THE MARINE MIXOTROPH DINOBRYON BALTICUM (CHRYSOPHYCEAE): PHAGOTROPHY AND SURVIVAL IN A COLD OCEAN1 |
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| Authors: | Cynthia H. McKenrie Don Deibel Madhu A. Paranjape Raymond J. Thompson |
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| Affiliation: | 1. Ocean Sciences Centre, Memorial University of Newfoundland, St. John's, Newfoundland, Canada A1C 5S7;2. Department of Fisheries and Oceans, Northwest Atlantic Fisheries Centre, St. John's, Newfoundland, Canada A1C 5X1 |
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| Abstract: | The marine chrysophyte Dinobryon balticum (Schzütt) Lemm. was one of the dominant members of the phytoplankton community (1.8×103 cells-L−1) in June and July in Conception Bay, Newfoundland. Dinobryon balticum colonies were common only in samples from June and July. The cells were concentrated at 5 m (X±SD=1.11±4 × 105 cells.L−1) and at 40 m (3.32±2×104.L−1) depths. Colonies were composed of up to 560 cells with a mean (±SD) colony size of 10 ± 1 cells at 5 m and 40 ± 8 cells at 40 m. Fluorescent latex bead-uptake experiments conducted with field samples indicated that this marine species was capable of phagotrophy and that twice as many Dinobryon cells were ingesting beads at 40 m than at 5 m, although the ingestion rates for those cells actively ingesting beads were similar at both depths. This chrysophyte was found in association with bacteria-and nutrient-rich microhabitats of microaggregates and fecal pellets. The cells and colonies observed in this study appeared to be healthy, as demonstrated by their appearance and their ability to ingest beads. |
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| Keywords: | Chrysophyta colony size Dinobryon balticum fluorescent beads grazing microhabitat mixotroph phagotrophy |
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