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Published January 20, 2013 | Version v1
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Nematode succession at deep-sea hydrothermal vents after a recent volcanic eruption with the description of two dominant species

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Bright, Sabine Gollner Maria Miljutina Monika (2013): Nematode succession at deep-sea hydrothermal vents after a recent volcanic eruption with the description of two dominant species. Organisms Diversity & Evolution (New York, N.Y.) 13 (3): 349-371, DOI: 10.1007/s13127-012-0122-2, URL: http://dx.doi.org/10.1007/s13127-012-0122-2

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urn:lsid:plazi.org:pub:FFB5FFF99B2FFFE7FFB2FFD64B0F6B07

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Publication: 10.1371/journal.pone.0012321 (DOI)
Publication: 10.1007/s00442-009-1390-1 (DOI)
Publication: 10.1371/journal.pone.0012449 (DOI)
Has part
Figure: 10.5281/zenodo.13170799 (DOI)
Figure: 10.5281/zenodo.13170801 (DOI)
Figure: 10.5281/zenodo.13170803 (DOI)

References

  • Adao, H., Vincx, M., Marques, J. C. (2004). Seasonal dynamics of free-living nematode communities in association with sediments of the Zostera noltii seagrass beds in the Mira estuary (SW PORTUGAL). Twelfth International Meiofauna Conference, Ravenna, Italy, pp 122.
  • Bastian, H. C. (1865). Monograph on the Anguillulidae, or free Nematoids, marine, land, and freshwater, with descriptions of 100 new species. Transactions of the Linnean Society of London, 25, 73-184.
  • Clarke, K. R., & Gorley, R. N. (2001). PRIMER v5: User manual/ tutorial. Plymouth: PRIMER-E Ltd.
  • Copley, J. T. P., Flint, H. C., Ferrero, T. J., & Van Dover, C. L. (2007). Diversity of meiofauna and free-living nematodes in hydrothermal vent mussel beds on the northern and southern East Pacific Rise. Journal of the Marine Biological Association of the United Kingdom, 87(5), 1141-1152.
  • Danovaro, R., & Gambi, C. (2002). Biodiversity and trophic structure of nematode assemblages in seagrass systems: evidence for a coupling with changes in food availability. Marine Biology, 141, 667-677.
  • De Man, J. G. (1893). Cinquieme note sur les Nematodes libres de la mer du Nord et de la Manche. Memoires Societe Zoologique deFrance, 6, 81-125.
  • Dean, R. L., & Connell, J. H. (1987). Marine invertebrates in an algal succession. I. Variations in abundance and diversity with succession. Journal of Experimental Marine Biology and Ecology, 109, 195-215.
  • Deprez, T., et al. (2005). NeMys. World Wide Web electronic publication. www.nemys.ugent.be: version (3/2012).
  • dos Santos, G. A. P., Derycke, S., Fonseca-Genevois, V. G., Coelho, L. C. B. B., Correia, M. T. S., & Moens, T. (2008). Differential effects of food availability on population growth and fitness of three species of estuarine, bacterial-feeding nematodes. Journal of Experimental Marine Biology and Ecology, 355, 27-40.
  • Etter, R. J., & Mullineaux, L. S. (2001). Deep-sea communities. In M. D. Bertness, S. D. Gaines, & M. E. Hay (Eds.), Marine community ecology (pp. 367-394). Sunderland: Sinauer Associates Inc.
  • Filipjev, I. (1922). Encore sur les Nematodes libres de la Mer Noire. Trudy Stavropol'skogo Naucno-Issledovatel'skogo Instituta Sel'- skogo Chozjajstva, 1, 83-184.
  • Flint, H. C., Copley, J. T. P., Ferrero, T. J., & Van Dover, C. L. (2006). Patterns of nematode diversity at hydrothermal vents on the East Pacific Rise. Cahiers de Biologie Marine, 47, 365-370.
  • Fonseca, G., & Decraemer, W. (2008). State of the art of the free-living marine Monhysteridae (Nematoda). Journal of the Marine Biological Association of the United Kingdom, 88(7), 1371-1139.
  • Fricke, H., Giere, O., Stetter, K., Alfredsson, G. A., Kristjansson, J. K., Stoffers, P., et al. (1989). Hydrothermal vent communities at the shallow subpolar Mid-Atlantic ridge. Marine Biology, 102, 425-429.
  • Gallucci, F., Moens, T., Vanreusel, A., & Fonseca, G. (2008). Active colonisation of disturbed sediments by deep-sea nematodes: evidence for the patch mosaic model. Marine Ecology Progress Series, 367, 173-183.
  • Gambi, C., Vanreusel, A., & Danovaro, R. (2003). Biodiversity of nematode assemblages from deep-sea sediments of the Atacama Slope and Trench (South Pacific Ocean). Deep-Sea Research Part I, 50, 103-117.
  • Gerlach, S. A., & Riemann, F. (1973). The Bremerhaven checklist of aquatic nematodes. A catalogue of Nematoda adenophorea excluding dorylaimida (part I). Veroffentlichungen des Instituts fuer Meeresforschung in Bremerhaven, Supplements, 4(1), 1-403.
  • Giere, O. (2009). Meiobenthology, the microscopic motile fauna of aquatic sediments. Berlin: Springer Verlag.
  • Gollner, S., Zekely, J., Govenar, B., Nemeschkal, H. L., Le Bris, N., Fisher, C. R., et al. (2007). Tubeworm-associated permanent meiobenthic communities from two chemically different hydrothermal vent sites on the East Pacific Rise. Marine Ecology Progress Series, 337, 39-49.
  • Gollner, S., Riemer, B., Martinez Arbizu, P., Le Bris, N., & Bright, M. (2010). Diversity of meiofauna from the 9°50'N East Pacific Rise across a gradient of hydrothermal fluid emissions. PLoS One, 5 (8), e1232. doi:10.1371/journal.pone.0012321.
  • Gregg, T. K. P., Fornari, D. J., Perfit, M. R., Haymon, M. R., & Fink, J. H. (1996). Rapid emplacement of a mid-ocean ridge lava flow on the East Pacific Rise 9°46'-51´N. Earth and Planetary Science Letters, 144, E1-E7.
  • Haymon, R. M., Fornari, D. J., Edwards, M. H., Carbotte, S., Wright, D., & Macdonald, K. C. (1991). Hydrothermal vent distribution along the East Pacific Rise crest (9.09'-54'N) and its relationship to magmatic and tectonic processes on fast-spreading mid-ocean ridges. Earth and Planetary Science Letters, 104, 513-534.
  • Higgins, P. R., & Thiel, H. (1988). Introduction to the study of meiofauna. Washington DC: Smithsonian Insitution Press.
  • Jensen, P. (1986a). Nematode fauna in the sulphide-rich brine seep and adjacent bottoms of the East Flower Garden, NW Gulf of Mexico. Marine Biology, 92, 489-503.
  • Jensen, P. (1986b). The nematode fauna in the sulphide-rich brine seep and adjacent bottoms of the East Flower Garden, NW Gulf of Mexico. II. Monhysterida. Zoologica Scripta, 15(1), 1-11.
  • Jensen, P. (1987). Differences in microhabitat, abundance, biomass and body size between oxybiotic and thiobiotic free-living marine nematodes. Oecologia, 71, 564-567.
  • Lambshead, P. J. D., Tietjen, J., Glover, A., Ferrero, T., Thistle, D., & Gooday, A. J. (2001). Impact of large-scale natural physical disturbance on the diversity of deep-sea North Atlantic nematodes. Marine Ecology Progress Series, 214, 121-126.
  • Lambshead, P. J. D., Brown, A. J., Ferrero, T. J., Hawkins, L. E., Smith, C. R., & Mitchell, N. J. (2003). Biodiversity of nematode assemblages from the region of the Clarion-Clipperton Fracture Zone, an area of commercial mining interest. BioMedCentral Ecology, 3, 1.
  • Lorenzen, S. (1973). Freilebende Meeresnematoden aus dem Sublittoral der Nordsee und der Kieler Bucht. Veroffentlichungen des Instituts fuer Meeresforschung in Bremerhaven, 14, 103-130.
  • Micoletzky, H. (1924). Letzter Bericht uber freilebende Nematoden aus Suez Sber. Akademie der Wissenschaften Wien (I), 133, 137-179.
  • Miljutin, D. M., Gunnar, G., Miljutina, M., Mokievsky, V. O., FonsecaGenevois, V., & Esteves, A. M. (2010). The state of knowledge on deep-sea nematode taxonomy: how many valid species are known down there? Marine Biodiversity, 40, 143-159.
  • Miljutin, D. M., Miljutina, M. A., Martinez Arbizu, P., & Galeron, J. (2011). Deep-sea nematode assemblage has not recovered 26 years after experimental mining of polymetallic nodules (Clarion-Clipperton Fracture Zone, Tropical Eastern Pacific). Deep-Sea Research I, 58, 885-897.
  • Mullineaux, L. S., Peterson, C. H., Micheli, F., & Mills, S. W. (2003). Successional mechanism varies along a gradient in hydrothermal fluid flux at deep-sea vents. Ecological Monographs, 73(4), 523- 542.
  • Mullineaux, L. S., Micheli, F., Peterson, C. H., Lenihan, H. S., & Markus, L. (2009). Imprint of past environmental regimes on structure and succession of a deep-sea hydrothermal vent community. Oecologia. doi:10.1007/s00442-009-1390-1.
  • Nees, H. A., Lutz, R. A., Shank, T. M., & Luther, G. W. (2009). Pre- and post-eruption diffuse flow variability among tubeworm habitats at 9°50' north on the East Pacific Rise. Deep-Sea Research II, 56, 1607-1615.
  • Odum, E. P. (1969). The strategy of ecosystem development. Science, 164, 262-270.
  • Pavlyuk, O. N. (2004). Meiobenthos of bays of Furugelm Island and Sivuchya Bight (Peter the Great Bay, Sea of Japan). Russian Journal of Marine Biology, 30(3), 151-159.
  • Schuurmans Stekhoven, J. H. (1946). Freilebende marine Nematoden des Skageraks und der Umgebung von Stockholm. Arkiv for zoologi, 37 A(16), 1-91.
  • Schuurmans Stekhoven, J. H. (1950). The free living marine nematodes of the Mediterranean. I. The Bay of Villefranche. Institut Royal des Sciences Naturelles de Belgique Memoires Deuxieme Serie, 2, 1-220.
  • Shank, T. M., Fornari, D. J., Von Damm, K. L., Haymon, R. M., & Lutz, R. A. (1998). Temporal and spatial patterns of biological community development at nascent deep-sea hydrothermal vents (9°50'N, East Pacific Rise). Deep-Sea Research Part II, 45, 465-515.
  • Shirayama, Y. (1992). Studies of meiofauna collected from Iheya Ridge during the dive 541 of the "SHINKAI 2000". Proc JAM- STEC Symp Deep-Sea Res, 1992, 287-290.
  • Sousa, W. P. (2001). Natural disturbance and the dynamcis of marine benthic communities. In M. D. Bertness, S. D. Gaines, & M. E. Hay (Eds.), Marine community ecology (pp. 85-130). Sunderland: Sinauer Associates, Inc.
  • Tietjen, J. H. (1976). Distribution and species diversity of deep-sea nematodes off North Carolina. Deep Sea Research, 23, 755-768.
  • Tolstoy, M., Cowen, J. P., Baker, E. T., Fornari, D. J., Rubin, K. H., Shank, T. M., et al. (2006). A sea-floor spreading event captured by seismometers. Science, 314, 1920-1922.
  • Van Dover, C. L. (2000). The ecology of hydrothermal vents. Princeton: Princeton University Press.
  • Van Gaever, S., Olu, K., Deryke, S., & Vanreusel, A. (2009). Metazoan meiofaunal communities at cold seeps along the Norwegian margin: Influence of habitat heterogeneity and evidence for connection with shallow-water habitats. Deep-Sea Research I, 56, 772-785.
  • Vanaverbeke, J., Steyaert, M., Soetaert, K., Rousseau, V., Van Gansbeke, D., Parent, J., et al. (2004). Changes in structural and functional diversity of nematode communities during a spring phytoplankton bloom in the southern North Sea. Journal of Sea Research, 52, 281- 292.
  • Vanreusel, A., Van den Bossche, I., & Thiermann, F. (1997). Free-living marine nematodes from hydrothermal sediments: similarities with communities from diverse reduced habitats. Marine Ecology Progress Series, 157, 207-219.
  • Vanreusel, A., De Groote, A., Gollner, S., & Bright, M. (2010a). Ecology and biogeography of free-living nematodes associated with chemosynthetic environments in the deep sea: a review. PLoS One, 5(8), e12449. doi:10.1371/journal.pone.0012449.
  • Vanreusel, A., Fonseca, G., Danovaro, R., da Silva, M. C., Esteves, A. M., Ferrero, T., et al. (2010b). The contribution of deep-sea macrohabitat heterogeneity to global nematode diversity. Marine Ecology, 31, 6-20.
  • Vincx, M. (1986). Free-living marine nematodes from the Southern Bight of the North Sea. I. Notes on species of the genera Gonionchus Cobb, 1920, Neochromadora Micoletzky, 1924 and Sabatieria Rouville, 1903. Hydrobiologia, 140, 255-286.
  • Vopel, K., & Thiel, H. (2001). Abyssal nematode assemblages in physically disturbed and adjacent sites of the eastern equatorial Pacific. Deep-Sea Research Part II, 48, 3795-3808.
  • Wieser, W. (1954). Untersuchungen uber die algenbewohnende Mikrofauna mariner Hartboden III. Zur Systematik der freilebenden Nematoden des Mittelmeeres. Mit einer okologischen Untersuchung uber die Beziehung zwischen Nematodenbesiedlung und Sedimentreichtum des Habitats. Hydrobiologia, 6(1-2), 144-217.
  • Wieser, W. (1956). Free-living marine nematodes. III. Axonolaimoidea and Monhysteroidea. (Reports of the Lund University Chile Expedition 1948-49. 26) Lunds Universitets Arsskrift, 52(13).
  • Wieser, W. (1959). Free-living nematodes and other small invertebrates of Puget Sound Beaches. Seattle: University of Washington Press.
  • Wieser, W., & Kanwisher, J. (1961). Ecological and physiological studies on marine nematodes from a small salt marsh near Woods Hole, Massachusetts. Limnology and Oceanography, 6, 262-270.
  • Zekely, J., Gollner, S., Van Dover, C. L., Govenar, B., Le Bris, N., & Bright, M. (2006a). The nematode community and trophic structure of three macrofaunal aggregations at 9° & 11°N East Pacific Rise. Cahiers de Biologie Marine, 47, 477-482.
  • Zekely, J., Sorensen, M. V., & Bright, M. (2006b). Three new nematode species (Monhysteridae) from deep-sea hydrothermal vents. Meiofauna Marina, 15, 25-42.
  • Zekely, J., Van Dover, C. L., Nemeschkal, H. L., & Bright, M. (2006c). Hydrothermal vent meiobenthos associated with Bathymodiolus aggregations from Mid-Atlantic Ridge and East Pacific Rise. Deep-Sea Research Part I, 53, 1163-1378.

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