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Investigating the effect of ballasting by CaCO3 in Emiliania huxleyi, II: Decomposition of particulate organic matter (2009)

Engel, Anja ; Abramson, Lynn ; Szlosek, Jennifer ; [weitere]

Elsevier

In: Deep-Sea Research Part II-Topical Studies in Oceanography, 56 (18). pp. 1408-1419.

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Publikationsdatum: 2020-03-19

Beschreibung: The quantitative relationship between organic carbon and mineral contents of particles sinking below 1800 m in the ocean indicates that organisms with mineral shells such as coccolithophores are of special importance for transporting carbon into the deep sea. Several hypotheses about the mechanism behind this relationship between minerals and organic matter have been raised, such as mineral protection of organic matter or enhanced sinking rates through ballast addition. We examined organic matter decomposition of calcifying and non-calcifying Emiliania huxleyi cultures in an experiment that allowed aggregation and settling in rotating tanks. Biogenic components such as particulate carbon, particulate nitrogen, particulate volume, pigments, transparent exopolymer particles (TEP), and particulate amino acids in suspended particles and aggregates were followed over a period of 30 d. The overall pattern of decrease in organic matter, the amount of recalcitrant organic matter left after 30 d, and the compositional changes within particulate organic matter indicated that cells without a shell are more subject to loss than calcified cells. It is suggested that biogenic calcite helps in the preservation of particulate organic matter (POM) by offering structural support for organic molecules. Over the course of the experiment, half the particulate organic carbon in both calcifying and non-calcifying cultures was partitioned into aggregates and remained so until the end of the experiment. The partial protection of particulate organic matter from solubilization by biominerals and by aggregation that was observed in our experiment may help explain the robustness of the relationship between organic and mineral matter fluxes in the deep ocean.

Materialart: Article , PeerReviewed

Format: text

DOI: 10.1016/j.dsr2.2008.11.028

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MedFlux: Investigations of particle flux in the Twilight Zone (2009)

Lee, Cindy ; Armstrong, Robert A. ; Cochran, J. Kirk ; [weitere]

Elsevier

In: Deep-Sea Research Part II-Topical Studies in Oceanography, 56 (18). pp. 1363-1368.

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Publikationsdatum: 2020-03-20

Beschreibung: The MedFlux project was devised to determine and model relationships between organic matter and mineral ballasts of sinking particulate matter in the ocean. Specifically we investigated the ballast ratio hypothesis, tested various commonly used sampling and modeling techniques, and developed new technologies that would allow better characterization of particle biogeochemistry. Here we describe the rationale for the project, the biogeochemical provenance of the DYFAMED site, the international support structure, and highlights from the papers published here. Additional MedFlux papers can be accessed at the MedFlux web site (http://msrc.sunysb.edu/MedFlux/).

Materialart: Article , PeerReviewed

Format: text

DOI: 10.1016/j.dsr2.2008.12.003

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Investigating the effect of ballasting by CaCO3 in Emiliania huxleyi: I. Formation, settling velocities and physical properties of aggregates (2009)

Engel, Anja ; Szlosek, Jennifer ; Abramson, Lynn ; [weitere]

Elsevier

In: Deep-Sea Research Part II-Topical Studies in Oceanography, 56 (18). pp. 1396-1407.

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Publikationsdatum: 2020-03-19

Beschreibung: To investigate the role of ballasting by biogenic minerals in the export of organic matter in the ocean, a laboratory experiment was conducted comparing aggregate formation and settling velocity of non-calcifying and calcifying strains of the coccolithophore Emiliania huxleyi. Experiments were conducted by making aggregates using a roller table and following aggregate properties during incubation for a period of 40 days. Size, shape, and settling velocities of aggregates were described by image analysis of video pictures recorded during the roller tank incubation. Our results show that biogenic calcite has a strong effect on the formation rate and abundance of aggregates and on aggregate properties such as size, excess density, porosity, and settling velocity. Aggregates of calcifying cells (AGGCAL) formed faster, were smaller and had higher settling velocities, excess densities, and mass than those of non-calcifying cells (AGGNCAL). AGGCAL showed no loss during the duration of the experiment, whereas AGGNCAL decreased in size after 1 month of incubation. Potential mechanisms that can explain the different patterns in aggregate formation are discussed. Comparison of settling velocities of AGGCAL and AGGNCAL with aggregates formed by diatoms furthermore indicated that the ballast effect of calcite is greater than that of opal. Together these results help to better understand why calcite is of major importance for organic matter fluxes to the deep ocean.

Materialart: Article , PeerReviewed

Format: text

DOI: 10.1016/j.dsr2.2008.11.027

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