Vestimentifera

Vestimentifera

References

Bergquist, D. C., Urcuyo I. A., & Fisher C. R. (2002).  Establishment and persistence of seep vestimentiferan aggregations on the upper Louisiana slope of the Gulf of Mexico. Marine Ecology Progress Series. 241, 89-98. Abstract
Bergquist, D. C., Ward T., Cordes E. E., McNelis T., Howlett S., Kosoff R., et al. (2003).  Community structure of vestimentiferan-generated habitat islands from Gulf of Mexico cold seeps. Journal of Experimental Marine Biology and Ecology. 289, 197-222. Abstract
Bright, M., & Lallier F. H. (2010).  The biology of vestimentiferan tubeworms. OCEANOGRAPHY AND MARINE BIOLOGY: AN ANNUAL REVIEW. 48, 213-265.
Cordes, E. E., Arthur M. A., Shea K., Arvidson R. S., & Fisher C. R. (2005).  Modeling the mutualistic interactions between tubeworms and microbial consortia. PLoS Biology. 3, 497-506. Abstract
Cordes, E. E., Bergquist D. C., & Fisher C. R. (2009).  Macro-ecology of Gulf of Mexico cold seeps. Annual Review of Marine Science. 1, 143-168. Abstract
Cordes, E. E., Hourdez S., Predmore B. L., Redding M. L., & Fisher C. R. (2005).  Succession of hydrocarbon seep communities associated with the long-lived foundation species Lamellibrachia luymesi. Marine Ecology Progress Series. 305, 17-29.
Dattagupta, S., Arthur M. A., & Fisher C. R. (2008).  Modification of sediment geochemistry by the hydrocarbon seep tubeworm Lamellibrachia luymesi: A combined empirical and modeling approach. Geochimica et Cosmochimica Acta. 72, 2298-2315. Abstract
Gardiner, S. L., & Jones M. L. (1994).  On the Significance of Larval and Juvenile Morphology for Suggesting Phylogenetic Relationships of the Vestimentifera. American Zoologist. 34, 513-522.
Girguis, P. R., Childress J. J., Freytag J. K., Klose K., & Stuber R. (2002).  Effects of metabolite uptake on proton-equivalent elimination by two species of deep-sea vestimentiferan tubeworm, Riftia pachyptila and Lamelllibrachia cf luymesi: proton elimination is a necessary adaptation to sulfide-oxidizing chemoautotrophic.... The Journal of Experimental Biology. 205, 3055-3066. Abstract
Jarnegren, J., Tobias C. R., Macko S. A., & Young C. M. (2005).  Egg predation fuels unique species associations at deep-sea hydrocarbon seeps. Biological Bulletin. 209, 87-93. Abstract
McMullin, E. R., Bergquist D. C., & Fisher C. R. (2000).  Metazoans in Extreme Environments: Adaptations of Hydrothermal Vent and Hydrocarbon Seep Fauna. Gravitational and Space Biology Bulletin. 13, 13-23. Abstract
McMullin, E. R., Hourdez S., Schaeffer S. W., & Fisher C. R. (2003).  Phylogeny and biogeography of deep sea vestimentiferan tubeworms and their bacterial symbionts. Symbiosis. 34, 1-41. Abstract
McMullin, E. R., Nelson K., Fisher C. R., & Schaeffer S. W. (2010).  Population structure of two deep sea tube worms, Lamellibrachia luymesi and Seepiophila jonesi, from the hydrocarbon seeps of the Gulf of Mexico. Deep-Sea Research I. 57, 1499-1509.
McMullin, E. R., Wood J., & Hamm S. (2004).  Twelve microsatellites for two deep sea polychaete tubeworm species, Lamellibrachia luymesi and Seepiophila jonesi, from the Gulf of Mexico. Molecular Ecology Notes. 4, 1-4. Abstract
Menon, J., Willsie J. K., Tauscher A., & Arp A. J. (2003).  Epidermal ultrastructure and implications for sulfide tolerance in six species of deep-sea polychaetes. Invertebrate Biology. 122, 334-346. Abstract
Struck, T. H., Schult N., Kusen T., Hickman E., Bleidorn C., McHugh D., et al. (2007).  Annelid phylogeny and the status of Sipuncula and Echiura . BMC Evolutionary Biology. 7:57,
Young, C. M., Vazquez E., Metaxas A., & Tyler P. A. (1996).  Embryology of vestimentiferan tube worms from deep-sea methane/sulphide seeps. Nature. 381, 514-516.