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  • 11_Midwater_trawl; 24_Bongo_net; 26_Midwater_trawl; 29_Midwater_trawl; 33_Midwater_trawl; 38_Midwater_trawl; 43_Midwater_trawl; 58_Midwater_trawl; 7_Dip_net; 7_Midwater_trawl; BA03_CanTrawl250; BA04_CanTrawl250; BONGO; Bongo net; Calculated; Carbon/Phosphorus ratio; CPE1_Dip_net; CS02_CanTrawl250; CS09_CanTrawl250; CS13_CanTrawl250; CS15_CanTrawl250; CS18_CanTrawl250; Ctenophore; DATE/TIME; DEPTH, water; Duration; Edwards Modulyo Freeze Dryer (Oakville, Ontario, CA); EP02_CanTrawl250; Event label; Gear; H02_CanTrawl250; Hand net; Heteropod; HN; Hope_Island_Dip_net; I_Midwater_trawl; IBC01_CanTrawl250; IBC03_CanTrawl250; IBC10_CanTrawl250; Identification; IVI10_CanTrawl250; IVI15_CanTrawl250; Jellyfish; JF03_CanTrawl250; Latitude of event; Life stage; LJS07_CanTrawl250; Location; Longitude of event; Measured using callipers; Methods of Seawater Analysis, Third Edition (Grasshoff et al., 1999); Midwater trawl; Month; MSN; Multiple opening/closing net; MWT; Nitrogen/Phosphorus ratio; Northeast Pacific; P12_Multinet_Medi; P26_Ring_net; Parameter; Phosphorus, total; QCSD01_CanTrawl250; QCSD02_CanTrawl250; QCSD04_CanTrawl250; QCST02_CanTrawl250; QCST05_CanTrawl250; QCST07_CanTrawl250; QCST11_CanTrawl250; QCST12_CanTrawl250; QCST19_CanTrawl250; RI01_CanTrawl250; RI05_CanTrawl250; Ring net; RN; Salish Sea; Salp; Sample type; Size; Sooke_Bay_Dip_net; Species; Station label; stoichiometry; Subarctic Northeast Pacific; T01_CanTrawl250; T02_CanTrawl250; T04_CanTrawl250; T06_CanTrawl250; T07_Dip_net; Tissue, dry mass; Vessel; VI_north_tip_Dip_net; VI02_CanTrawl250; VI03_CanTrawl250; VI04_CanTrawl250; VI07_CanTrawl250; VI08_CanTrawl250; VI09_CanTrawl250; VI12_CanTrawl250; VI14_CanTrawl250; VI22_CanTrawl250; VI25_Bongo_net; Weighted; Wet mass; Year of observation  (1)
  • AWI_BioOce; Biological Oceanography @ AWI; Calculated; Event label; Experimental treatment; German Bight, North Sea; HelgolandRoads_temora_longicornis_2016; Kabeltonne; Replicate; Temora longicornis, female, absorption efficiency as carbon; Temora longicornis, female, absorption efficiency as nitrogen; Temora longicornis, female, egg production rate as carbon per individual; Temora longicornis, female, egg production rate as nitrogen per individual; Temora longicornis, female, excretion as nitrogen per individual; Temora longicornis, female, fecal pellet production as carbon per individual; Temora longicornis, female, fecal pellet production as nitrogen per individual; Temora longicornis, female, ingestion rate as carbon per individual; Temora longicornis, female, ingestion rate as nitrogen per individual; Temora longicornis, female, net egg production efficiency as carbon; Temora longicornis, female, net egg production efficiency as nitrogen; Temora longicornis, female, net growth efficiency as carbon; Temora longicornis, female, net growth efficiency as nitrogen; Temora longicornis, female, respiration as carbon per individual; Temora longicornis, female, somatic growth rate as carbon per individual; Temora longicornis, female, somatic growth rate as nitrogen per individual  (1)
Publikationsart
Schlagwörter
Verlag/Herausgeber
Erscheinungszeitraum
  • 1
    facet.materialart.
    Unbekannt
    Efficiency calculations for Temora longicornis under different nutrient regimes (2018)
    PANGAEA
    Details
    Publikationsdatum: 2023-07-06
    Schlagwort(e): AWI_BioOce; Biological Oceanography @ AWI; Calculated; Event label; Experimental treatment; German Bight, North Sea; HelgolandRoads_temora_longicornis_2016; Kabeltonne; Replicate; Temora longicornis, female, absorption efficiency as carbon; Temora longicornis, female, absorption efficiency as nitrogen; Temora longicornis, female, egg production rate as carbon per individual; Temora longicornis, female, egg production rate as nitrogen per individual; Temora longicornis, female, excretion as nitrogen per individual; Temora longicornis, female, fecal pellet production as carbon per individual; Temora longicornis, female, fecal pellet production as nitrogen per individual; Temora longicornis, female, ingestion rate as carbon per individual; Temora longicornis, female, ingestion rate as nitrogen per individual; Temora longicornis, female, net egg production efficiency as carbon; Temora longicornis, female, net egg production efficiency as nitrogen; Temora longicornis, female, net growth efficiency as carbon; Temora longicornis, female, net growth efficiency as nitrogen; Temora longicornis, female, respiration as carbon per individual; Temora longicornis, female, somatic growth rate as carbon per individual; Temora longicornis, female, somatic growth rate as nitrogen per individual
    Materialart: Dataset
    Format: text/tab-separated-values, 240 data points
    Standort Signatur Einschränkungen Verfügbarkeit
    BibTip Andere fanden auch interessant ...
    DATA PANGAEA
  • 2
    facet.materialart.
    Unbekannt
    Phosphorus content and elemental ratios of gelatinous and soft-bodied zooplankton from the Northeast Pacific (2021)
    PANGAEA
    Details
    Publikationsdatum: 2024-04-25
    Beschreibung: Climate change and anthropogenic disturbances, among other factors, can change the seawater stoichiometry (C/N/P) and consequently elemental ratios of phytoplankton. This change in prey stoichiometry may not be tolerated by all grazer/predator species. Gelatinous and soft-bodied zooplankton (GZ) are suggested to be more resilient to such changes. We sampled GZ species (12 taxa in total) in the Northeast Pacific off British Columbia (Canada), determined their phosphorus (P) content and elemental ratios (C/P, N/P), and analysed intraspecific variability associated with size and ontogeny. P was determined as orthophosphate after acidic oxidative hydrolysis with 5 % H2SO4 according to Grasshoff et al. (1999). Carbon (C) and nitrogen (N) data were taken from Lüskow et al. (2021). P % DW (dry weight) decreased with size for Aequorea sp., Aurelia labiata, Cyanea capillata, and Salpa aspera (species with sufficient sample sizes). P % DW differed significantly for two development stages of the salp S. aspera. C/P and N/P were mostly size- and stage-independent. C/P values of GZ were generally higher than values of crustacean zooplankton.
    Schlagwort(e): 11_Midwater_trawl; 24_Bongo_net; 26_Midwater_trawl; 29_Midwater_trawl; 33_Midwater_trawl; 38_Midwater_trawl; 43_Midwater_trawl; 58_Midwater_trawl; 7_Dip_net; 7_Midwater_trawl; BA03_CanTrawl250; BA04_CanTrawl250; BONGO; Bongo net; Calculated; Carbon/Phosphorus ratio; CPE1_Dip_net; CS02_CanTrawl250; CS09_CanTrawl250; CS13_CanTrawl250; CS15_CanTrawl250; CS18_CanTrawl250; Ctenophore; DATE/TIME; DEPTH, water; Duration; Edwards Modulyo Freeze Dryer (Oakville, Ontario, CA); EP02_CanTrawl250; Event label; Gear; H02_CanTrawl250; Hand net; Heteropod; HN; Hope_Island_Dip_net; I_Midwater_trawl; IBC01_CanTrawl250; IBC03_CanTrawl250; IBC10_CanTrawl250; Identification; IVI10_CanTrawl250; IVI15_CanTrawl250; Jellyfish; JF03_CanTrawl250; Latitude of event; Life stage; LJS07_CanTrawl250; Location; Longitude of event; Measured using callipers; Methods of Seawater Analysis, Third Edition (Grasshoff et al., 1999); Midwater trawl; Month; MSN; Multiple opening/closing net; MWT; Nitrogen/Phosphorus ratio; Northeast Pacific; P12_Multinet_Medi; P26_Ring_net; Parameter; Phosphorus, total; QCSD01_CanTrawl250; QCSD02_CanTrawl250; QCSD04_CanTrawl250; QCST02_CanTrawl250; QCST05_CanTrawl250; QCST07_CanTrawl250; QCST11_CanTrawl250; QCST12_CanTrawl250; QCST19_CanTrawl250; RI01_CanTrawl250; RI05_CanTrawl250; Ring net; RN; Salish Sea; Salp; Sample type; Size; Sooke_Bay_Dip_net; Species; Station label; stoichiometry; Subarctic Northeast Pacific; T01_CanTrawl250; T02_CanTrawl250; T04_CanTrawl250; T06_CanTrawl250; T07_Dip_net; Tissue, dry mass; Vessel; VI_north_tip_Dip_net; VI02_CanTrawl250; VI03_CanTrawl250; VI04_CanTrawl250; VI07_CanTrawl250; VI08_CanTrawl250; VI09_CanTrawl250; VI12_CanTrawl250; VI14_CanTrawl250; VI22_CanTrawl250; VI25_Bongo_net; Weighted; Wet mass; Year of observation
    Materialart: Dataset
    Format: text/tab-separated-values, 1583 data points
    Standort Signatur Einschränkungen Verfügbarkeit
    BibTip Andere fanden auch interessant ...
    DATA PANGAEA
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