A. Boetius, In situ fluxes and zonation of microbial activity in surface sediments of, p.314, 2006.

J. W. Deming, A. L. Reysenbach, S. A. Macko, and C. R. Smith, Evidence for the 316 microbial basis of a chemoautotrophic invertebrate community at a whale fall on the deep 317 seafloor: Bone-colonizing bacteria and invertebrate endosymbionts, Microscopy Research 318 and Technique, pp.162-170, 1997.

D. L. Distel, A. R. Baco, E. Chuang, W. Morrill, C. Cavanaugh et al., Do 320 mussels take wooden steps to deep-sea vents?, Nature, vol.403, issue.6771, pp.725-726, 2000.
DOI : 10.1038/35001667

N. Dubilier, Dual symbiosis in a Bathymodiolus sp. mussel from a methane seep on 323, 2005.
URL : https://hal.archives-ouvertes.fr/hal-00152530

S. Duperron, M. C. Laurent, F. Gaill, and O. Gros, Sulphur-oxidizing extracellular 326 bacteria in the gills of Mytilidae associated with wood falls. FEMS microbiology ecology Frenkiel, Gill structure in Lucina pectinata, p.335, 1996.

A. Yatabe and T. Okutani, Three-year investigations into sperm whale-fall ecosystems 341, 2007.

O. Gros and F. Gaill, Extracellular bacterial association in gills of «wood mussels», p.343, 2007.
URL : https://hal.archives-ouvertes.fr/hal-00753023

O. Gros, J. Guibert, and F. Gaill, Gill-symbiosis in mytilidae associated with wood fall environments, Zoomorphology, vol.284, issue.3, pp.163-172, 2007.
DOI : 10.1007/s00435-007-0035-3
URL : https://hal.archives-ouvertes.fr/hal-00755290

O. Gros, M. Liberge, and H. Felbeck, Interspecific infection of aposymbiotic juveniles 347, 2003.

F. Gaill, Autonomous potentiometric sensor for in situ sulfide monitoring in marine 357 sulfidic media, Geophysical Research Abstracts, vol.10, pp.2008-11476, 2008.

L. Bris, N. Sarradin, P. M. Pennec, and S. , A new deep-sea probe for in situ pH 359 measurement in the environment of hydrothermal vent biological communities, p.360, 2001.

S. B. Leschine, Cellulose Degradation in Anaerobic Environments, Annual Review of Microbiology, vol.49, issue.1, p.362, 1995.
DOI : 10.1146/annurev.mi.49.100195.002151

J. Lorion, S. Duperron, O. Gros, C. Cruaud, and S. Samadi, Several deep-sea mussels 364 and their associated symbionts are able to live both on wood and whale falls, Proceedings 365 of the Royal Society Serie B Biological sciences DOI: 10.1098/rspb, 1101.

B. L. Lewis and P. J. Brendel, Use of voltammetric solid-state (micro) electrodes for 369 studying biogeochemical processes: Laboratory measurements to real time measurements 370 with an in situ electrochemical analyzer (ISEA), Marine Chemistry, vol.108, pp.221-235, 2008.

J. Ott, M. Bright, and S. Bulgheresi, Marine Microbial Thiotrophic Ectosymbioses, p.378, 2004.
DOI : 10.1201/9780203507810.ch4

A. Pernthaler, J. Pernthaler, and R. Amann, Fluorescence in situ hybridization and 382 catalyzed reporter deposition for the identification of marine bacteria, p.383, 2002.

D. Rickard and G. W. Lutheriii, Chemistry of Iron Sulfides, Chemical Reviews, vol.107, issue.2, pp.514-562, 2007.
DOI : 10.1021/cr0503658

C. Rinke, R. Lee, S. Katz, and M. Bright, The effects of sulphide on growth and 387 behaviour of the thiotrophic Zoothamnium niveum symbiosis, Proceedings of the Royal 388, 2007.

M. Wagner, M. Horn, J. A. Ott, and M. Bright, Candidatus thiobios zoothamnicoli," 391 an ectosymbiotic bacterium covering the giant marine ciliate Zoothamnium niveum Depth-related structure and ecological significance of cold-seep communities -A, 2003.