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Deep-sea nematodes actively colonise sediments, irrespective of the presence of a pulse of organic matter: Results from an in-situ experiment
Guilini, K.; Soltwedel, T.; van Oevelen, D.; Vanreusel, A. (2011). Deep-sea nematodes actively colonise sediments, irrespective of the presence of a pulse of organic matter: Results from an in-situ experiment. PLoS One 6(4): e18912. http://dx.doi.org/10.1371/journal.pone.0018912
In: PLoS One. Public Library of Science: San Francisco. ISSN 1932-6203; e-ISSN 1932-6203
Peer reviewed article  

Available in  Authors 
    Vlaams Instituut voor de Zee: Open access 247422 [ download pdf ]

Keywords
    Nematoda [WoRMS]
    Marine/Coastal

Authors  Top 
  • Guilini, K.
  • Soltwedel, T.
  • van Oevelen, D.
  • Vanreusel, A.

Abstract
    A colonisation experiment was performed in situ at 2500 m water depth at the Arctic deep-sea long-term observatory HAUSGARTEN to determine the response of deep-sea nematodes to disturbed, newly available patches, enriched with organic matter. Cylindrical tubes,laterally covered with a 500 µm mesh, were filled with azoic deep-sea sediment and 13C-labelled food sources diatoms and bacteria). After 10 days of incubation the tubes were analysed for nematode response in terms of colonisation and uptake. Nematodes actively colonised the tubes,however with densities that only accounted for a maximum of 2.13% (51 ind.10 cm-2) of the ambient nematode assemblages. Densities did not differ according to the presence or absence of organic matter, nor according to the type of organic matter added. The fact that the organic matter did not function as an attractant to nematodes was confirmed by the absence of notable 13C assimilation by the colonising nematodes. Overall, colonisationappears to be a process that yields reproducible abundance and diversity patterns, with certain taxa showing more efficiency. Together with the high variability between the colonising nematode assemblages, this lends experimental support to the existence of a spatio-temporal mosaic that emerges from highly localised, partially stochastic community dynamics.

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