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     data   graph     files  public Environmental data from Niskin bottle sampling during the Fall 2016 ESP deployment in
Monterey Bay, CA
   ?     I   M   background (external link) RSS BCO-DMO bcodmo_dataset_756413

The Dataset's Variables and Attributes

Row Type Variable Name Attribute Name Data Type Value
attribute NC_GLOBAL access_formats String .htmlTable,.csv,.json,.mat,.nc,.tsv
attribute NC_GLOBAL acquisition_description String Grab samples were taken using Niskin bottles that collected seawater at the
same depth and location of the Environmental Sample Processor deployed at
Station M0 (36.835 N, 121.901W). Water was transferred to a low-density
polyethylene cubitainer and maintained at ambient temperature until return to
lab within 30 min.

Chlorophyll a: 150 ml of seawater was filtered through a 25 mm GF/F filter in
triplicate using a vacuum pump and <5 in Hg pressure. The filter was placed in
a glass scintillation vial and 10 ml of 90% acetone was added and placed in
-20 freezer for at least 24 hours to extract the pigment. Extracted
chlorophyll a was quantified using fluorometry (Pennington and Chavez, 2000).

Flow Cytometry: Cubitainer seawater was transferred to a 50 ml Falcon tube
using laminar flow. 1.8 ml was then aliquoted to triplicate cryovials and
preserved with 200 ul of 5% glutaraldehyde and stored at -80 degrees C.
Analysis was run on a Beckman Coulter Altra flow cytometer for detection of
DNA, pigments, and forward and side light scatter (Monger and Landry, 1993).

Akashiwo Microscopy Counts: 7 - 14 ml of seawater was preserved to 1% final
concentration electron microscopy grade glutaraldehyde and stored at 4 degrees
C. Slides were made by filtering the full volume onto a 0.22 um black
polycarbonate filter (GE Water & Process Technologies) using a vacuum pump (<5
in Hg), and cells were counted under epifluorescence microscopy.

DMSP concentrations: Immediately upon return to the deck, duplicate samples
were collected from the Niskin bottle for in situ dissolved DMSP (DMSPd) (see
details below) before seawater transfer to the cubitainer. Upon return to the
laboratory, the cubitainer of water was gently mixed by inversion and three
replicate 10 ml sub-samples were removed by pipette into individual 15 ml
centrifuge tubes (Corning, polypropylene). The samples were immediately
acidified with 0.3 ml of 50% concentrated HCl (1.5% final concentration of
concentrated HCl) to preserve total DMSP (dissolved plus particulate). These
DMSPt samples were closed tightly and stored until analysis (described below)
which took place within three months of collection.\u00a0

DMSPd consumption: To measure the consumption rate of dissolved DMSP, we used
the glycine betaine (GBT) inhibition technique (Kiene & Gerard, 1995; Li et
al., 2016). Immediately upon return to the laboratory, six 500 ml glass
bottles were filled with seawater from the gently-mixed cubitainer. Three of
the bottles were treated with 25 ul of a 100 mM GBT anhydrous reagent (Sigma)
solution (10 uM final GBT concentration), and three were left untreated as
controls. Bottles were incubated in seawater maintained within 1 degree C of
the in situ temperature. Immediately after GBT addition, the first time point
was collected by simultaneously filtering ~50 ml sub-samples from each bottle
through 47 mm Whatman GF/F filters using the small volume gravity drip
filtration protocol of Kiene and Slezak (2006). The first\u00a03.5 ml of
filtrate from each sample was collected into 15 ml centrifuge tubes (Corning,
polypropylene) that contained 100 ul of 50% HCl to immediately preserve any
DMSP passing through the GF/F filter, which is defined as dissolved DMSP
(DMSPd). Additional time points from each bottle were collected at 3 and 6 h.
The rate of change of DMSPd in no-treatment bottles was subtracted from the
rate of change in the +GBT bottles to obtain an estimate of DMSPd consumption
rate (Kiene and Gerard, 1995).

DMSP Analysis: DMSP was quantified by proxy as the amount of DMS released from
samples after alkaline cleavage (White, 1982). For DMSPt, 0.05 to 0.5 ml of
each preserved sample was pipetted into a 14 ml glass serum vial, with the
volume being adjusted based on the concentration of DMSPt in the sample. For
DMSPd, the volume pipetted was 1.0 to 3.0 ml. Each serum vial was treated with
1 ml of 5 M NaOH and capped with a Teflon-faced serum stopper (Wheaton). After
1 h, the amount of DMS in each vial was quantified by purge and trap gas
chromatography with flame photometric detection. Briefly, each vial was
attached to the purge system and a flow of helium (90-100 ml per minute)
allowed bubbling of the solution. An excurrent needle led to a Nafion dryer
and six-port valve (Valco). The DMS in the samples was cryotrapped in a Teflon
tubing loop immersed in liquid nitrogen. After a 4 min sparge, during which
>99% of the DMS in the samples was removed, hot water replaced the liquid
nitrogen to introduce the DMS into the Shimadzu GC-2014 gas chromatograph.
Separation of the sulfur gases was achieved with a Chromosil 330 column
(Supelco; Sigma) maintained at 60 degrees C with a helium carrier flow of 25
ml per minute. The flame photometric detector was operated in sulfur mode and
maintained at 175 degrees C. Minimum detection limits during this study were
0.5 to 1 pmol DMS per sample with minimum detectable concentrations ranging
from 0.17 to 10 nM, depending on the volume analyzed. The GC-FPD system was
calibrated with a gas stream containing known amounts of DMS from a permeation
system.

Problem report:\u00a0For November chlorophyll a samples, fluorescence after
acid addition not measured but estimated from samples with similar total
fluorescence (Pennington and Chavez, 2000).
attribute NC_GLOBAL awards_0_award_nid String 541254
attribute NC_GLOBAL awards_0_award_number String OCE-1342694
attribute NC_GLOBAL awards_0_data_url String http://www.nsf.gov/awardsearch/showAward.do?AwardNumber=1342694 (external link)
attribute NC_GLOBAL awards_0_funder_name String NSF Division of Ocean Sciences
attribute NC_GLOBAL awards_0_funding_acronym String NSF OCE
attribute NC_GLOBAL awards_0_funding_source_nid String 355
attribute NC_GLOBAL awards_0_program_manager String Dr David L. Garrison
attribute NC_GLOBAL awards_0_program_manager_nid String 50534
attribute NC_GLOBAL cdm_data_type String Other
attribute NC_GLOBAL comment String Niskin Bottle Data from 2016 ESP Deployment
in Monterey Bay, CA
PI: Mary Ann Moran (University of Georgia)
Co-PI: Ronald Kiene (Dauphin Island Sea Lab)
Version date: 20-Feb-2019
attribute NC_GLOBAL Conventions String COARDS, CF-1.6, ACDD-1.3
attribute NC_GLOBAL creator_email String info at bco-dmo.org
attribute NC_GLOBAL creator_name String BCO-DMO
attribute NC_GLOBAL creator_type String institution
attribute NC_GLOBAL creator_url String https://www.bco-dmo.org/ (external link)
attribute NC_GLOBAL data_source String extract_data_as_tsv version 2.2d 13 Jun 2019
attribute NC_GLOBAL date_created String 2019-02-20T21:04:36Z
attribute NC_GLOBAL date_modified String 2019-04-17T17:38:02Z
attribute NC_GLOBAL defaultDataQuery String &time
attribute NC_GLOBAL doi String 10.1575/1912/bco-dmo.756413.1
attribute NC_GLOBAL geospatial_vertical_max double 6.0
attribute NC_GLOBAL geospatial_vertical_min double 5.0
attribute NC_GLOBAL geospatial_vertical_positive String down
attribute NC_GLOBAL geospatial_vertical_units String m
attribute NC_GLOBAL infoUrl String https://www.bco-dmo.org/dataset/756413 (external link)
attribute NC_GLOBAL institution String BCO-DMO
attribute NC_GLOBAL instruments_0_acronym String Turner Fluorometer -10AU
attribute NC_GLOBAL instruments_0_dataset_instrument_nid String 756455
attribute NC_GLOBAL instruments_0_description String The Turner Designs 10-AU Field Fluorometer is used to measure Chlorophyll fluorescence. The 10AU Fluorometer can be set up for continuous-flow monitoring or discrete sample analyses. A variety of compounds can be measured using application-specific optical filters available from the manufacturer. (read more from Turner Designs, turnerdesigns.com, Sunnyvale, CA, USA)
attribute NC_GLOBAL instruments_0_instrument_external_identifier String https://vocab.nerc.ac.uk/collection/L22/current/TOOL0393/ (external link)
attribute NC_GLOBAL instruments_0_instrument_name String Turner Designs Fluorometer -10-AU
attribute NC_GLOBAL instruments_0_instrument_nid String 464
attribute NC_GLOBAL instruments_0_supplied_name String Turner Designs 10-AU Fluorometer
attribute NC_GLOBAL instruments_1_acronym String Flow Cytometer
attribute NC_GLOBAL instruments_1_dataset_instrument_nid String 756456
attribute NC_GLOBAL instruments_1_description String Flow cytometers (FC or FCM) are automated instruments that quantitate properties of single cells, one cell at a time. They can measure cell size, cell granularity, the amounts of cell components such as total DNA, newly synthesized DNA, gene expression as the amount messenger RNA for a particular gene, amounts of specific surface receptors, amounts of intracellular proteins, or transient signalling events in living cells.
(from: http://www.bio.umass.edu/micro/immunology/facs542/facswhat.htm)
attribute NC_GLOBAL instruments_1_instrument_external_identifier String https://vocab.nerc.ac.uk/collection/L05/current/LAB37/ (external link)
attribute NC_GLOBAL instruments_1_instrument_name String Flow Cytometer
attribute NC_GLOBAL instruments_1_instrument_nid String 660
attribute NC_GLOBAL instruments_1_supplied_name String Beckman Coulter Altra
attribute NC_GLOBAL instruments_2_acronym String Gas Chromatograph
attribute NC_GLOBAL instruments_2_dataset_instrument_nid String 756457
attribute NC_GLOBAL instruments_2_description String Instrument separating gases, volatile substances, or substances dissolved in a volatile solvent by transporting an inert gas through a column packed with a sorbent to a detector for assay. (from SeaDataNet, BODC)
attribute NC_GLOBAL instruments_2_instrument_external_identifier String https://vocab.nerc.ac.uk/collection/L05/current/LAB02/ (external link)
attribute NC_GLOBAL instruments_2_instrument_name String Gas Chromatograph
attribute NC_GLOBAL instruments_2_instrument_nid String 661
attribute NC_GLOBAL instruments_2_supplied_name String Shimadzu GC-2014 gas chromatograph
attribute NC_GLOBAL keywords String akashiwo, bacteria, bco, bco-dmo, biological, chemical, chemistry, chlorophyll, Chlorophyll_a, Chlorophyll_a_stdev, color, concentration, concentration_of_chlorophyll_in_sea_water, consumption, currents, data, dataset, date, depth, deviation, dmo, dmspd, DMSPd_consumption_rate, DMSPd_in_situ, DMSPd_in_situ_stdev, DMSPd_lab, DMSPd_lab_stdev, dmspt, DMSPt_stdev, earth, Earth Science > Oceans > Ocean Chemistry > Chlorophyll, erddap, eukaryotes, heterotrophic, Heterotrophic_bacteria, Heterotrophic_bacteria_stdev, iso, lab, local, management, ocean, ocean color, oceanography, oceans, office, pacific, photosynthetic, Photosynthetic_eukaryotes, Photosynthetic_eukaryotes_stdev, preliminary, rate, science, sea, seawater, situ, standard, standard deviation, stdev, synechococcus, Synechococcus_stdev, time, Time_Pacific, water
attribute NC_GLOBAL keywords_vocabulary String GCMD Science Keywords
attribute NC_GLOBAL license String The data may be used and redistributed for free but is not intended
for legal use, since it may contain inaccuracies. Neither the data
Contributor, ERD, NOAA, nor the United States Government, nor any
of their employees or contractors, makes any warranty, express or
implied, including warranties of merchantability and fitness for a
particular purpose, or assumes any legal liability for the accuracy,
completeness, or usefulness, of this information.
attribute NC_GLOBAL metadata_source String https://www.bco-dmo.org/api/dataset/756413 (external link)
attribute NC_GLOBAL param_mapping String {'756413': {'Depth': 'master - depth'}}
attribute NC_GLOBAL parameter_source String https://www.bco-dmo.org/mapserver/dataset/756413/parameters (external link)
attribute NC_GLOBAL people_0_affiliation String University of Georgia
attribute NC_GLOBAL people_0_affiliation_acronym String UGA
attribute NC_GLOBAL people_0_person_name String Mary Ann Moran
attribute NC_GLOBAL people_0_person_nid String 51592
attribute NC_GLOBAL people_0_role String Principal Investigator
attribute NC_GLOBAL people_0_role_type String originator
attribute NC_GLOBAL people_1_affiliation String Dauphin Island Sea Lab
attribute NC_GLOBAL people_1_affiliation_acronym String DISL
attribute NC_GLOBAL people_1_person_name String Dr Ronald Kiene
attribute NC_GLOBAL people_1_person_nid String 51594
attribute NC_GLOBAL people_1_role String Co-Principal Investigator
attribute NC_GLOBAL people_1_role_type String originator
attribute NC_GLOBAL people_2_affiliation String Woods Hole Oceanographic Institution
attribute NC_GLOBAL people_2_affiliation_acronym String WHOI BCO-DMO
attribute NC_GLOBAL people_2_person_name String Shannon Rauch
attribute NC_GLOBAL people_2_person_nid String 51498
attribute NC_GLOBAL people_2_role String BCO-DMO Data Manager
attribute NC_GLOBAL people_2_role_type String related
attribute NC_GLOBAL project String Bacterial Taxa that Control Sulfur Flux from the Ocean to the Atmosphere
attribute NC_GLOBAL projects_0_acronym String OceanSulfurFluxBact
attribute NC_GLOBAL projects_0_description String Surface ocean bacterioplankton preside over a divergence point in the marine sulfur cycle where the fate of dimethylsulfoniopropionate (DMSP) is determined. While it is well recognized that this juncture influences the fate of sulfur in the ocean and atmosphere, its regulation by bacterioplankton is not yet understood. Based on recent findings in biogeochemistry, bacterial physiology, bacterial genetics, and ocean instrumentation, the microbial oceanography community is poised to make major advances in knowledge of this control point. This research project is ascertaining how the major taxa of bacterial DMSP degraders in seawater regulate DMSP transformations, and addresses the implications of bacterial functional, genetic, and taxonomic diversity for global sulfur cycling.
The project is founded on the globally important function of bacterial transformation of the ubiquitous organic sulfur compound DMSP in ocean surface waters. Recent genetic discoveries have identified key genes in the two major DMSP degradation pathways, and the stage is now set to identify the factors that regulate gene expression to favor one or the other pathway during DMSP processing. The taxonomy of the bacteria mediating DMSP cycling has been deduced from genomic and metagenomic sequencing surveys to include four major groups of surface ocean bacterioplankton. How regulation of DMSP degradation differs among these groups and maps to phylogeny in co-occurring members is key information for understanding the marine sulfur cycle and predicting its function in a changing ocean. Using model organism studies, microcosm experiments (at Dauphin Island Sea Lab, AL), and time-series field studies with an autonomous sample collection instrument (at Monterey Bay, CA), this project is taking a taxon-specific approach to decipher the regulation of bacterial DMSP degradation.
This research addresses fundamental questions of how the diversity of microbial life influences the geochemical environment of the oceans and atmosphere, linking the genetic basis of metabolic potential to taxonomic diversity. The project is training graduate students and post-doctoral scholars in microbial biodiversity and providing research opportunities and mentoring for undergraduate students. An outreach program is enhance understanding of the role and diversity of marine microorganisms in global elemental cycles among high school students. Advanced Placement Biology students are participating in marine microbial research that covers key learning goals in the AP Biology curriculum. Two high school students are selected each year for summer research internships in PI laboratories.
attribute NC_GLOBAL projects_0_end_date String 2018-12
attribute NC_GLOBAL projects_0_name String Bacterial Taxa that Control Sulfur Flux from the Ocean to the Atmosphere
attribute NC_GLOBAL projects_0_project_nid String 541255
attribute NC_GLOBAL projects_0_start_date String 2014-01
attribute NC_GLOBAL publisher_name String Shannon Rauch
attribute NC_GLOBAL publisher_role String BCO-DMO Data Manager(s)
attribute NC_GLOBAL sourceUrl String (local files)
attribute NC_GLOBAL standard_name_vocabulary String CF Standard Name Table v29
attribute NC_GLOBAL summary String Environmental data from Niskin bottle sampling during the Fall 2016 ESP deployment in Monterey Bay, CA. Samples were taken using Niskin bottles that collected seawater at the same depth and location of the Environmental Sample Processor deployed at Station M0 (36.835 N, 121.901W).
attribute NC_GLOBAL title String Environmental data from Niskin bottle sampling during the Fall 2016 ESP deployment in Monterey Bay, CA
attribute NC_GLOBAL version String 1
attribute NC_GLOBAL xml_source String osprey2erddap.update_xml() v1.5-beta
variable Date   String  
attribute Date description String Date. Format: yyyy-mm-dd.
attribute Date ioos_category String Time
attribute Date long_name String Date
attribute Date units String unitless
variable Time_Pacific   String  
attribute Time_Pacific description String Time (Pacific time zone). Format: HH:MM.
attribute Time_Pacific ioos_category String Time
attribute Time_Pacific long_name String Time Pacific
attribute Time_Pacific units String unitless
variable ISO_DateTime_Local   String  
attribute ISO_DateTime_Local description String Date and time (local) formatted to ISO8601 standard.
attribute ISO_DateTime_Local ioos_category String Time
attribute ISO_DateTime_Local long_name String ISO Date Time Local
attribute ISO_DateTime_Local source_name String ISO_DateTime_Local
attribute ISO_DateTime_Local units String unitless
variable depth   double  
attribute depth _CoordinateAxisType String Height
attribute depth _CoordinateZisPositive String down
attribute depth _FillValue double NaN
attribute depth actual_range double 5.0, 6.0
attribute depth axis String Z
attribute depth colorBarMaximum double 8000.0
attribute depth colorBarMinimum double -8000.0
attribute depth colorBarPalette String TopographyDepth
attribute depth description String Sampling depth
attribute depth ioos_category String Location
attribute depth long_name String Depth
attribute depth positive String down
attribute depth standard_name String depth
attribute depth units String m
variable Chlorophyll_a   float  
attribute Chlorophyll_a _FillValue float NaN
attribute Chlorophyll_a actual_range float 1.1, 56.5
attribute Chlorophyll_a colorBarMaximum double 30.0
attribute Chlorophyll_a colorBarMinimum double 0.03
attribute Chlorophyll_a colorBarScale String Log
attribute Chlorophyll_a description String Chlorophyll a
attribute Chlorophyll_a ioos_category String Ocean Color
attribute Chlorophyll_a long_name String Concentration Of Chlorophyll In Sea Water
attribute Chlorophyll_a units String micrograms per liter (ug/L)
variable DMSPd_in_situ   float  
attribute DMSPd_in_situ _FillValue float NaN
attribute DMSPd_in_situ actual_range float 1.2, 7.9
attribute DMSPd_in_situ description String Dissolved DMSP sampled on boat immediately after seawater collection
attribute DMSPd_in_situ ioos_category String Currents
attribute DMSPd_in_situ long_name String DMSPd In Situ
attribute DMSPd_in_situ units String nanomolar (nM)
variable DMSPd_lab   float  
attribute DMSPd_lab _FillValue float NaN
attribute DMSPd_lab actual_range float 1.5, 14.1
attribute DMSPd_lab description String Dissolved DMSP sampled after seawater transferred to lab
attribute DMSPd_lab ioos_category String Currents
attribute DMSPd_lab long_name String DMSPd Lab
attribute DMSPd_lab units String nanomolar (nM)
variable DMSPt   float  
attribute DMSPt _FillValue float NaN
attribute DMSPt actual_range float 52.0, 4240.2
attribute DMSPt description String Total DMSP
attribute DMSPt ioos_category String Unknown
attribute DMSPt long_name String DMSPT
attribute DMSPt units String nanomolar (nM)
variable DMSPd_consumption_rate   float  
attribute DMSPd_consumption_rate _FillValue float NaN
attribute DMSPd_consumption_rate actual_range float 11.45, 182.06
attribute DMSPd_consumption_rate description String Dissolved DMSP consumption rate
attribute DMSPd_consumption_rate ioos_category String Currents
attribute DMSPd_consumption_rate long_name String DMSPd Consumption Rate
attribute DMSPd_consumption_rate units String nM/d
variable Photosynthetic_eukaryotes   double  
attribute Photosynthetic_eukaryotes _FillValue double NaN
attribute Photosynthetic_eukaryotes actual_range double 8958.333333, 30645.83333
attribute Photosynthetic_eukaryotes description String Determined by flow cytometry
attribute Photosynthetic_eukaryotes ioos_category String Unknown
attribute Photosynthetic_eukaryotes long_name String Photosynthetic Eukaryotes
attribute Photosynthetic_eukaryotes units String cells per milliliter (cells/mL)
variable Heterotrophic_bacteria   double  
attribute Heterotrophic_bacteria _FillValue double NaN
attribute Heterotrophic_bacteria actual_range double 826402.7778, 4314583.333
attribute Heterotrophic_bacteria description String Determined by flow cytometry
attribute Heterotrophic_bacteria ioos_category String Unknown
attribute Heterotrophic_bacteria long_name String Heterotrophic Bacteria
attribute Heterotrophic_bacteria units String cells per milliliter (cells/mL)
variable Synechococcus   double  
attribute Synechococcus _FillValue double NaN
attribute Synechococcus actual_range double 9625.0, 39493.05556
attribute Synechococcus description String Determined by flow cytometry
attribute Synechococcus ioos_category String Unknown
attribute Synechococcus long_name String Synechococcus
attribute Synechococcus units String cells per milliliter (cells/mL)
variable Akashiwo   double  
attribute Akashiwo _FillValue double NaN
attribute Akashiwo actual_range double 6.859205776, 4914.666667
attribute Akashiwo description String Determined by microscopy
attribute Akashiwo ioos_category String Unknown
attribute Akashiwo long_name String Akashiwo
attribute Akashiwo units String cells per milliliter (cells/mL)
variable Chlorophyll_a_stdev   float  
attribute Chlorophyll_a_stdev _FillValue float NaN
attribute Chlorophyll_a_stdev actual_range float 0.0, 1.2
attribute Chlorophyll_a_stdev colorBarMaximum double 30.0
attribute Chlorophyll_a_stdev colorBarMinimum double 0.03
attribute Chlorophyll_a_stdev colorBarScale String Log
attribute Chlorophyll_a_stdev description String Standard deviation of Chlorophyll_a (n = 3)
attribute Chlorophyll_a_stdev ioos_category String Ocean Color
attribute Chlorophyll_a_stdev long_name String Concentration Of Chlorophyll In Sea Water
attribute Chlorophyll_a_stdev units String micrograms per liter (ug/L)
variable DMSPd_in_situ_stdev   float  
attribute DMSPd_in_situ_stdev _FillValue float NaN
attribute DMSPd_in_situ_stdev actual_range float 0.0, 4.0
attribute DMSPd_in_situ_stdev description String Standard deviation of DMSPd_in_situ (n = 3)
attribute DMSPd_in_situ_stdev ioos_category String Currents
attribute DMSPd_in_situ_stdev long_name String DMSPd In Situ Stdev
attribute DMSPd_in_situ_stdev units String nanomolar (nM)
variable DMSPd_lab_stdev   float  
attribute DMSPd_lab_stdev _FillValue float NaN
attribute DMSPd_lab_stdev actual_range float 0.1, 5.7
attribute DMSPd_lab_stdev description String Standard deviation of DMSPd_lab (n =3)
attribute DMSPd_lab_stdev ioos_category String Currents
attribute DMSPd_lab_stdev long_name String DMSPd Lab Stdev
attribute DMSPd_lab_stdev units String nanomolar (nM)
variable DMSPt_stdev   float  
attribute DMSPt_stdev _FillValue float NaN
attribute DMSPt_stdev actual_range float 1.6, 352.0
attribute DMSPt_stdev description String Standard deviation of DMSPt (n = 3)
attribute DMSPt_stdev ioos_category String Unknown
attribute DMSPt_stdev long_name String DMSPt Stdev
attribute DMSPt_stdev units String nanomolar (nM)
variable Photosynthetic_eukaryotes_stdev   double  
attribute Photosynthetic_eukaryotes_stdev _FillValue double NaN
attribute Photosynthetic_eukaryotes_stdev actual_range double 127.6720577, 4959.568396
attribute Photosynthetic_eukaryotes_stdev description String Standard deviation of Photosynthetic_eukaryotes (n = 2)
attribute Photosynthetic_eukaryotes_stdev ioos_category String Unknown
attribute Photosynthetic_eukaryotes_stdev long_name String Photosynthetic Eukaryotes Stdev
attribute Photosynthetic_eukaryotes_stdev units String cells per milliliter (cells/mL)
variable Heterotrophic_bacteria_stdev   double  
attribute Heterotrophic_bacteria_stdev _FillValue double NaN
attribute Heterotrophic_bacteria_stdev actual_range double 3928.371007, 137492.9852
attribute Heterotrophic_bacteria_stdev description String Standard deviation of Heterotrophic_bacteria (n = 2)
attribute Heterotrophic_bacteria_stdev ioos_category String Unknown
attribute Heterotrophic_bacteria_stdev long_name String Heterotrophic Bacteria Stdev
attribute Heterotrophic_bacteria_stdev units String cells per milliliter (cells/mL)
variable Synechococcus_stdev   double  
attribute Synechococcus_stdev _FillValue double NaN
attribute Synechococcus_stdev actual_range double 9.820927516, 3623.922254
attribute Synechococcus_stdev description String Standard deviation of Synechococcus (n = 2)
attribute Synechococcus_stdev ioos_category String Unknown
attribute Synechococcus_stdev long_name String Synechococcus Stdev
attribute Synechococcus_stdev units String cells per milliliter (cells/mL)

The information in the table above is also available in other file formats (.csv, .htmlTable, .itx, .json, .jsonlCSV, .jsonlKVP, .mat, .nc, .nccsv, .tsv, .xhtml) via a RESTful web service.


 
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