] , “A continuous flow electrochemical cell for analysis of chemical species and ions at high pressure: Laboratory, shipboard and hydrothermal vent results.”, in Environmental electrochemistry: Analyses of trace element biogeochemistry, Washington, D. C.: American Chemical Society, 2002, pp. 54–73.
, “In situ voltammetry at deep-sea hydrothermal vents”, in Environmental electrochemistry: Analyses of trace element biogeochemistry, American Chemical Society, 2002, pp. 40–51.
, “Chemical speciation drives hydrothermal vent ecology”, Nature, vol. 410, pp. 813–816, 2001.
, “Chemoautotrophic symbiosis in a hydrothermal vent gastropod”, Biological Bulletin, vol. 174, pp. 373–378, 1988.
, “Colonization of nascent, deep-sea hydrothermal vents by a novel Archaeal and Nanoarchaeal assemblage”, Environmental Microbiology, vol. 8, pp. 114–125, 2006.
, “Genetic variation among endosymbionts of widely distributed vestimentiferan tubeworms”, Applied and Environmental Microbiology, vol. 66, pp. 651–658, 2000.
, “Growth and phylogenetic properties of novel bacteria belonging to the epsilon subdivision of the proteobacteria enriched from Alvinella pompejana and deep-sea hydrothermal vents”, Applied and Environmental Microbiology, vol. 67, pp. 4566–4572, 2001.
, “Identification and localization of bacterial endosymbionts in hydrothermal vent taxa with symbiont-specific polymerase chain reaction amplification and in situ hybridization techniques”, Molecular Marine Biology and Biotechnology, vol. 2, pp. 51–62, 1993.
, “Lipid biomarkers of deep-sea hydrothermal vent polychaetes - Alvinella pompejana, A-caudata, Paralvinella grasslei and Hesiolyra bergii”, Deep-Sea Research. Part I: Oceanographic Research Papers, vol. 52, pp. 2333–2352, 2005.
, “Lipid composition of deep-sea hydrothermal vent tubeworm Riftia packyptila, crabs Munidopsis subsquatnosa and Bythograea thermydron, mussels Bathymodiolus sp and limpets Lepetodrilus spp”, Comparative Biochemistry and Physiology B-Biochemistry {&} Molecular Biology, vol. 141, pp. 196–210, 2005.
, “Microbial essentials at hydrothermal vents”, Nature, vol. 404, p. 835, 2000.
, “Multiple trophic resources for a chemoautotrophic community at a deep-sea brine seep at the base of the Florida Escarpment”, Marine Biology, vol. 100, pp. 411–418, 1989.
, “Mussel growth supported by methane as sole carbon and energy source”, Science, vol. 240, pp. 78–80, 1988.
, “A new device for sampling small volumes of water from marine micro-environments”, Deep-Sea Research. Part I: Oceanographic Research Papers, vol. 46, pp. 1279–1287, 1999.
, “Observations on the reproductive biology of the hydrothermal vent tube worm Riftia pachyptila”, Marine Ecology Progress Series, vol. 52, pp. 89–94, 1989.
, “Physicochemical characterization of the microhabitat of the epibionts associated with Alvinella pompejana, a hydrothermal vent annelid”, Geochimica et Cosmochimica Acta, vol. 68, pp. 2055–2066, 2004.
, “The splicing factor U2AF65 is functionally conserved in the thermotolerant deep-sea worm Alvinella pompejana”, Biochimica et Biophysica Acta (BBA) - Gene Structure and Expression, vol. 1727, pp. 197–207, 2005.
, “Superoxide dismutase from the eukaryotic thermophile Alvinella pompejana: Structures, stability, mechanism, and insights into amyotrophic lateral sclerosis”, Journal of Molecular Biology, vol. 385, pp. 1534–1555, 2009.