Dataset: Malaspina Expedition Nutrients and Phytoplankton

Name: Concentration of inorganic nutrients, primary productivity measurements and phytoplankton cell concentration in seawater samples from the Malaspina 2010 Circumnavigation Expedition (VitaMaps project)
Published: 2023-10-10
Keywords: oceans

Cite This Dataset

DOI:10.26008/1912/bco-dmo.911258.1

Spatial Extent: N:35.1353 E:176.016 S:-34.4644 W:-178.238

Temporal Extent: 2010-12-16 - 2011-07-10

Project:

Putting B-vitamins on the map: to what extent do they shape phytoplankton dynamics and biogeography in the global ocean? (VitaMaps)

Principal Investigator:

Sergio A. Sanudo-Wilhelmy (University of Southern California, USC)

Co-Principal Investigator:

Laura Gómez-Consarnau (University of Southern California, USC)

Contact:

Laura Gómez-Consarnau (University of Southern California, USC)

BCO-DMO Data Manager:

Sawyer Newman (Woods Hole Oceanographic Institution, WHOI BCO-DMO)

Version:

Version Date:

2023-10-10

Restricted:

Yes

Release Date:

2025-12-31

Validated:

Yes

Current State:

Final no updates expected

Concentration of inorganic nutrients, primary productivity measurements and phytoplankton cell concentration in seawater samples from the Malaspina 2010 Circumnavigation Expedition (VitaMaps project)

Abstract:

B vitamins (thiamin, B1; biotin B7; cobalamin, B12) are organic molecules necessary for all the biological transformations of the chemical elements that support life on Earth. Because most organisms lack the ability to synthesize several vitamins, their vitamin needs and environmental accessibility could define which, when, and where specific phytoplankton species flourish. Despite the early discovery of their relevance in the 1940s, most current marine vitamin research is still based on laboratory experiments or studies focusing on the biological responses of B vitamin additions on algae and bacteria. However, geographical distributions of B vitamins in the ocean are mostly unknown, as they have only been measured in a few marine basins. This dataset contains B vitamin distribution measurements and ancillary (physical, chemical, and biological) parameters to elucidate the effects of vitamin availability on phytoplankton and bacteria species in surface waters of the world ocean collected during the Malaspina circumnavigation expedition. The different B vitamins were analyzed using a triple quadrupole mass spectrometer coupled to a liquid chromatography system after a solid-phase extraction with a C18 resin. This global map of vitamins is being used to determine the importance of dissolved B vitamins in microbial species biogeography, a still unresolved ecological riddle. Another objective of the study is to establish how ambient vitamin concentrations, combined with bioactive trace elements and macronutrients, promote changes in the relative abundance of different eukaryotic and prokaryotic plankton species on the surface ocean.

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Archival Copy

Version Date	Archive	Persistent Identifier (PID)	Date PID Issued
2023-10-10	Marine Biological Laboratory/Woods Hole Oceanographic Institution Library (MBLWHOI DLA)	10.26008/1912/bco-dmo.911258.1	2023-11-03

Methods & Sampling

All sampling and analytical procedures are reported in [Estrada M, Delgado M, Blasco D, Latasa M, Cabello AM, Benítez-Barrios V, et al. (2016) Phytoplankton across Tropical and Subtropical Regions of the Atlantic, Indian and Pacific Oceans. PLoS ONE 11(3): e0151699. doi:10.1371/journal. pone.0151699] and are detailed below.

Hydrography and sampling details
In general, two vertical profiles of Conductivity-Temperature-Depth (CTD) were carried out at a fixed position every day, a first one down to 4000 m depth at 5:00 and a second one, starting around 10:00 local time, down to 200 m depth. The CTD, a SeaBird 9/11-plus, was equipped with dual conductivity and temperature sensors, calibrated at the SeaBird laboratory before the cruise. Water samples were obtained using a rosette of 24 10-liter Niskin bottles. Profiles of underwater photosynthetically active radiation (PAR) were obtained with a 4π Biospherical QCP2300-HP sensor attached to the CTD. The mixed layer depth (MLD) was defined [Monterey G, Levitus S (1997) Seasonal variability of mixed layer depth for the world ocean. Washington D. C.: U. S. Government Printing Office. 96 p] as the first depth (z) where σθ(z)- σθ(10)> 0.125 kg m-3, where σθ(z) and σθ(10) are, respectively, the potential density anomalies at depths z and 10 m. The Ocean Data View software [Schlitzer R (2013) Ocean Data View. http://odv.awi.de] was used to present the distribution of hydrographical variables.

Water samples for nutrient and total Chl a determination were collected from about 10 depths between surface and 200 m, including those selected for phytoplankton sampling. Water for fractionated Chl a analyses and for phytoplankton examination was taken from the Niskin bottles of the second cast of the rosette, at the depth of the 20% light level and at the depth of the subsurface chlorophyll a (Chl a) maximum (SCM). Additional surface seawater samples (3 m depth) were collected with a 30 L Niskin bottle.

Phytoplankton analysis
Approximately 250 cm3 of water were placed in a glass bottle and fixed with hexamine-buffered formaldehyde solution (4% final formalin concentration). A 100 cm3 composite chamber was filled with sample water and its content was allowed to settle for 48 hours. At least two transects of the chamber bottom were observed with an inverted microscope [Utermöhl H (1958) Zur Vervollkommung der quantitativen Phytoplankton-Methodik. Mitt Int Verein Limnol 9: 1–38.] at 312 X magnification to enumerate the most frequent, generally smaller, phytoplankton forms. Additionally, the whole chamber bottom was examined at 125 X magnification to count the larger, less frequent cells. In both cases, all cells encountered were tallied. Classification was done at the genus or species level when possible, but many taxa could not be identified and were pooled in categories such as “small flagellates” or “small dinoflagellates”.

Chlorophyll a, inorganic nutrient determinations and metal determination
To determine total Chl a concentration [Estrada M (2012) Determinación fluorimétrica de la clorofila a. In: Moreno-Ostos E, editor. Expedición de circunnavegación Malaspina 2010: Cambio global y exploración de la biodiversidad del océano Libro blanco de métodos y técnicas de trabajo oceanográfico. Madrid: CSIC. pp. 399–405], a volume of water ranging between 200 and 500 cm3 was filtered through GF/F glass fiber filters that were subsequently frozen at -20°C and, after a minimum of 6 hours, introduced in acetone 90% and left for 24 hours in a refrigerator, in the dark. The fluorescence of the acetonic extracts was determined with a Turner Designs fluorimeter calibrated with a Chl a standard (Sigma-Aldrich); no phaeopigment correction was applied. Chl a concentration for different size fractions was obtained by sequential filtering of
an additional 500 cm3 water sample through Poretics (polycarbonate) membrane filters of pore sizes 20 μm, 2 μm and 0.2 μm. Total Chl a values are those of the GF/F filters; however, as these filters tended systematically to collect more Chl a than 0.2 μm membrane filters, the proportion of Chl a in a particular size fraction was referred to the total obtained by adding up the Chl a collected in the three consecutive membrane filters. Dissolved inorganic nutrients were analyzed with a Skalar AutoAnalyzer, using the procedures of Grasshoff et al. [Grasshoff K, Kremling K, Erhardt M (1999) Methods of Seawater Analysis. Weinheim: Wiley-VCH. 632 p], as described in [Blasco D, De la Fuente Gamero P, Galindo M (2012) Muestreo y análisis de nutrientes inorgánicos disueltos en agua de mar. In: Moreno-Ostos E, editor. Expedición de circunnavegación Malaspina 2010: Cambio global y exploración de la biodiversidad del océano Libro blanco de métodos y técnicas de trabajo oceanográfico Madrid: CSIC. pp. 103–121]. Metal concentrations were analyzed as described in [Pinedo-González, P., et al. (2015), Surface distribution of dissolved trace metals in the oligotrophic ocean and their influence on phytoplankton biomass and productivity, Global Biogeochem. Cycles, 29, 1763–1781, doi:10.1002/ 2015GB005149] using a Thermo Element 2 HR-ICP-MS.

BCO-DMO Processing

Units and special characters removed from dataset column headers

Spaces removed from column headers and replaced with underscores ("_")

Rounded latitude and longitude values to 5 precision points after the decimal

Converted date field value format from mm/dd/yy to yyyy-mm-dd

Data Files

File
911258_v1_malaspina_expedition_nutrients_and_phytoplankton.csv (Comma Separated Values (.csv), 73.02 KB) MD5:d1616b1d2094b5ec5c8d63820c77226e Primary data file for dataset ID 911258, version 1

More Information about this dataset

Funding Sources

Funding Source	Award Number
NSF Division of Ocean Sciences	OCE-2220546

Deployments

Deployment	Synonyms	Start Date	Platform	Investigator
Malaspina_2010_Gamboa		2010-12-16	R/V Sarmiento de Gamboa		data info
Malaspina_2010_Hesperides		2010-12-16	R/V Hespérides		data info

Instruments

CTD Sea-Bird 911

Supplied Name: Conductivity-Temperature-Depth (CTD) divise SeaBird 9/11-plus

Supplied Description:

Two vertical profiles of Conductivity-Temperature-Depth (CTD) were carried out at
a fixed position every day, a first one down to 4000 m depth at 5:00 and a second one, starting
around 10:00 local time, down to 200 m depth. The CTD, a SeaBird 9/11-plus, was equipped
with dual conductivity and temperature sensors, calibrated at the SeaBird laboratory before the
cruise. Water samples were obtained using a rosette of 24 10-liter Niskin bottles. Profiles of
underwater photosynthetically active radiation (PAR) were obtained with a 4π Biospherical
QCP2300-HP sensor attached to the CTD.

Instrument Type

Generic Name: CTD Sea-Bird 911

Acronym: CTD SBE 911

Community Identifier: http://vocab.nerc.ac.uk/collection/L22/current/TOOL0035/

Generic Description:

The Sea-Bird SBE 911 is a type of CTD instrument package. The SBE 911 includes the SBE 9 Underwater Unit and the SBE 11 Deck Unit (for real-time readout using conductive wire) for deployment from a vessel. The combination of the SBE 9 and SBE 11 is called a SBE 911. The SBE 9 uses Sea-Bird's standard modular temperature and conductivity sensors (SBE 3 and SBE 4). The SBE 9 CTD can be configured with auxiliary sensors to measure other parameters including dissolved oxygen, pH, turbidity, fluorescence, light (PAR), light transmission, etc.). More information from Sea-Bird Electronics.

Elemental Analyzer

Supplied Name: Thermo Element 2 HR-ICP-MS

Supplied Description:

Metal concentrations were analyzed as described in [25] using a Thermo Element 2 HR-ICP-MS.

Instrument Type

Generic Name: Elemental Analyzer

Community Identifier: http://vocab.nerc.ac.uk/collection/L05/current/LAB01/

Generic Description:

Instruments that quantify carbon, nitrogen and sometimes other elements by combusting the sample at very high temperature and assaying the resulting gaseous oxides. Usually used for samples including organic material.

Fluorometer

Supplied Name: Turner Designs fluorimeter

Supplied Description:

The fluorescence of the acetonic extracts was determined with a Turner Designs fluorimeter calibrated with a Chl a standard (Sigma-Aldrich); no phaeopigment correction was applied.

Instrument Type

Generic Name: Fluorometer

Community Identifier: http://vocab.nerc.ac.uk/collection/L05/current/113/

Generic Description:

A fluorometer or fluorimeter is a device used to measure parameters of fluorescence: its intensity and wavelength distribution of emission spectrum after excitation by a certain spectrum of light. The instrument is designed to measure the amount of stimulated electromagnetic radiation produced by pulses of electromagnetic radiation emitted into a water sample or in situ.

Inverted Microscope

Supplied Name: Inverted microscope 125X magnification

Supplied Description:

Approximately 250 cm3 of water were placed in a glass bottle and fixed with hexamine-buffered
formaldehyde solution (4% final formalin concentration). A 100 cm3 composite chamber
was filled with sample water and its content was allowed to settle for 48 hours. At least two
transects of the chamber bottom were observed with an inverted microscope [4] at 312 X
magnification to enumerate the most frequent, generally smaller, phytoplankton forms. Additionally,
the whole chamber bottom was examined at 125 X magnification to count the larger,
less frequent cells. In both cases, all cells encountered were tallied.

Instrument Type

Generic Name: Inverted Microscope

Community Identifier: http://vocab.nerc.ac.uk/collection/L05/current/LAB05/

Generic Description:

An inverted microscope is a microscope with its light source and condenser on the top, above the stage pointing down, while the objectives and turret are below the stage pointing up. It was invented in 1850 by J. Lawrence Smith, a faculty member of Tulane University (then named the Medical College of Louisiana).

Inverted microscopes are useful for observing living cells or organisms at the bottom of a large container (e.g. a tissue culture flask) under more natural conditions than on a glass slide, as is the case with a conventional microscope. Inverted microscopes are also used in micromanipulation applications where space above the specimen is required for manipulator mechanisms and the microtools they hold, and in metallurgical applications where polished samples can be placed on top of the stage and viewed from underneath using reflecting objectives.

The stage on an inverted microscope is usually fixed, and focus is adjusted by moving the objective lens along a vertical axis to bring it closer to or further from the specimen. The focus mechanism typically has a dual concentric knob for coarse and fine adjustment. Depending on the size of the microscope, four to six objective lenses of different magnifications may be fitted to a rotating turret known as a nosepiece. These microscopes may also be fitted with accessories for fitting still and video cameras, fluorescence illumination, confocal scanning and many other applications.

Nutrient Autoanalyzer

Supplied Name: Skalar AutoAnalyzer

Supplied Description:

Dissolved inorganic nutrients were analyzed with a Skalar AutoAnalyzer, using the procedures of Grasshoff et al. [23], as described in [24]. Metal concentrations were analyzed as described in [25] using a Thermo Element 2 HR-ICP-MS.

Instrument Type

Generic Name: Nutrient Autoanalyzer

Community Identifier: http://vocab.nerc.ac.uk/collection/L05/current/LAB04/

Generic Description:

Nutrient Autoanalyzer is a generic term used when specific type, make and model were not specified. In general, a Nutrient Autoanalyzer is an automated flow-thru system for doing nutrient analysis (nitrate, ammonium, orthophosphate, and silicate) on seawater samples.

Parameters

Date and time formats are described in python strftime() syntax.

Supplied Name	Supplied description	Supplied Units	Standard Name
Cruise	Cruise associated with sample	unitless	cruise_name
Station	Station associated with sample	unitless	sta_id
Date	Date sample was taken Format: %Y-%m-%d	unitless	date
Longitude	Longitude of sample collection	unitless	lon
Latitude	Latitude of sample collection	unitless	lat
Depth	Water depth at time of sample collection	meters	depth_w
Mo	Molybdenum concentration	nano mol I-1	chemical_conc
Cd	Cadmium concentration	pico mol I-1	chemical_conc
V	vanadium concentration	pico mol I-1	chemical_conc
Fe	Iron concentration	nano mol I-1	chemical_conc
Co	Cobalt concentration	pico mol I-1	chemical_conc
Ni	Nickel concentration	nano mol I-1	chemical_conc
Cu	Copper concentration	nano mol I-1	chemical_conc
Salinity	Salt concentration	psu	chemical_conc
Temp	Seawater temperature	degrees Celsius	temp
NO3	Nitrate concentration	micro mol I-1	chemical_conc
PO4	Phosphate concentration	micro mol I-1	chemical_conc
SiO4	Silicate concentration	micro mol I-1	chemical_conc
Chla	Chlorophyll-a concentration	micro gr I-1	chemical_conc
iPP	Integrated Primary Productivity	milli gr C m-2 h-1	PP
PP_mean	Primary Productivity Mean	milli gr C m-2 h-1	PP
PP_sd	Primary Productivity Standard Deviation	milli gr C m-2 h-1	PP
MLD	Mixed Layer Depth	meters	depth_mixed_layer
DCML	Deep chlorophyll maximum layer	meters	chl_max_deep
Bot_Dep	Bottle Depth	meters	depth_w
Dinoflagellates_ave_abundance	Average concentration of Dinoflagellate cells in seawater	cell mI-1	phyto_oth
Actiniscus_pentasterias	Concentration of Actiniscus pentasterias cells in seawater	cell I-1	phyto_oth
Akashiwo_sanguinea	Concentration of Akashiwo sanguinea cells in seawater	cell I-1	phyto_oth
Alexandrium_minutum	Concentration of Alexandrium minutum cells in seawater	cell I-1	phyto_oth
Alexandrium_sp_1	Concentration of Alexandrium sp. 1 cells in seawater	cell I-1	phyto_oth
Alexandrium_sp	Concentration of Alexandrium sp. cells in seawater	cell I-1	phyto_oth
Blepharocysta_paulseni	Concentration of Blepharocysta paulseni cells in seawater	cell I-1	phyto_oth
Blepharocysta_splendormaris	Concentration of Blepharocysta splendormaris cells in seawater	cell I-1	phyto_oth
Brachydinium_capitatum	Concentration of Brachydinium capitatum cells in seawater	cell I-1	phyto_oth
Centrodinium_sp	Concentration of Centrodinium sp. cells in seawater	cell I-1	phyto_oth
Ceratium_arietinum	Concentration of Ceratium arietinum cells in seawater	cell I-1	phyto_oth
Ceratium_belone	Concentration of Ceratium belone cells in seawater	cell I-1	phyto_oth
Ceratium_candelabrum	Concentration of Ceratium candelabrum cells in seawater	cell I-1	phyto_oth
Ceratium_contortum	Concentration of Ceratium contortum cells in seawater	cell I-1	phyto_oth
Ceratium_contrarium	Concentration of Ceratium contrarium cells in seawater	cell I-1	phyto_oth
Ceratium_declinatum	Concentration of Ceratium declinatum cells in seawater	cell I-1	phyto_oth
Ceratium_extensum	Concentration of Ceratium extensum cells in seawater	cell I-1	phyto_oth
Ceratium_furca	Concentration of Ceratium furca cells in seawater	cell I-1	phyto_oth
Ceratium_fusus	Concentration of Ceratium fusus cells in seawater	cell I-1	phyto_oth
Ceratium_kofoidi	Average concentration of Ceratium kofoidi cells in seawater	cell I-1	phyto_oth
Ceratium_macroceros	Concentration of Ceratium macroceros cells in seawater	cell I-1	phyto_oth
Ceratium_massiliense	Concentration of Ceratium massiliense cells in seawater	cell I-1	phyto_oth
Ceratium_pentagonum	Concentration of Ceratium pentagonum cells in seawater	cell I-1	phyto_oth
Ceratium_pulchellum	Concentration of Ceratium pulchellum cells in seawater	cell I-1	phyto_oth
Ceratium_teres	Concentration of Ceratium teres cells in seawater	cell I-1	phyto_oth
Ceratium_trichoceros	Concentration of Ceratium trichoceros cells in seawater	cell I-1	phyto_oth
Ceratium_tripos	Average concentration of Ceratium tripos cells in seawater	cell I-1	phyto_oth
Ceratium_spp	Average concentration of Ceratium spp. cells in seawater	cell I-1	phyto_oth
Ceratocorys_armata	Average concentration of Ceratocorys armata cells in seawater	cell I-1	phyto_oth
Ceratocorys_horrida	Concentration of Ceratocorys horrida cells in seawater	cell I-1	phyto_oth
Ceratoperidinium_ye_ye	Concentration of Ceratoperidinium ye-ye cells in seawater	cell I-1	phyto_oth
Citharistes_regius	Concentration of Citharistes regius cells in seawater	cell I-1	phyto_oth
Cladopyxis_brachiolata	Concentration of Cladopyxis brachiolata cells in seawater	cell I-1	phyto_oth
Cladopyxis_hemibrachiata	Concentration of Cladopyxis hemibrachiata cells in seawater	cell I-1	phyto_oth
Cochlodinium_spp	Concentration of Cochlodinium spp cells in seawater	cell I-1	phyto_oth
Corythodinium_tesselatum	Concentration of Corythodinium tesselatum cells in seawater	cell I-1	phyto_oth
Dinophysis_cf_ovum	Concentration of Dinophysis cf ovum cells in seawater	cell I-1	phyto_oth
Dinophysis_doryphora	Concentration of Dinophysis doryphora cells in seawater	cell I-1	phyto_oth
Dinophysis_exigua	Concentration of Dinophysis exigua cells in seawater	cell I-1	phyto_oth
Dinophysis_operculoides	Concentration of Dinophysis operculoides cells in seawater	cell I-1	phyto_oth
Dinophysis_parvula	Concentration of Dinophysis parvula cells in seawater	cell I-1	phyto_oth
Dinophysis_pusilla	Concentration of Dinophysis pusilla cells in seawater	cell I-1	phyto_oth
Dinophysis_rotundata	Concentration of Dinophysis rotundata cells in seawater	cell I-1	phyto_oth
Dinophysis_schroederi	Concentration of Dinophysis schroederi cells in seawater	cell I-1	phyto_oth
Dinophysis_sp_2	Concentration of Dinophysis sp 2 cells in seawater	cell I-1	phyto_oth
Dinophysis_sp_3	Concentration of Dinophysis sp 3 cells in seawater	cell I-1	phyto_oth
Dinophysis_sp_5	Concentration of Dinophysis sp 5 cells in seawater	cell I-1	phyto_oth
Dinophysis_spp_peq_redondos	Concentration of Dinophysis spp peq redondos cells in seawater	cell I-1	phyto_oth
Erythropsidinium_agile_Hertwig_Silva	Concentration of Erythropsidinium agile Hertwig Silva cells in seawater	cell I-1	phyto_oth
Goniodoma_polyedricum	Concentration of Goniodoma polyedricum cells in seawater	cell I-1	phyto_oth
Gonyaulax_birostris	Concentration of Gonyaulax birostris cells in seawater	cell I-1	phyto_oth
Gonyaulax_dicantha	Concentration of Gonyaulax dicantha cells in seawater	cell I-1	phyto_oth
Gonyaulax_monocantha	Concentration of Gonyaulax monocantha cells in seawater	cell I-1	phyto_oth
Gonyaulax_polygramma	Concentration of Gonyaulax polygramma cells in seawater	cell I-1	phyto_oth
Gonyaulax_spp	Concentration of Gonyaulax spp cells in seawater	cell I-1	phyto_oth
Gymnodinium_spp_grandes_greater_than_40_um	Concentration of Gymnodinium spp grandes greater than 40 um cells in seawater	cell I-1	phyto_oth
Gymnodinium_spp_20_to_40_um	Concentration of Gymnodinium spp 20 to 40 um cells in seawater	cell I-1	phyto_oth
Gymnodinium_sp_calabaza	Concentration of Gymnodinium sp calabaza cells in seawater	cell I-1	phyto_oth
Gymnodinium_catenatum	Concentration of Gymnodinium catenatum cells in seawater	cell I-1	phyto_oth
Gymnodinium_elongatum	Concentration of Gymnodinium elongatum cells in seawater	cell I-1	phyto_oth
Gymnodinium_cf_galeatum	Concentration of Gymnodinium cf galeatum cells in seawater	cell I-1	phyto_oth
Gyrodinium_impudicum	Concentration of Gyrodinium impudicum cells in seawater	cell I-1	phyto_oth
Gyrodinium_spp_heterotrofos	Concentration of Gyrodinium spp heterotrofos cells in seawater	cell I-1	phyto_oth
Heterodinium_spp	Concentration of Heterodinium spp cells in seawater	cell I-1	phyto_oth
Heterocapsa_spp	Concentration of Heterocapsa spp cells in seawater	cell I-1	phyto_oth
Histioneis_inclinata	Concentration of Histioneis inclinata cells in seawater	cell I-1	phyto_oth
Histioneis_oxypteris	Concentration of Histioneis oxypteris cells in seawater	cell I-1	phyto_oth
Histioneis_paraformis	Concentration of Histioneis paraformis cells in seawater	cell I-1	phyto_oth
Histioneis_robusta	Concentration of Histioneis robusta cells in seawater	cell I-1	phyto_oth
Histioneis_rotundata	Concentration of Histioneis rotundata cells in seawater	cell I-1	phyto_oth
Histioneis_speciosa	Concentration of Histioneis speciosa cells in seawater	cell I-1	phyto_oth
Karenia_papilionacea	Concentration of Karenia papilionacea cells in seawater	cell I-1	phyto_oth
Karlodinium_spp	Concentration of Karlodinium spp cells in seawater	cell I-1	phyto_oth
Katodinium_glaucum	Concentration of Katodinium glaucum cells in seawater	cell I-1	phyto_oth
Kofoidinium_velelloides	Concentration of Kofoidinium velelloides cells in seawater	cell I-1	phyto_oth
Lingulodinium_polyedrum	Concentration of Lingulodinium polyedrum cells in seawater	cell I-1	phyto_oth
Mesoporos_perforatus	Concentration of Mesoporos perforatus cells in seawater	cell I-1	phyto_oth
Micracanthodinium_claytonii	Concentration of Micracanthodinium claytonii cells in seawater	cell I-1	phyto_oth
Ornithocercus_magnificus	Concentration of Ornithocercus magnificus cells in seawater	cell I-1	phyto_oth
Ornithocercus_quadratus	Concentration of Ornithocercus quadratus cells in seawater	cell I-1	phyto_oth
Ornithocercus_thumi	Concentration of Ornithocercus thumi cells in seawater	cell I-1	phyto_oth
Oxytoxum_areolatum	Concentration of Oxytoxum areolatum cells in seawater	cell I-1	phyto_oth
Oxytoxum_caudatum	Concentration of Oxytoxum caudatum cells in seawater	cell I-1	phyto_oth
Oxytoxum_constrictum	Concentration of Oxytoxum constrictum cells in seawater	cell I-1	phyto_oth
Oxytoxum_coronatum	Concentration of Oxytoxum coronatum cells in seawater	cell I-1	phyto_oth
Oxytoxum_curvatum	Concentration of Oxytoxum curvatum cells in seawater	cell I-1	phyto_oth
Oxytoxum_diploconus	Concentration of Oxytoxum diploconus cells in seawater	cell I-1	phyto_oth
Oxytoxum_longiceps	Concentration of Oxytoxum longiceps cells in seawater	cell I-1	phyto_oth
Oxytoxum_margalefi	Concentration of Oxytoxum margalefi cells in seawater	cell I-1	phyto_oth
Oxytoxum_mediterraneum	Concentration of Oxytoxum mediterraneum cells in seawater	cell I-1	phyto_oth
Oxytoxum_minutum	Concentration of Oxytoxum minutum cells in seawater	cell I-1	phyto_oth
Oxytoxum_mitra	Concentration of Oxytoxum mitra cells in seawater	cell I-1	phyto_oth
Oxytoxum_ovale	Concentration of Oxytoxum ovale cells in seawater	cell I-1	phyto_oth
Oxytoxum_rampii	Concentration of Oxytoxum rampii cells in seawater	cell I-1	phyto_oth
Oxytoxum_sceptrum	Concentration of Oxytoxum sceptrum cells in seawater	cell I-1	phyto_oth
Oxytoxum_scolopax	Concentration of Oxytoxum scolopax cells in seawater	cell I-1	phyto_oth
Oxytoxum_tonollii	Concentration of Oxytoxum tonollii cells in seawater	cell I-1	phyto_oth
Oxytoxum_variabile	Concentration of Oxytoxum variabile cells in seawater	cell I-1	phyto_oth
Oxytoxum_sp_2	Concentration of Oxytoxum sp 2 cells in seawater	cell I-1	phyto_oth
Oxytoxum_sp_3	Concentration of Oxytoxum sp 3 cells in seawater	cell I-1	phyto_oth
Oxytoxum_sp_4	Concentration of Oxytoxum sp 4 cells in seawater	cell I-1	phyto_oth
Oxytoxum_sp_6	Concentration of Oxytoxum sp 6 cells in seawater	cell I-1	phyto_oth
Oxytoxum_sp_8	Concentration of Oxytoxum sp 8 cells in seawater	cell I-1	phyto_oth
Oxytoxum_sp_10	Concentration of Oxytoxum sp 10 cells in seawater	cell I-1	phyto_oth
Oxytoxum_sp_11	Concentration of Oxytoxum sp 11 cells in seawater	cell I-1	phyto_oth
Oxytoxum_spp	Concentration of Oxytoxum spp cells in seawater	cell I-1	phyto_oth
Paleophalacroma_unicintum	Concentration of Paleophalacroma unicintum cells in seawater	cell I-1	phyto_oth
Parahistioneis_paraformis	Concentration of Parahistioneis paraformis cells in seawater	cell I-1	phyto_oth
Podolampas_bipes	Concentration of Podolampas bipes cells in seawater	cell I-1	phyto_oth
Podolampas_elegans	Concentration of Podolampas elegans cells in seawater	cell I-1	phyto_oth
Podolampas_palmipes	Concentration of Podolampas palmipes cells in seawater	cell I-1	phyto_oth
Podolampas_reticulata	Concentration of Podolampas reticulata cells in seawater	cell I-1	phyto_oth
Podolampas_spinifer	Concentration of Podolampas spinifer cells in seawater	cell I-1	phyto_oth
Pronoctiluca_acuta	Concentration of Pronoctiluca acuta cells in seawater	cell I-1	phyto_oth
Pronoctiluca_pelagica	Concentration of Pronoctiluca pelagica cells in seawater	cell I-1	phyto_oth
Prorocentrum_balticum	Concentration of Prorocentrum balticum cells in seawater	cell I-1	phyto_oth
Prorocentrum_compressum	Concentration of Prorocentrum compressum cells in seawater	cell I-1	phyto_oth
Prorocentrum_dentatum	Concentration of Prorocentrum dentatum cells in seawater	cell I-1	phyto_oth
Prorocentrum_cf_donghaiense	Concentration of Prorocentrum cf donghaiense cells in seawater	cell I-1	phyto_oth
Prorocentrum_gracile	Concentration of Prorocentrum gracile cells in seawater	cell I-1	phyto_oth
Prorocentrum_mexicanum	Concentration of Prorocentrum mexicanum cells in seawater	cell I-1	phyto_oth
Prorocentrum_rostratum	Concentration of Prorocentrum rostratum cells in seawater	cell I-1	phyto_oth
Prorocentrum_rotundatum	Concentration of Prorocentrum rotundatum cells in seawater	cell I-1	phyto_oth
Prorocentrum_vaginulum	Concentration of Prorocentrum vaginulum cells in seawater	cell I-1	phyto_oth
Prorocentrum_sp_1	Concentration of Prorocentrum sp 1 cells in seawater	cell I-1	phyto_oth
Prorocentrum_sp_5	Concentration of Prorocentrum sp 5 cells in seawater	cell I-1	phyto_oth
Protoceratium_areolatum	Concentration of Protoceratium areolatum cells in seawater	cell I-1	phyto_oth
Protoceratium_reticulatum	Concentration of Protoceratium reticulatum cells in seawater	cell I-1	phyto_oth
Protoperidinium_depressum	Concentration of Protoperidinium depressum cells in seawater	cell I-1	phyto_oth
Protoperidinium_divergens	Concentration of Protoperidinium divergens cells in seawater	cell I-1	phyto_oth
Protoperidinium_globulus	Concentration of Protoperidinium globulus cells in seawater	cell I-1	phyto_oth
Protoperidinium_mite	Concentration of Protoperidinium mite cells in seawater	cell I-1	phyto_oth
Protoperidinium_cf_oviforme	Concentration of Protoperidinium cf oviforme cells in seawater	cell I-1	phyto_oth
Protoperidinium_steinii	Concentration of Protoperidinium steinii cells in seawater	cell I-1	phyto_oth
Protoperidinium_sp_1	Concentration of Protoperidinium sp 1 cells in seawater	cell I-1	phyto_oth
Protoperidinium_sp_3	Concentration of Protoperidinium sp 3 cells in seawater	cell I-1	phyto_oth
Protoperidinium_sp_4	Concentration of Protoperidinium sp 4 cells in seawater	cell I-1	phyto_oth
Protoperidinium_sp_5	Concentration of Protoperidinium sp 5 cells in seawater	cell I-1	phyto_oth
Protoperidinium_sp_7	Concentration of Protoperidinium sp 7 cells in seawater	cell I-1	phyto_oth
Protoperidinium_sp_8	Concentration of Protoperidinium sp 8 cells in seawater	cell I-1	phyto_oth
Protoperidinium_spp	Concentration of Protoperidinium spp cells in seawater	cell I-1	phyto_oth
Pseliodinium_vaubani	Concentration of Pseliodinium vaubani cells in seawater	cell I-1	phyto_oth
Pyrocystis_obtusa	Concentration of Pyrocystis obtusa cells in seawater	cell I-1	phyto_oth
Pyrocystis_robusta	Concentration of Pyrocystis robusta cells in seawater	cell I-1	phyto_oth
Pyrophacus_horologium	Concentration of Pyrophacus horologium cells in seawater	cell I-1	phyto_oth
Scrippsiella_spp	Concentration of Scrippsiella spp cells in seawater	cell I-1	phyto_oth
Scaphodinium_mirabile	Concentration of Scaphodinium mirabile cells in seawater	cell I-1	phyto_oth
Torodinium_robustum	Concentration of Torodinium robustum cells in seawater	cell I-1	phyto_oth
Dino_sp_2	Concentration of Dino sp 2 cells in seawater	cell I-1	phyto_oth
Dino_sp_4	Concentration of Dino sp 4 cells in seawater	cell I-1	phyto_oth
Dino_sp_6	Concentration of Dino sp 6 cells in seawater	cell I-1	phyto_oth
Dino_sp_9	Concentration of Dino sp 9 cells in seawater	cell I-1	phyto_oth
Dino_sp_10	Concentration of Dino sp 10 cells in seawater	cell I-1	phyto_oth
Dino_sp_11	Concentration of Dino sp 11 cells in seawater	cell I-1	phyto_oth
Dino_sp_12	Concentration of Dino sp 12 cells in seawater	cell I-1	phyto_oth
Dino_sp_15	Concentration of Dino sp 15 cells in seawater	cell I-1	phyto_oth
Dino_sp_26	Concentration of Dino sp 26 cells in seawater	cell I-1	phyto_oth
Unidentified_dinoflagellates_with_inclusion_bodies	Concentration of Unidentified dinoflagellates with inclusion bodies cells in seawater	cell I-1	phyto_oth
Dinoflagellate_cysts	Concentration of Dinoflagellate cysts cells in seawater	cell I-1	phyto_oth
Unidentified_dinoflagellates_large	Concentration of Unidentified dinoflagellates large cells in seawater	cell I-1	phyto_oth
Unidentified_dinoflagellates_small_less_than_20_um	Concentration of Unidentified dinoflagellates small less than 20 um cells in seawater	cell I-1	phyto_oth
Diatoms_ave_abundance	Concentration of Diatoms ave abundance cells in seawater	cell I-1	phyto_oth
Asterolampra_marylandica	Concentration of Asterolampra marylandica cells in seawater	cell I-1	phyto_oth
Asterolampra_sp_6_radios	Concentration of Asterolampra sp 6 radios cells in seawater	cell I-1	phyto_oth
Asteromphalus_heptactis	Concentration of Asteromphalus heptactis cells in seawater	cell I-1	phyto_oth
Asteromphalus_hookeri	Concentration of Asteromphalus hookeri cells in seawater	cell I-1	phyto_oth
Asteromphalus_spp	Concentration of Asteromphalus spp cells in seawater	cell I-1	phyto_oth
Bacteriastrum_elongatum	Concentration of Bacteriastrum elongatum cells in seawater	cell I-1	phyto_oth
Bacteriastrum_spp	Concentration of Bacteriastrum spp cells in seawater	cell I-1	phyto_oth
Cerataulina_pelagica	Concentration of Cerataulina pelagica cells in seawater	cell I-1	phyto_oth
Chaetoceros_atlanticus	Concentration of Chaetoceros atlanticus cells in seawater	cell I-1	phyto_oth
Chaetoceros_dadayi	Concentration of Chaetoceros dadayi cells in seawater	cell I-1	phyto_oth
Chaetoceros_didymus	Concentration of Chaetoceros didymus cells in seawater	cell I-1	phyto_oth
Chaetoceros_lorenzianus	Concentration of Chaetoceros lorenzianus cells in seawater	cell I-1	phyto_oth
Chaetoceros_peruvianus	Concentration of Chaetoceros peruvianus cells in seawater	cell I-1	phyto_oth
Chaetoceros_sp_1	Concentration of Chaetoceros sp 1 cells in seawater	cell I-1	phyto_oth
Chaetoceros_spp_large_greater_than_20_um	Concentration of Chaetoceros spp large greater than 20 um cells in seawater	cell I-1	phyto_oth
Chaetoceros_spp_peq_less_than_20_um	Concentration of Chaetoceros spp peq less than 20 um cells in seawater	cell I-1	phyto_oth
Climacodium_frauenfeldianum	Concentration of Climacodium frauenfeldianum cells in seawater	cell I-1	phyto_oth
Coscinodiscus_spp	Concentration of Coscinodiscus spp cells in seawater	cell I-1	phyto_oth
Cylindrotheca_closterium	Concentration of Cylindrotheca closterium cells in seawater	cell I-1	phyto_oth
Guinardia_cylindrus	Concentration of Guinardia cylindrus cells in seawater	cell I-1	phyto_oth
Guinardia_striata	Concentration of Guinardia striata cells in seawater	cell I-1	phyto_oth
Haslea_sp	Concentration of Haslea sp cells in seawater	cell I-1	phyto_oth
Hemidiscus_cuneiformis	Concentration of Hemidiscus cuneiformis cells in seawater	cell I-1	phyto_oth
Hemiaulus_hauckii	Concentration of Hemiaulus hauckii cells in seawater	cell I-1	phyto_oth
Hemiaulus_membranaceus	Concentration of Hemiaulus membranaceus cells in seawater	cell I-1	phyto_oth
Hemiaulus_sinensis	Concentration of Hemiaulus sinensis cells in seawater	cell I-1	phyto_oth
Leptocylindrus_mediterraneus_Rhizomonas_setigera	Concentration of Leptocylindrus mediterraneus Rhizomonas setigera cells in seawater	cell I-1	phyto_oth
Lioloma_spp	Concentration of Lioloma spp cells in seawater	cell I-1	phyto_oth
Planktoniella_sol	Concentration of Planktoniella sol cells in seawater	cell I-1	phyto_oth
Proboscia_alata	Concentration of Proboscia alata cells in seawater	cell I-1	phyto_oth
Pseudo_nitzschia_spp	Concentration of Pseudo nitzschia spp cells in seawater	cell I-1	phyto_oth
Pseudosolenia_calcar_avis	Concentration of Pseudosolenia calcar avis cells in seawater	cell I-1	phyto_oth
Rhizosolenia_hebetata	Concentration of Rhizosolenia hebetata cells in seawater	cell I-1	phyto_oth
Rhizosolenia_robusta	Concentration of Rhizosolenia robusta cells in seawater	cell I-1	phyto_oth
Rhizosolenia_simplex	Concentration of Rhizosolenia simplex cells in seawater	cell I-1	phyto_oth
Rhizosolenia_spp	Concentration of Rhizosolenia spp cells in seawater	cell I-1	phyto_oth
Thalassionema_spp	Concentration of Thalassionema spp cells in seawater	cell I-1	phyto_oth
Thalassiosira_spp	Concentration of Thalassiosira spp cells in seawater	cell I-1	phyto_oth
Pennate_diatom_sp_1	Concentration of Pennate diatom sp 1 cells in seawater	cell I-1	phyto_oth
Pennate_diatom_sp_2	Concentration of Pennate diatom sp 2 cells in seawater	cell I-1	phyto_oth
Pennate_diatom_sp_3	Concentration of Pennate diatom sp 3 cells in seawater	cell I-1	phyto_oth
Unidentified_centric_diatoms	Concentration of Unidentified centric diatoms cells in seawater	cell I-1	phyto_oth
Unidentified_pennate_diatoms	Concentration of Unidentified pennate diatoms cells in seawater	cell I-1	phyto_oth
Pennate_diatoms_large	Concentration of Pennate diatoms large cells in seawater	cell I-1	phyto_oth
Pennate_diatoms_less_than_20_um	Concentration of Pennate diatoms less than 20 um cells in seawater	cell I-1	phyto_oth
Coccolithophores_ave_abundance	Concentration of Coccolithophores ave abundance cells in seawater	cell I-1	phyto_oth
Acanthoica_quattrospina	Concentration of Acanthoica quattrospina cells in seawater	cell I-1	phyto_oth
Algirosphaera_robusta	Concentration of Algirosphaera robusta cells in seawater	cell I-1	phyto_oth
Calcidiscus_leptoporus	Concentration of Calcidiscus leptoporus cells in seawater	cell I-1	phyto_oth
Calciosolenia_brasiliensis	Concentration of Calciosolenia brasiliensis cells in seawater	cell I-1	phyto_oth
Calciosolenia_murrayi	Concentration of Calciosolenia murrayi cells in seawater	cell I-1	phyto_oth
Calciopappus_rigidus	Concentration of Calciopappus rigidus cells in seawater	cell I-1	phyto_oth
Ceratolithus_cristatus	Concentration of Ceratolithus cristatus cells in seawater	cell I-1	phyto_oth
Discosphaera_tubifera	Concentration of Discosphaera tubifera cells in seawater	cell I-1	phyto_oth
Helicosphaera_carteri	Concentration of Helicosphaera carteri cells in seawater	cell I-1	phyto_oth
Michaelsarsia_adriaticus	Concentration of Michaelsarsia adriaticus cells in seawater	cell I-1	phyto_oth
Michaelsarsia_elegans	Concentration of Michaelsarsia elegans cells in seawater	cell I-1	phyto_oth
Oolithotus_spp	Concentration of Oolithotus spp cells in seawater	cell I-1	phyto_oth
Ophiaster_hydroideus	Concentration of Ophiaster hydroideus cells in seawater	cell I-1	phyto_oth
Palusphaera_spp	Concentration of Palusphaera spp cells in seawater	cell I-1	phyto_oth
Papposphaera_sp	Concentration of Papposphaera sp cells in seawater	cell I-1	phyto_oth
Poricalyptra_aurisinae	Concentration of Poricalyptra aurisinae cells in seawater	cell I-1	phyto_oth
Pontosphaera_syracusana	Concentration of Pontosphaera syracusana cells in seawater	cell I-1	phyto_oth
Reticulofenestra_sessilis	Concentration of Reticulofenestra sessilis cells in seawater	cell I-1	phyto_oth
Rhabdosphaera_clavigera	Concentration of Rhabdosphaera clavigera cells in seawater	cell I-1	phyto_oth
Scisphosphaera_apsteinii	Concentration of Scisphosphaera apsteinii cells in seawater	cell I-1	phyto_oth
Syracosphaera_pulchra_HET	Concentration of Syracosphaera pulchra HET cells in seawater	cell I-1	phyto_oth
Syracosphaera_pulchra_HOL	Concentration of Syracosphaera pulchra HOL cells in seawater	cell I-1	phyto_oth
Syracosphaera_pirus	Concentration of Syracosphaera pirus cells in seawater	cell I-1	phyto_oth
Syracosphaera_prolongata	Concentration of Syracosphaera prolongata cells in seawater	cell I-1	phyto_oth
Syracosphaera_sp	Concentration of Syracosphaera sp cells in seawater	cell I-1	phyto_oth
Syracosphaera_spp	Concentration of Syracosphaera spp cells in seawater	cell I-1	phyto_oth
Umbellosphaera_irregularis	Concentration of Umbellosphaera irregularis cells in seawater	cell I-1	phyto_oth
Umbilicosphaera_anulus	Concentration of Umbilicosphaera anulus cells in seawater	cell I-1	phyto_oth
Umbilicosphaera_sibogae	Concentration of Umbilicosphaera sibogae cells in seawater	cell I-1	phyto_oth
Coco_sp_1	Concentration of Coco sp 1 cells in seawater	cell I-1	phyto_oth
Coco_sp_2	Concentration of Coco sp 2 cells in seawater	cell I-1	phyto_oth
Coco_sp_4	Concentration of Coco sp 4 cells in seawater	cell I-1	phyto_oth
Coco_sp_5	Concentration of Coco sp 5 cells in seawater	cell I-1	phyto_oth
Coco_sp_6	Concentration of Coco sp 6 cells in seawater	cell I-1	phyto_oth
Coco_sp_9	Concentration of Coco sp 9 cells in seawater	cell I-1	phyto_oth
Coco_sp_11	Concentration of Coco sp 11 cells in seawater	cell I-1	phyto_oth
Coco_sp_12	Concentration of Coco sp 12 cells in seawater	cell I-1	phyto_oth
Coco_sp_15	Concentration of Coco sp 15 cells in seawater	cell I-1	phyto_oth
Coco_sp_18	Concentration of Coco sp 18 cells in seawater	cell I-1	phyto_oth
Coco_sp_19	Concentration of Coco sp 19 cells in seawater	cell I-1	phyto_oth
Unidentified_coccolitjhophores_large	Concentration of Unidentified coccolitjhophores large cells in seawater	cell I-1	phyto_oth
Unidentified_coccolithophores_small_less_than_10um	Concentration of Unidentified coccolithophores small less than 10um cells in seawater	cell I-1	phyto_oth

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Dataset: Malaspina Expedition Nutrients and Phytoplankton

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Dataset: Malaspina Expedition Nutrients and Phytoplankton

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