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, “Microbial biofilms associated with fluid chemistry and megafaunal colonization at post-eruptive deep-sea hydrothermal vents”, Deep-Sea Research Part II: Topical Studies in Oceanography, vol. 121, pp. 31–40, 2015.
, “Temporal trends in vent fluid iron and sulfide chemistry following the 2005/2006 eruption at East Pacific Rise, 9 degrees 50 ' N”, Geochemistry, Geophysics, Geosystems, vol. 14, pp. 759–765, 2013.
, “Chemistry, Temperature, and Faunal Distributions at Diffuse-Flow Hydrothermal Vents Comparison of Two Geologically Distinct Ridge Systems”, Oceanography, vol. 25, pp. 234–245, 2012.
, “The East Pacific Rise Between 9 degrees N and 10 degrees N: Twenty-Five Years of Integrated, Multidisciplinary Oceanic Spreading Center Studies”, Oceanography, vol. 25, pp. 18–43, 2012.
, “Hydrothermal vents as a kinetically stable source of iron-sulphide-bearing nanoparticles to the ocean”, Nature Geoscience, vol. 4, pp. 367–371, 2011.
, “Adaptation of chemosynthetic microorganisms to elevated mercury concentrations in deep-sea hydrothermal vents”, Limnology and Oceanography, vol. 54, pp. 41–49, 2009.
, “Pre- and post-eruption diffuse flow variability among tubeworm habitats at 9 degrees 50′ north on the East Pacific Rise”, Deep-Sea Research. Part II: Topical Studies in Oceanography, vol. 56, pp. 1607–1615, 2009.
, “Time-series chemical and temperature habitat characterization of diffuse flow hydrothermal sites at 9 degrees 50′N East Pacific Rise”, Deep-Sea Research. Part II: Topical Studies in Oceanography, vol. 56, pp. 1616–1621, 2009.
, “Hydrothermal vent mussel habitat chemistry, pre- and post-eruption at 9 degrees 50′North on the East Pacific Rise”, Journal of Shellfish Research, vol. 27, pp. 169–175, 2008.
, “Interrelationships between vent fluid chemistry, temperature, seismic activity, and biological community structure at a mussel-dominated, deep-sea hydrothermal vent along the East Pacific Rise”, Journal of Shellfish Research, vol. 27, pp. 177–190, 2008.
, “Use of voltammetric solid-state (micro)electrodes for studying biogeochemical processes: Laboratory measurements to real time measurements with an in situ electrochemical analyzer (ISEA)”, Marine Chemistry, vol. 108, pp. 221–235, 2008.
, “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.
, “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.
, “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.
, “Sulfur speciation monitored in situ with solid state gold amalgam voltammetric microelectrodes: Polysulfides as a special case in sediments, microbial mats and hydrothermal vent waters”, Journal of Environmental Monitoring, vol. 3, pp. 61–66, 2001.
, “Microbial essentials at hydrothermal vents”, Nature, vol. 404, p. 835, 2000.
, “210-Po and 210-Pb disequilibrium in the hydrothermal vent fluids and chimney deposits from Juan de Fuca Ridge”, Geophysical Research Letters, vol. 22, pp. 3175–3178, 1995.