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  • 1
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    Phytoplankton biomass accumulation at Chatham Rise, east of New Zealand, measured during the SalpPOOP (TAN1810) campaign onboard the RV Tangaroa (2021)
    PANGAEA
    Details
    Publication Date: 2023-03-27
    Description: Biomass accumulation was assessed by subtracting phytoplankton mortality (due to microzooplankton) from phytoplankton growth rates. Rates of phytoplankton growth and microzooplankton grazing were assessed daily with the dilution technique (Landry and Hassett 1982; doi:10.1007/BF00397668), following the two treatment approach (Landry, Haas et al. 1984 doi:10.3354/meps016127), at six depths within the euphotic zone. We implemented this mini-dilution approach to generate vertically resolved growth and grazing rates, but also conducted a full dilution experiment on the last day of each of the cycles (n = 5) to test linearity assumptions of the method. Seawater collected with the Niskin bottles attached to the CTD rosette at 02:00 h was used to fill a pair of 2.2-L polycarbonate bottles (100%, B and C) while a third bottle (A) was filled with 25% whole seawater diluted with 0.2-µm filtered seawater obtained immediately before by gravity filtration using an Acropak filter cartridge (Pall) directly from the same Niskin bottle. Nutrients (final concentrations in 2.2L bottles; nitrate 0.18 μM, ammonium 4.16 μM, phosphate 15.08, silicate 44.2 μM, and vitamins) were added to bottles A and B in order to ensure the assumption that the same phytoplankton intrinsic growth rate was occurring in WSW and FSW bottles despite dilution (GutiérrezRodríguez, Safi et al. 2020 doi:10.1029/2019JC015550). Bottles were then incubated in situ at the same six depths of collection using a drifting array. Rates were calculated from changes in Chl a concentration and picophytoplankton abundance between the beginning and end of the experiment assuming exponential growth of phytoplankton. Microzooplankton grazing rate was estimated from: µ = (kA – kB)/(1-x) where kA and kB are the observed net rates of change of chl a in bottles A and B, respectively, and x is the fraction of whole seawater in the diluted bottle A (0.25). Phytoplankton growth rate was estimated from µ =m+kB. Photoacclimation effects were corrected from changes in cell chl a fluorescence estimated by flow cytometry during incubations as a proxy of cell chl a content (Gutierrez-Rodriguez, Latasa et al. 2010 doi:10.1016/j.dsr.2009.12.013). These include estimating the photoacclimation index (Phi) from changes in FL3: FSC and calculating an average value from Phi index obtained for pico- and nanoeukaryotic populations weighted by their biomass contribution. Accumulation was calculated by subtracting the C-based estimates of microzooplankton grazing (from the dilution experiments) from the 14C-based NPP.
    Keywords: 14C in-situ incubation; carbon export; Chatham Rise, east of New Zealand; Cycle; Cycle description; Date/Time of event; Date/Time of event 2; DEPTH, water; Event label; Latitude of event; Latitude of event 2; Longitude of event; Longitude of event 2; MULT; Multiple investigations; Net primary production of carbon; Net primary production of carbon, standard deviation; Salp Particle expOrt and Ocean Production; Salp Particle expOrt and Ocean Production (SalpPOOP); SalpPOOP; salps; TAN1810; TAN1810_1; TAN1810_2; TAN1810_3; TAN1810_4; TAN1810_5; TAN1810_cycle_1; TAN1810_cycle_2; TAN1810_cycle_3; TAN1810_cycle_4; TAN1810_cycle_5; Tangaroa
    Type: Dataset
    Format: text/tab-separated-values, 111 data points
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  • 2
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    Salp grazing and fecal pellet production at Chatham Rise, east of New Zealand, measured during the SalpPOOP (TAN1810) campaign onboard the RV Tangaroa (2021)
    PANGAEA
    Details
    Publication Date: 2023-03-25
    Description: Salps were collected using double oblique Bongo tows, with 0.7m diameter frames equipped with 202 µm nets, General Oceanics flow meters, and an RBR temperature depth recorder. Salp specimens (typically 10) from each tow had their guts excised, and chl a and phaeopigments gut contents were measured. A power function was used to fit the size-specific Gpig (chl a + phaeo) contents for each tow, allowing the estimation of Gpig for each size bin per tow, and this was multiplied by the abundance in each size bin. Gut passage time (GPT) was calculated using a modified equation, based on (von Harbou, Dubischar et al. 2011 doi:10.1007/s00227-011-1709-4) where GPT(h) = 2.607*ln(OAL, mm) - 2.6. Grazing was estimated as: G (h-1) = Gpig /GPT, and scaled using a Q10=2. Daily salp grazing rates were obtained by assuming 14 h of day and 10 h of night, coincident with the times and latitudes at which we sampled these communities during the Salp Particle expOrt and Ocean Production (SalpPOOP) campaign. Cycle estimates were calculated by first averaging all day and all night tows separately, and then adding the two estimates. Fecal pellet production was calculated by assuming an egestion efficiency of 0.36 (Huntley, Sykes et al. 1989 doi:10.1007/BF00238291, Pakhomov 2004 doi:10.1016/j.dsr2.2001.03.001, Pakhomov and Froneman 2004 10.1016/j.dsr2.2000.11.002) and converting to carbon values using C:Chl ratios from the phytoplankton growth and grazing experiments combined with NPP, and reported in mg C m-2 d-1. Data is reported by size after binning in 5mm size bins (ranging 1-135mm), and for oozooids and blastozooids separately.
    Keywords: BONGO; Bongo net; Chatham Rise, east of New Zealand; Cycle; Cycle description; Date/Time local; Date/Time of event; Date/Time of event 2; Day; DEPTH, water; Event label; fecal pellet; Latitude of event; Longitude of event; Number; Salpa thompsoni, blastozooid, fecal pellet production as carbon; Salpa thompsoni, oozooid, fecal pellet production as carbon; Salp Particle expOrt and Ocean Production; Salp Particle expOrt and Ocean Production (SalpPOOP); SalpPOOP; salps; Station label; TAN1810; TAN1810_004; TAN1810_008; TAN1810_013; TAN1810_018; TAN1810_023; TAN1810_027; TAN1810_038; TAN1810_043; TAN1810_054; TAN1810_056; TAN1810_057; TAN1810_058; TAN1810_068; TAN1810_070; TAN1810_072; TAN1810_074; TAN1810_089; TAN1810_092; TAN1810_094; TAN1810_097; TAN1810_099; TAN1810_1_004; TAN1810_1_008; TAN1810_1_013; TAN1810_1_018; TAN1810_1_023; TAN1810_1_027; TAN1810_1_038; TAN1810_1_043; TAN1810_1_054; TAN1810_1_056; TAN1810_1_057; TAN1810_1_058; TAN1810_1_068; TAN1810_1_070; TAN1810_1_072; TAN1810_1_074; TAN1810_1_089; TAN1810_1_092; TAN1810_1_094; TAN1810_1_097; TAN1810_1_099; TAN1810_1_106; TAN1810_1_107; TAN1810_106; TAN1810_107; TAN1810_127; TAN1810_135; TAN1810_140; TAN1810_142; TAN1810_153; TAN1810_160; TAN1810_163; TAN1810_165; TAN1810_167; TAN1810_173; TAN1810_175; TAN1810_178; TAN1810_186; TAN1810_2_127; TAN1810_2_135; TAN1810_2_140; TAN1810_2_142; TAN1810_2_153; TAN1810_2_160; TAN1810_2_163; TAN1810_2_165; TAN1810_2_167; TAN1810_2_173; TAN1810_2_175; TAN1810_2_178; TAN1810_2_186; TAN1810_268; TAN1810_271; TAN1810_277; TAN1810_290; TAN1810_292; TAN1810_296; TAN1810_299; TAN1810_301; TAN1810_303; TAN1810_304; TAN1810_306; TAN1810_313; TAN1810_316; TAN1810_4_268; TAN1810_4_271; TAN1810_4_277; TAN1810_4_290; TAN1810_4_292; TAN1810_4_296; TAN1810_4_299; TAN1810_4_301; TAN1810_4_303; TAN1810_4_304; TAN1810_4_306; TAN1810_4_313; TAN1810_4_316; Tangaroa; Water volume, filtered
    Type: Dataset
    Format: text/tab-separated-values, 2597 data points
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  • 3
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    Nutrient concentrations at Chatham Rise, east of New Zealand, measured during the SalpPOOP (TAN1810) campaign onboard the RV Tangaroa (2021)
    PANGAEA
    Details
    Publication Date: 2023-03-27
    Description: Water collection for nutrient analysis was done using a CTD rosette equipped with 24 10L Niskin bottles, at different depths throughout the water column depending on the cast, spanning the euphotic zone to a maximum depth of 200m. Multiple casts were done during five Lagrangian experimental cycles conducted during Salp Particle expOrt and Ocean Production (SalpPOOP), from October to November 2018 in the vicinity of the Chatham Rise (New Zealand). Water was filtered through 25mm Whatman GF/F filters onto clean polyethylene bottles (250ml) and frozen at -20 °C. Analysis was done at the NIWA Hamilton Water Quality Laboratory (New Zealand), using an Astoria Pacific API 300 microsegmented flow analyzer (Astoria-Pacific, Clackamas, OR, United States) following colorimetric the methods outlined in Law et al. (2011; doi:10.1016/j.dsr2.2010.10.018).
    Keywords: Ammonium; carbon export; Chatham Rise, east of New Zealand; CTD; Date/Time local; Date/Time of event; Depth, nominal; DEPTH, water; Event label; Latitude of event; Longitude of event; Nitrate; Phosphate, organic, dissolved; Salp Particle expOrt and Ocean Production; Salp Particle expOrt and Ocean Production (SalpPOOP); SalpPOOP; salps; Sample ID; Segmented flow analyzer, Astoria Pacific, Astoria Analyzer; Silicate, dissolved; TAN1810; TAN1810_015; TAN1810_019; TAN1810_024; TAN1810_028; TAN1810_039; TAN1810_044; TAN1810_051; TAN1810_055; TAN1810_069; TAN1810_075; TAN1810_090; TAN1810_095; TAN1810_098; TAN1810_1_015; TAN1810_1_019; TAN1810_1_024; TAN1810_1_028; TAN1810_1_039; TAN1810_1_044; TAN1810_1_051; TAN1810_1_055; TAN1810_1_069; TAN1810_1_075; TAN1810_1_090; TAN1810_1_095; TAN1810_1_098; TAN1810_1_108; TAN1810_108; TAN1810_137; TAN1810_143; TAN1810_150; TAN1810_155; TAN1810_159; TAN1810_161; TAN1810_176; TAN1810_188; TAN1810_193; TAN1810_197; TAN1810_2_137; TAN1810_2_143; TAN1810_2_150; TAN1810_2_155; TAN1810_2_159; TAN1810_2_161; TAN1810_2_176; TAN1810_2_188; TAN1810_207; TAN1810_214; TAN1810_223; TAN1810_227; TAN1810_230; TAN1810_239; TAN1810_266; TAN1810_272; TAN1810_283; TAN1810_287; TAN1810_298; TAN1810_3_193; TAN1810_3_197; TAN1810_3_207; TAN1810_3_214; TAN1810_3_223; TAN1810_3_227; TAN1810_3_230; TAN1810_3_239; TAN1810_305; TAN1810_308; TAN1810_317; TAN1810_324; TAN1810_331; TAN1810_339; TAN1810_344; TAN1810_353; TAN1810_357; TAN1810_360; TAN1810_371; TAN1810_4_266; TAN1810_4_272; TAN1810_4_283; TAN1810_4_287; TAN1810_4_298; TAN1810_4_305; TAN1810_4_308; TAN1810_4_317; TAN1810_5_324; TAN1810_5_331; TAN1810_5_339; TAN1810_5_344; TAN1810_5_353; TAN1810_5_357; TAN1810_5_360; TAN1810_5_371; Tangaroa
    Type: Dataset
    Format: text/tab-separated-values, 2421 data points
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  • 4
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    Phytoplankton community composition at Chatham Rise, east of New Zealand, measured during the SalpPOOP (TAN1810) campaign onboard the RV Tangaroa (2021)
    PANGAEA
    Details
    Publication Date: 2023-01-30
    Description: Phytoplankton community composition was assessed using chemotaxonomic pigments (including all chlorophyll types, accessory and photoprotective pigments) measured with high performance liquid chromatography (HPLC). Water samples from 7 depths spanning the euphotic zone were collected using a CTD-rosette during the five Lagrangian experimental cycles conducted during Salp Particle expOrt and Ocean Production (SalpPOOP), from October to November 2018 in the vicinity of the Chatham Rise (New Zealand). Depths varied according to experimental cycle, as it was adjusted based on PAR profiles to span the depth to 0.1% of surface irradiance. Chemotaxonomic pigments of phytoplankton in the water column were filtered onto GF/F filters (2L), then immediately flash-frozen in liquid nitrogen, and shipped frozen to Instituto Español de Oceanografía, Centro Oceanográfico de Gijón, where they were extracted for High-performance liquid chromatography (HPLC) analyses following established protocols (doi:10.4319/lom.2014.12.46). For this study, 2 profiles from each experimental cycle were analyzed, and vertically integrated to obtain areal estimates for each cycle. Pigment contributions were normalized by total chlorophyll a (Chl a) to account for potential losses and low yield, and are thus presented as integrated percentages per cycle. These proportions do not always sum to 100 because ancillary pigments/other compounds that cannot be positively identified are not included.
    Keywords: 19-Butanoyloxyfucoxanthin/chlorophyll a ratio; 19-Hexanoyloxyfucoxanthin/chlorophyll a ratio; Alloxanthin/chlorophyll a ratio; carbon export; Chatham Rise, east of New Zealand; Chlorophyll b/chlorophyll a ratio; Cycle; Cycle description; Date/Time of event; Date/Time of event 2; Divinyl chlorophyll a/chlorophyll a ratio; Event label; Fucoxanthin/chlorophyll a ratio; High Performance Liquid Chromatography (HPLC); Latitude of event; Latitude of event 2; Longitude of event; Longitude of event 2; MULT; Multiple investigations; Peridinin/chlorophyll a ratio; Prasinoxanthin/chlorophyll a ratio; Salp Particle expOrt and Ocean Production; Salp Particle expOrt and Ocean Production (SalpPOOP); SalpPOOP; salps; TAN1810; TAN1810_1; TAN1810_2; TAN1810_3; TAN1810_4; TAN1810_5; TAN1810_cycle_1; TAN1810_cycle_2; TAN1810_cycle_3; TAN1810_cycle_4; TAN1810_cycle_5; Tangaroa; Zeaxanthin/chlorophyll a ratio
    Type: Dataset
    Format: text/tab-separated-values, 55 data points
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  • 5
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    Phytoplankton physiology at Chatham Rise, east of New Zealand, measured during the SalpPOOP (TAN1810) campaign onboard the RV Tangaroa (2021)
    PANGAEA
    Details
    Publication Date: 2023-01-30
    Description: Water samples from 7 depths spanning the euphotic zone were collected using a CTD-rosette during the five Lagrangian experimental cycles conducted during Salp Particle expOrt and Ocean Production (SalpPOOP), from October to November 2018 in the vicinity of the Chatham Rise (New Zealand). Depths varied according to experimental cycle, as it was adjusted based on photosynthetically active radiation (PAR) profiles to span the depth to 0.1% of surface irradiance. The physiology of the phytoplankton community was evaluated using the Mini-Fire fast repetition rate fluorometer (FRRF), using approximately 5ml per depth. Fv/Fm and reoxidation of Qa-, the first quinone acceptor of PSII, were evaluated using the Mini-Fire FRRF, which provided indications of phytoplankton stress most likely caused by iron-limitation following the procedure outlined in Gorbunov and Falkowski (2020 doi:10.1002/lno.11581).
    Keywords: carbon export; Chatham Rise, east of New Zealand; Cycle; Cycle description; Date/Time of event; Date/Time of event 2; DEPTH, water; Event label; Fluorometer, fast repetition rate; FRRF; Latitude of event; Latitude of event 2; Longitude of event; Longitude of event 2; MULT; Multiple investigations; Photochemical quantum yield; Photochemical quantum yield, standard deviation; Photosystem II re-opening rate; Photosystem II re-opening rate, standard deviation; Salp Particle expOrt and Ocean Production; Salp Particle expOrt and Ocean Production (SalpPOOP); SalpPOOP; salps; TAN1810; TAN1810_1; TAN1810_2; TAN1810_3; TAN1810_4; TAN1810_5; TAN1810_cycle_1; TAN1810_cycle_2; TAN1810_cycle_3; TAN1810_cycle_4; TAN1810_cycle_5; Tangaroa
    Type: Dataset
    Format: text/tab-separated-values, 197 data points
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  • 6
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    Phytoplankton taxon-specific growth and microzooplankton grazing rates in subantarctic HNLC waters on and off Campbell Plateau southeast of New Zealand during austral autumn (2023)
    PANGAEA
    Details
    Publication Date: 2024-01-15
    Description: Here we present data of phytoplankton pigment and flow cytometry (FCM) data in the water column (CTD_HPLC_FCM_May2022.xlsx) and dilution grazing experiments (DILEX_HPLC_FCM_Conc_May2022.xlsx), and derived apparent growth rates for specific pigment markers and picophytoplankton groups assessed by FCM (APPARENT_GROWTHRATES_May2022.xlsx). Samples and experiments were collected and carried out in subantarctic waters across the Campbell Plateau region southeast of New Zealand. We distinguish between a subset of 'Experimental' stations (n = 8), where serial dilution experiments were conducted and a subset of additional 'Biomass' stations (n = 7), where depth-resolved physico-chemical and biological measurements (e.g., nutrients, size-fractionated chlorophyll a (SF-Chla), optical microscopy, FCM and HPLC) were also undertaken throughout the euphotic zone. 'Experimental' stations were used to characterize phytoplankton group-specific growth and grazing rates and associated carbon production and microzooplankton consumption dynamics in surface-mixed layer waters (10 m) On-plateau (n = 5) and Off-plateau (n = 3) with 'Biomass' stations providing a broader context of the environmental conditions and phytoplankton biomass and taxonomic composition across the region.
    Keywords: diatoms; Ecumenical hypothesis; HNLC subantarctic; Microzooplankton grazing; Phytoplankton growth; prasinophytes
    Type: Dataset
    Format: application/zip, 3 datasets
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  • 7
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    Phytoplankton pigment concentration in high-nutrient low-chlorophyll subantarctic waters on Campbell Plateau, R/V Tangaroa cruise TAN1702 (2019)
    PANGAEA
    In:  National Institute of Water and Atmospheric Research
    Details
    Publication Date: 2024-01-15
    Keywords: 19-Butanoyloxyfucoxanthin; 19-Hexanoyloxyfucoxanthin; 8803; 8809; 8813; 8819; 8824; 8827; 8830; 8836; 8844; 8853; Alloxanthin; Campbell Plateau Physical Oceanography; Chlorophyll a; Chlorophyll b; Chlorophyll c2; CTD/Rosette; CTD-RO; DATE/TIME; DEPTH, water; Diadinoxanthin; Divinyl chlorophyll a; Event label; Fucoxanthin; High Performance Liquid Chromatography (HPLC); HNLC; Latitude of event; Longitude of event; microscopy; Monovinyl chlorophyll a; Neoxanthin; Peridinin; pigments; Prasinoxanthin; Southern Ocean; Station label; subantarctic; TAN1702; TAN1702_12M; TAN1702_17; TAN1702_21-1; TAN1702_28; TAN1702_41; TAN1702_44; TAN1702_49; TAN1702_54; TAN1702_58; TAN1702_64; Tangaroa; Violaxanthin; Zeaxanthin
    Type: Dataset
    Format: text/tab-separated-values, 340 data points
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  • 8
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    Physical oceanography in high-nutrient low-chlorophyll subantarctic waters on Campbell Plateau, R/V Tangaroa cruise TAN1702 (2019)
    PANGAEA
    In:  National Institute of Water and Atmospheric Research
    Details
    Publication Date: 2024-01-15
    Keywords: 8801; 8802; 8803; 8804; 8805; 8806; 8807; 8808; 8809; 8810; 8811; 8812; 8813; 8814; 8815; 8816; 8817; 8818; 8819; 8820; 8821; 8822; 8823; 8824; 8825; 8826; 8827; 8828; 8829; 8830; 8831; 8832; 8833; 8834; 8835; 8836; 8837; 8838; 8839; 8840; 8841; 8842; 8843; 8844; 8845; 8846; 8847; 8848; 8849; 8850; 8851; 8852; 8853; 8854; 8855; 8856; 8857; 8858; Campbell Plateau Physical Oceanography; Cast number; CTD/Rosette; CTD-RO; DATE/TIME; Density, sigma, in situ; Density, sigma-theta (0); DEPTH, water; Event label; Fluorescence; LATITUDE; LONGITUDE; Name; Oxygen; Radiation, photosynthetically active; Salinity; Station label; TAN1702; TAN1702_10; TAN1702_11-1; TAN1702_11-2; TAN1702_12; TAN1702_12M; TAN1702_13; TAN1702_14; TAN1702_15; TAN1702_16; TAN1702_17; TAN1702_17Jo; TAN1702_18; TAN1702_19; TAN1702_20; TAN1702_21-1; TAN1702_21-2; TAN1702_22; TAN1702_23; TAN1702_24; TAN1702_25; TAN1702_27; TAN1702_28; TAN1702_29; TAN1702_31; TAN1702_32; TAN1702_33; TAN1702_34; TAN1702_39; TAN1702_40; TAN1702_41; TAN1702_42; TAN1702_43; TAN1702_44; TAN1702_45; TAN1702_46; TAN1702_47; TAN1702_48; TAN1702_49; TAN1702_50; TAN1702_51; TAN1702_52; TAN1702_53; TAN1702_54; TAN1702_55; TAN1702_56; TAN1702_57; TAN1702_58; TAN1702_59; TAN1702_60; TAN1702_61; TAN1702_62; TAN1702_63; TAN1702_64; TAN1702_65; TAN1702_66; TAN1702_7; TAN1702_8; TAN1702_9; Tangaroa; Temperature, water; Type
    Type: Dataset
    Format: text/tab-separated-values, 787237 data points
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  • 9
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    Phytoplankton abundance in high-nutrient low-chlorophyll subantarctic waters on Campbell Plateau, R/V Tangaroa cruise TAN1702 (2019)
    PANGAEA
    In:  National Institute of Water and Atmospheric Research
    Details
    Publication Date: 2024-01-15
    Keywords: 8803; 8805; 8809; 8811; 8813; 8815; 8819; 8821; 8824; 8825; 8827; 8828; 8830; 8834; 8844; 8847; 8853; 8856; Actinoptychus sp.; Alexandrium sp.; Amphidinium sp.; Campbell Plateau Physical Oceanography; Ceratium fusus; Ceratium lineatum; Chaetoceros affinis; Chaetoceros convolutus; Chaetoceros danicus; Chaetoceros debilis; Chaetoceros decipiens; Chaetoceros didymus; Chaetoceros spp.; Chrysochromulina sp.; Coccolithophoridae; Coccolithus braarudii; Corethron criophilum; Cryptomonas spp.; CTD/Rosette; CTD-RO; Cysts indeterminata; Date/Time of event; DEPTH, water; Diatoms indeterminata; Dinoflagellate indeterminata; Dinophysis rotundata; Dinophysis sp.; Diplopsalis sp.; Distephanus speculum; Ditylum brightwellii; Eucampia zoodiacus; Event label; Fragilaria spp.; Goniodoma sp.; Guinardia flaccida; Guinardia spp.; Gymnodinium sp.; Gyrodinium sp.; Heterosigma akashiwo; HNLC; Indeterminata; Karenia sp.; Katodinium sp.; Latitude of event; Leptocylindrus danicus; Leptocylindrus mediterraneus; Longitude of event; Meuniera membranacea; microscopy; Navicula spp.; Nitzschia closterium; Nitzschia sigmaformis; Nitzschia sp.; Optical microscopy; Oxytoxum sp.; pigments; Podolampas sp.; Proboscia alata; Prorocentrum minimum; Prorocentrum sp.; Prorocentrum triestinum; Protoperidinium bipes; Protoperidinium sp.; Prymnesiophytes; Pseudo-nitzschia sp.; Pyramimonas sp.; Pyrophacus sp.; Rhizosolenia imbricata; Rhizosolenia spp.; Scrippsiella trochoidea; Skeletonema sp.; Station label; Stauroneis sp.; subantarctic; TAN1702; TAN1702_12; TAN1702_17; TAN1702_20; TAN1702_21-1; TAN1702_28; TAN1702_31; TAN1702_34; TAN1702_40; TAN1702_41; TAN1702_43; TAN1702_44; TAN1702_47; TAN1702_49; TAN1702_54; TAN1702_56; TAN1702_58; TAN1702_62; TAN1702_64; Tangaroa; Thalassionema nitzschioides; Thalassiosira minima; Thalassiosira sp.; Torodinium spp.
    Type: Dataset
    Format: text/tab-separated-values, 1278 data points
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  • 10
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    Phytoplankton carbon biomass in high-nutrient low-chlorophyll subantarctic waters on Campbell Plateau, R/V Tangaroa cruise TAN1702 (2019)
    PANGAEA
    In:  National Institute of Water and Atmospheric Research
    Details
    Publication Date: 2024-01-15
    Keywords: 8803; 8805; 8809; 8811; 8813; 8815; 8819; 8821; 8824; 8825; 8827; 8828; 8830; 8834; 8844; 8847; 8853; 8856; Actinoptychus sp., biomass as carbon; Alexandrium sp., biomass as carbon; Amphidinium sp., biomass as carbon; Campbell Plateau Physical Oceanography; Ceratium fusus, biomass as carbon; Ceratium lineatum, biomass as carbon; Chaetoceros affinis, biomass as carbon; Chaetoceros convolutus, biomass as carbon; Chaetoceros danicus, biomass as carbon; Chaetoceros debilis, biomass as carbon; Chaetoceros decipiens, biomass as carbon; Chaetoceros didymus, biomass as carbon; Chaetoceros spp., biomass as carbon; Chrysochromulina sp., biomass as carbon; Coccolithophoridae, biomass as carbon; Coccolithus braarudii, biomass as carbon; Corethron criophilum, biomass as carbon; Cryptomonas spp., biomass as carbon; CTD/Rosette; CTD-RO; Cysts indeterminata, biomass as carbon; Date/Time of event; DEPTH, water; Diatoms indeterminata, biomass as carbon; Dinoflagellate indeterminata, biomass as carbon; Dinophysis rotundata, biomass as carbon; Dinophysis sp., biomass as carbon; Diplopsalis sp., biomass as carbon; Distephanus speculum, biomass as carbon; Ditylum brightwellii, biomass as carbon; Eucampia zoodiacus, biomass as carbon; Event label; Fragilaria spp., biomass as carbon; Goniodoma sp., biomass as carbon; Guinardia flaccida, biomass as carbon; Guinardia spp., biomass as carbon; Gymnodinium sp., biomass as carbon; Gyrodinium sp., biomass as carbon; Heterosigma akashiwo, biomass as carbon; HNLC; Indeterminata, biomass as carbon; Karenia sp., biomass as carbon; Katodinium sp., biomass as carbon; Latitude of event; Leptocylindrus danicus, biomass as carbon; Leptocylindrus mediterraneus, biomass as carbon; Longitude of event; Meuniera membranacea, biomass as carbon; microscopy; Navicula spp., biomass as carbon; Nitzschia closterium, biomass as carbon; Nitzschia sigmaformis, biomass as carbon; Nitzschia sp., biomass as carbon; Optical microscopy; Oxytoxum sp., biomass as carbon; pigments; Podolampas sp., biomass as carbon; Proboscia alata, biomass as carbon; Prorocentrum minimum, biomass as carbon; Prorocentrum sp., biomass as carbon; Prorocentrum triestinum, biomass as carbon; Protoperidinium bipes, biomass as carbon; Protoperidinium sp., biomass as carbon; Prymnesiophytes, biomass as carbon; Pseudo-nitzschia sp., biomass as carbon; Pyramimonas sp., biomass as carbon; Pyrophacus sp., biomass as carbon; Rhizosolenia imbricata, biomass as carbon; Rhizosolenia spp., biomass as carbon; Scrippsiella trochoidea, biomass as carbon; Skeletonema sp., biomass as carbon; Southern Ocean; Station label; Stauroneis sp., biomass as carbon; subantarctic; TAN1702; TAN1702_12; TAN1702_17; TAN1702_20; TAN1702_21-1; TAN1702_28; TAN1702_31; TAN1702_34; TAN1702_40; TAN1702_41; TAN1702_43; TAN1702_44; TAN1702_47; TAN1702_49; TAN1702_54; TAN1702_56; TAN1702_58; TAN1702_62; TAN1702_64; Tangaroa; Thalassionema nitzschioides, biomass as carbon; Thalassiosira minima, biomass as carbon; Thalassiosira sp., biomass as carbon; Torodinium spp., biomass as carbon
    Type: Dataset
    Format: text/tab-separated-values, 1278 data points
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