The fate of discarded appendicularian houses: degradation by the copepod, Microsetella norvegica, and other agents

Despite the potential importance of zooplankton in degradation of marine snow, the association of colonising zooplankton with discarded appendicularian houses has not been investigated in northern areas. We sampled the vertical distributions of appendicularians, houses and potential zooplankton colo...

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Bibliographic Details
Published in:Journal of plankton research 2007-07, Vol.29 (7), p.641-654
Main Authors: Koski, Marja, Møller, Eva F., Maar, Marie, Visser, Andre W.
Format: Article
Language:English
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Aquatic crustaceans
Biodegradation
Biological and medical sciences
Copepoda
Degradation
Distribution
Feed composition
Feeding
Fundamental and applied biological sciences. Psychology
General aspects
Houses
Invertebrate larvae
Invertebrates
Larvae
Less representative or incertae sedis groups: acanthocephala, chaetognatha, gnathostomulida, lophophoria, merostomata, mesozoa, myxozoa, nematorhyncha, pararthropoda, placozoa, priapuloidea, prochordata, pycnogonida, rotifera
Marine
Marine snow
Microsetella norvegica
Plankton
Synecology
Vertical distribution
Zooplankton
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Summary:Despite the potential importance of zooplankton in degradation of marine snow, the association of colonising zooplankton with discarded appendicularian houses has not been investigated in northern areas. We sampled the vertical distributions of appendicularians, houses and potential zooplankton colonisers at two stations in the central North Sea during late summer. In addition, grazing experiments were performed with the copepod Microsetella norvegica, which was assumed to be the main contributor to house degradation. The results were used in (i) inverse modelling, to estimate the factors which were significant in shaping the vertical distribution of houses and (ii) calculations to estimate potential house degradation rates. M. Norvegica was able to feed on appendicularian houses, with feeding rates up to 0.42 g C (g C)−1 day−1 (0.14 μg C ind.−1 day−1). The model results suggested that the vertical distribution of houses was shaped by sinking of houses, bacterial degradation and feeding of M. norvegica and invertebrate larvae. The estimated community degradation rate by M. norvegica was low, whereas invertebrate larvae had degradation rates close to bacterial degradation. We conclude that at the typical concentrations of M. norvegica in the North Sea (≤104 ind. m−2), its role in marine snow degradation is likely to be small. Degradation by other zooplankton groups, such as invertebrate larvae, can, however, be substantial.
ISSN:0142-7873
1464-3774
DOI:10.1093/plankt/fbm046