashells. Dorset: New York. 224 pp.
  • Terwilliger, R., N. Terwilliger, A. Arp. 1983. Thermal vent clam (Calyptogena magnifica) hemoglobin. Science, 219(4587): 981-983.
  • VRIJENHOEK R. et al. (1994) Deep-Sea Res. 41: 1171-1189.
  • Van Dover, C. 2000. The ecology of deep-sea hydrothermal vents. Princeton, NJ: Princeton University Press.

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