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Carbon, nitrogen and phosphorus elemental stoichiometry in aquacultured and wild-caught fish and consequences for pelagic nutrient dynamics (2011)

Czamanski, Marie ; Nugraha, Adi ; Pondaven, Philippe ; [et al.]

Springer

In: Marine Biology. 2011; 158(12): 2847-2862. Published 2011 Sep 11. doi: 10.1007/s00227-011-1783-7.

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Publication Date: 2011-09-11

Print ISSN: 0025-3162

Electronic ISSN: 1432-1793

Topics: Biology

Published by Springer

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Composition of diatom communities and their contribution to plankton biomass in the naturally iron-fertilized region of Kerguelen in the Southern Ocean (2016)

Lasbleiz, Marine ; Leblanc, Karine ; Armand, Leanne K. ; [et al.]

Oxford University Press

In: FEMS Microbiology Ecology. 2016; 92(11): fiw171. Published 2016 Aug 10. doi: 10.1093/femsec/fiw171.

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Publication Date: 2016-08-10

Print ISSN: 0168-6496

Electronic ISSN: 1574-6941

Topics: Biology

Published by Oxford University Press on behalf of Federation of European Microbiological Societies.

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Influence of diatom diversity on the ocean biological carbon pump (2017)

Tréguer, Paul ; Bowler, Chris ; Moriceau, Brivaela ; [et al.]

Springer Nature

In: Nature Geoscience. 2017; 11(1): 27-37. Published 2017 Dec 18. doi: 10.1038/s41561-017-0028-x.

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Publication Date: 2017-12-18

Description: Diatoms sustain the marine food web and contribute to the export of carbon from the surface ocean to depth. They account for about 40% of marine primary productivity and particulate carbon exported to depth as part of the biological pump. Diatoms have long been known to be abundant in turbulent, nutrient-rich waters, but observations and simulations indicate that they are dominant also in meso- and submesoscale structures such as fronts and filaments, and in the deep chlorophyll maximum. Diatoms vary widely in size, morphology and elemental composition, all of which control the quality, quantity and sinking speed of biogenic matter to depth. In particular, their silica shells provide ballast to marine snow and faecal pellets, and can help transport carbon to both the mesopelagic layer and deep ocean. Herein we show that the extent to which diatoms contribute to the export of carbon varies by diatom type, with carbon transfer modulated by the Si/C ratio of diatom cells, the thickness of the shells and their life strategies; for instance, the tendency to form aggregates or resting spores. Model simulations project a decline in the contribution of diatoms to primary production everywhere outside of the Southern Ocean. We argue that we need to understand changes in diatom diversity, life cycle and plankton interactions in a warmer and more acidic ocean in much more detail to fully assess any changes in their contribution to the biological pump. © 2017 Macmillan Publishers Limited, part of Springer Nature. All rights reserved.

Print ISSN: 1752-0894

Electronic ISSN: 1752-0908

Topics: Geosciences

Published by Springer Nature

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Surface diatom community composition and species-specific contribution to carbon biomass, live and empty cell abundances over the Kerguelen region in the Southern Ocean (KEOPS 2 program) (2016)

Lasbleiz, Marine ; Leblanc, Karine ; Armand, Leanne K ; [et al.]

PANGAEA

In: Supplement to: Lasbleiz, Marine; Leblanc, Karine; Armand, Leanne K; Christaki, Urania; Georges, Clément; Obernosterer, Ingrid; Quéguiner, Bernard; King, Gary M (2016): Composition of diatom communities and their contribution to plankton biomass in the naturally iron-fertilized region of Kerguelen in the Southern Ocean. FEMS Microbiology Ecology, 92(11), fiw171, https://doi.org/10.1093/femsec/fiw171

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Publication Date: 2023-07-09

Description: In the naturally iron-fertilized surface waters of the northern Kerguelen Plateau region, the early spring diatom community composition and contribution to plankton carbon biomass were investigated and compared with the High Nutrient Low Chlorophyll (HNLC) surrounding waters (October-November 2011, KEOPS 2). The large iron-induced blooms were dominated by small diatom species belonging to the genera Chaetoceros (Hyalochaete) and Thalassiosira, which rapidly responded to the onset of favorable light-conditions in the meander of the Polar Front. In comparison, the iron-limited HNLC area was typically characterized by autotrophic nanoeukaryote-dominated communities and by larger and more heavily silicified diatom species (e.g. Fragilariopsis spp.). Our results support the hypothesis that diatoms are valuable vectors of carbon export to depth in naturally iron-fertilized systems of the Southern Ocean. Comparison with the diatom assemblage composition of a sediment trap deployed in the iron-fertilized area suggests that the dominant Chaetoceros (Hyalochaete) cells were less efficiently exported than the less abundant yet heavily silicified cells of Thalassionema nitzschioides and Fragilariopsis kerguelensis. Our observations emphasize the strong influence of species-specific diatom cell properties combined with trophic interactions on matter export efficiency, and illustrate the tight link between the specific composition of phytoplankton communities and the biogeochemical properties characterizing the study area.

Keywords: Actinocyclus curvatulus; Actinocyclus curvatulus, biomass as carbon; Asteromphalus hookeri; Asteromphalus hookeri, biomass as carbon; Asteromphalus hyalinus; Asteromphalus hyalinus, biomass as carbon; Asteromphalus parvulus; Asteromphalus parvulus, biomass as carbon; Azpeitia tabularis; Azpeitia tabularis, biomass as carbon; Biomass estimation after Cornet-Barthaux et al. (2007); Bottle number; Chaetoceros aequatoriale, biomass as carbon; Chaetoceros aequatorialis; Chaetoceros aequatorialis, biomass as carbon; Chaetoceros atlanticus; Chaetoceros atlanticus, biomass as carbon; Chaetoceros atlanticus var. neapolitanus; Chaetoceros atlanticus var. neapolitanus, biomass as carbon; Chaetoceros bulbosus; Chaetoceros bulbosus, biomass as carbon; Chaetoceros concavicornis; Chaetoceros concavicornis, biomass as carbon; Chaetoceros convolutus; Chaetoceros convolutus, biomass as carbon; Chaetoceros criophilus; Chaetoceros criophilus, biomass as carbon; Chaetoceros decipiens; Chaetoceros decipiens, biomass as carbon; Chaetoceros dichaeta; Chaetoceros dichaeta, biomass as carbon; Chaetoceros flexuosus; Chaetoceros flexuosus, biomass as carbon; Chaetoceros mitra; Chaetoceros mitra, biomass as carbon; Chaetoceros peruvianus; Chaetoceros peruvianus, biomass as carbon; Chaetoceros radicans; Chaetoceros radicans, biomass as carbon; Chaetoceros socialis; Chaetoceros socialis, biomass as carbon; Chaetoceros spp.; Chaetoceros spp., biomass as carbon; Chaetoceros spp. resting spores; Chaetoceros spp. resting spores, biomass as carbon; Corethron inerme; Corethron inerme, biomass as carbon; Corethron pennatum; Corethron pennatum, biomass as carbon; Coscinodiscus sp.; Coscinodiscus sp., biomass as carbon; CTD/Rosette; CTD-RO; Dactyliosolen antarcticus; Dactyliosolen antarcticus, biomass as carbon; Dactyliosolen tenuijunctus; Dactyliosolen tenuijunctus, biomass as carbon; DATE/TIME; DEPTH, water; Diatoms; Diatoms, biomass as carbon; Diatoms, centrales; Diatoms, centrales, biomass as carbon; Diatoms, pennales; Diatoms, pennales indeterminata; Diatoms, pennales indeterminata, biomass as carbon; Elevation of event; Eucampia antarctica; Eucampia antarctica, biomass as carbon; Event label; Fragilariopsis kerguelensis; Fragilariopsis kerguelensis, biomass as carbon; Fragilariopsis pseudonana; Fragilariopsis pseudonana, biomass as carbon; Fragilariopsis separanda; Fragilariopsis separanda, biomass as carbon; Guinardia cylindrus; Guinardia cylindrus, biomass as carbon; Kerguelen Plateau; Latitude of event; Leptocylindrus danicus; Leptocylindrus danicus, biomass as carbon; Leptocylindrus mediterraneus; Leptocylindrus mediterraneus, biomass as carbon; Longitude of event; Marion Dufresne (1995); MD188; MD188_A3-2_CTD-108; MD188_E-1_CTD-028; MD188_E-3_CTD-051; MD188_E-4E_CTD-095; MD188_E-4W_CTD-081; MD188_E-5_CTD-115; MD188_F-L_CTD-064; MD188_R-2_CTD-018; Membraneis challengeri; Membraneis challengeri, biomass as carbon; Membraneis imposter; Membraneis imposter, biomass as carbon; Membraneis sp.; Membraneis sp., biomass as carbon; Navicula spp.; Navicula spp., biomass as carbon; Nitzschia bicapitata; Nitzschia bicapitata, biomass as carbon; Nitzschia closterium; Nitzschia closterium, biomass as carbon; Nitzschia longissima; Nitzschia longissima, biomass as carbon; Odontella weissflogii; Odontella weissflogii, biomass as carbon; OISO_20, KEOPS 2; Paralia spp.; Paralia spp., biomass as carbon; Plagiotropis spp.; Plagiotropis spp., biomass as carbon; Pleurosigma sp.; Pleurosigma sp., biomass as carbon; Proboscia alata; Proboscia alata, biomass as carbon; Proboscia inermis; Proboscia inermis, biomass as carbon; Proboscia truncata; Proboscia truncata, biomass as carbon; Pseudo-nitzschia spp.; Pseudo-nitzschia spp., biomass as carbon; Quantitative phytoplankton method (Utermöhl, 1958); Radiation, photosynthetically active; Rhizosolenia antennata; Rhizosolenia antennata, biomass as carbon; Rhizosolenia chunii; Rhizosolenia chunii, biomass as carbon; Rhizosolenia crassa; Rhizosolenia crassa, biomass as carbon; Rhizosolenia pungens; Rhizosolenia pungens, biomass as carbon; Rhizosolenia simplex; Rhizosolenia simplex, biomass as carbon; Rhizosolenia styliformis; Rhizosolenia styliformis, biomass as carbon; Rhizosolenia styliformis var. longispina; Rhizosolenia styliformis var. longispina, biomass as carbon; Thalassionema nitzschioides var. lanceolata; Thalassionema nitzschioides var. lanceolata, biomass as carbon; Thalassionema nitzschioides var. nitzschioides; Thalassionema nitzschioides var. nitzschioides, biomass as carbon; Thalassionema nitzschioides var. parva; Thalassionema nitzschioides var. parva, biomass as carbon; Thalassiosira gracilis; Thalassiosira gracilis, biomass as carbon; Thalassiosira lentiginosa; Thalassiosira lentiginosa, biomass as carbon; Thalassiosira spp.; Thalassiosira spp., biomass as carbon; Thalassiosira tumida; Thalassiosira tumida, biomass as carbon; Thalassiothrix antarctica; Thalassiothrix antarctica, biomass as carbon

Type: Dataset

Format: text/tab-separated-values, 11715 data points

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