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  • Basin Scale Analysis, Synthesis and Integration; BH-FAV; Boston Harbour; BOV_1985; BPS_1; BPS_2; BPS_3; BPS_4; BPS_5; BPS_6; BPS_7; BPS_8; Carbon per cell; Cell biovolume; Chicamacomico River, Bestpitch Bridge; Choptank River; CHR_2000; Ciliates, cell biovolume; Ciliates, equivalent spherical diameter; Equivalent spherical diameter; EURO-BASIN; EUR-OCEANS; European network of excellence for Ocean Ecosystems Analysis; Event label; EXP; Experiment; F_ehrenbergii_FEEDEXP_1; F_ehrenbergii_FEEDEXP_2; F_taraikaensis_FEEDEXP; FEEDEXP_CILIATES_1978; FEEDEXP_CILIATES_1986; FEEDEXP_CILIATES_1988; FEEDEXP_CILIATES_1991; FEEDEXP_CILIATES_1996; FEEDEXP_CILIATES_2005; Grazing rate as carbon per individual; Gross growth efficiency; Kosterfjord; KUNSAN_MKE_1; KUNSAN_MKE_2; L_spiralis_FEEDEXP; Latitude of event; Longitude of event; ManKyeong Estuary; Narragansett Bay; NBAY_1985; NBAY_1986; outer Oslofjord; PDQ82; PERCH_POND_FALMA_1; PERCH_POND_FALMA_2; PLA; Plankton net; Prey/Predator, carbon per cell ratio; Prey/Predator, cell biovolume ratio; Prey/Predator, equivalent spherical diameter ratio; PUGET_SOUND_1994; Puget Sound, Salish Sea; Reference/source; S_sulcatum_FEEDEXP_1; S_sulcatum_FEEDEXP_2; Strombidium_FEEDEXP; Taxon/taxa; Treatment: temperature; Uniform resource locator/link to reference; Water sample; WS  (1)
  • Phytoplankton  (1)
Document type
Keywords
Publisher
Years
  • 1
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    Unknown
    Data compilation of ciliates growth rate, grazing rate and gross gowth efficiency from field and labratory experiments (2014)
    PANGAEA
    In:  Supplement to: Sailley, Sevrine; Buitenhuis, Erik Theodoor (2014): Microzooplankton functional responses in the lab and in the field. Earth System Science Data Discussions, 7(1), 149-167, https://doi.org/10.5194/essdd-7-149-2014
    Details
    Publication Date: 2024-01-26
    Description: The present data compilation includes ciliates growth rate, grazing rate and gross growth efficiency determined either in the field or in laboratory experiments. From the existing literature, we synthesized all data that we could find on cilliate. Some sources might be missing but none were purposefully ignored. Field data on microzooplankton grazing are mostly comprised of grazing rate using the dilution technique with a 24h incubation period. Laboratory grazing and growth data are focused on pelagic ciliates and heterotrophic dinoflagellates. The experiment measured grazing or growth as a function of prey concentration or at saturating prey concentration (maximal grazing rate). When considering every single data point available (each measured rate for a defined predator-prey pair and a certain prey concentration) there is a total of 1485 data points for the ciliates, counting experiments that measured growth and grazing simultaneously as 1 data point.
    Keywords: Basin Scale Analysis, Synthesis and Integration; BH-FAV; Boston Harbour; BOV_1985; BPS_1; BPS_2; BPS_3; BPS_4; BPS_5; BPS_6; BPS_7; BPS_8; Carbon per cell; Cell biovolume; Chicamacomico River, Bestpitch Bridge; Choptank River; CHR_2000; Ciliates, cell biovolume; Ciliates, equivalent spherical diameter; Equivalent spherical diameter; EURO-BASIN; EUR-OCEANS; European network of excellence for Ocean Ecosystems Analysis; Event label; EXP; Experiment; F_ehrenbergii_FEEDEXP_1; F_ehrenbergii_FEEDEXP_2; F_taraikaensis_FEEDEXP; FEEDEXP_CILIATES_1978; FEEDEXP_CILIATES_1986; FEEDEXP_CILIATES_1988; FEEDEXP_CILIATES_1991; FEEDEXP_CILIATES_1996; FEEDEXP_CILIATES_2005; Grazing rate as carbon per individual; Gross growth efficiency; Kosterfjord; KUNSAN_MKE_1; KUNSAN_MKE_2; L_spiralis_FEEDEXP; Latitude of event; Longitude of event; ManKyeong Estuary; Narragansett Bay; NBAY_1985; NBAY_1986; outer Oslofjord; PDQ82; PERCH_POND_FALMA_1; PERCH_POND_FALMA_2; PLA; Plankton net; Prey/Predator, carbon per cell ratio; Prey/Predator, cell biovolume ratio; Prey/Predator, equivalent spherical diameter ratio; PUGET_SOUND_1994; Puget Sound, Salish Sea; Reference/source; S_sulcatum_FEEDEXP_1; S_sulcatum_FEEDEXP_2; Strombidium_FEEDEXP; Taxon/taxa; Treatment: temperature; Uniform resource locator/link to reference; Water sample; WS
    Type: Dataset
    Format: text/tab-separated-values, 5268 data points
    Location Call Number Limitation Availability
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    DATA PANGAEA
  • 2
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    Unknown
    Responses of summer phytoplankton biomass to changes in top-down forcing : insights from comparative modelling (2018)
    Details
    Publication Date: 2022-05-25
    Description: Author Posting. © The Author(s), 2018. This is the author's version of the work. It is posted here under a nonexclusive, irrevocable, paid-up, worldwide license granted to WHOI. It is made available for personal use, not for redistribution. The definitive version was published in Ecological Modelling 376 (2018): 54-67, doi:10.1016/j.ecolmodel.2018.03.003.
    Description: The present study describes the responses of summer phytoplankton biomass to changes in top-down forcing (expressed as zooplankton mortality) in three ecosystems (the North Sea, the Baltic Sea and the Nordic Seas) across different 3D ecosystem models. In each of the model set-ups, we applied the same changes in the magnitude of mortality (±20%) of the highest trophic zooplankton level (Z1). Model results showed overall dampened responses of phytoplankton relative to Z1 biomass. Phytoplankton responses varied depending on the food web structure and trophic coupling represented in the models. Hence, a priori model assumptions were found to influence cascades and pathways in model estimates and, thus, become highly relevant when examining ecosystem pressures such as fishing and climate change. Especially, the different roles and parameterizations of additional zooplankton groups grazed by Z1, and their importance for the outcome, emphasized the need for better calibration data. Spatial variability was high within each model indicating that physics (hydrodynamics and temperature) and nutrient dynamics also play vital roles for ecosystem responses to top-down effects. In conclusion, the model comparison indicated that changes in top-down forcing in combination with the modelled food-web structure affect summer phytoplankton biomass and, thereby, indirectly influence water quality of the systems.
    Description: The work was supported by the EU grant “Vectors of Change in Oceans and Seas, Marine Life, Impact and Economic Sectors” (Vectors, FP7/2010-2013) and The Danish Council for Strategic Research to the project “Integrated Management of Agriculture, Fishery, Environment and Economy” (IMAGE, grant no. 09-067259).
    Keywords: Plankton functional types ; Trophic cascades ; Zooplankton mortality ; Phytoplankton ; Ensemble modelling
    Repository Name: Woods Hole Open Access Server
    Type: Preprint
    Location Call Number Limitation Availability
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    PAPER (OA)
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