Binned profiles of CTD measurements from R/V Endeavor cruise EN640 from June-July 2019

Website: https://www.bco-dmo.org/dataset/846170
Data Type: Cruise Results
Version: 3
Version Date: 2021-03-19

Project
» Collaborative Research: Impact of the Amazon River Plume on Nitrogen Availability and Planktonic Food Web Dynamics in the Western Tropical North Atlantic (Amazon River Plume Nitrogen)
ContributorsAffiliationRole
Montoya, JosephGeorgia Institute of Technology (GA Tech)Chief Scientist
Peterson, Richard N.Coastal Carolina UniversityCo-Principal Investigator
Subramaniam, AjitLamont-Doherty Earth Observatory (LDEO)Co-Principal Investigator
Rauch, ShannonWoods Hole Oceanographic Institution (WHOI BCO-DMO)BCO-DMO Data Manager

Abstract
This dataset contains binned profiles of CTD measurements from R/V Endeavor cruise EN640 from June-July 2019


Coverage

Spatial Extent: N:16.0319 E:-50.3916 S:4.87664 W:-60.0198
Temporal Extent: 2019-06-15 - 2019-07-07

Methods & Sampling

Hydrographic data were collected during casts with a CTD-rosette system (SBE11plus) equipped with a fluorometer, transmissometer, oxygen sensor, and a PAR sensor.


Data Processing Description

Data Processing:
Data were processed using SeaSave v 7.26.7.107. See Supplemental File "EN640_CTD_Sea-Bird_File_Header" (PDF) for a representative file header, which includes the SeaSave processing steps. Refer to Supplemental File "EN640_CTD_Data_Notes" (PDF) for Excel processing notes.

BCO-DMO Processing:
- added date/time field in ISO8601 format;
- renamed fields to comply with BCO-DMO naming conventions.


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Data Files

File
EN640_CTD.csv
(Comma Separated Values (.csv), 7.94 MB)
MD5:9781ad7ede51b679e9539e825efa0230
Primary data file for dataset ID 846170

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Supplemental Files

File
EN640_CTD_Data_Notes.pdf
(Portable Document Format (.pdf), 406.71 KB)
MD5:b850ad1a5b6039ef52aa625444aa4b5b
Processing notes describing the steps taken to compile data from the .btl files into the Excel file that was submitted to BCO-DMO.
EN640_CTD_Sea-Bird_File_Header.pdf
(Portable Document Format (.pdf), 316.07 KB)
MD5:b500ac9a4eb949d9264b0b10299ce46d
Representative Sea-Bird header file for the CTD casts conducted on cruise EN640. Includes sensor calibration information and SeaSave processing steps.

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Parameters

ParameterDescriptionUnits
FileName

Original name of data file

unitless
Cruise

Cruise identifer

unitless
Station

Station number

unitless
StnEvent

Numeric identifier for each deployment in the format SSS.EE. SSS is the station number and EE identifies the specific sampling event.

unitless
Scan

Scan count

unitless
TimeJ

Julian day (UTC)

unitless
ISO_DateTime_UTC

Date and time (UTC) in ISO8601 format: YYYY-MM-DDThh:mm:ssZ

unitless
TimeS

Time elapsed

seconds
PrDM

Pressure, Digiquartz

decibars (db)
T090C

Temperature [ITS-90]

degrees Celsius
T190C

Temperature, 2 [ITS-90]

degrees Celsius
T2_T190C

Temperature Difference, 2 - 1 [ITS-90]

degrees Celsius
C0S_m

Conductivity

Siemens per meter (S/m)
C1S_m

Conductivity, 2

Siemens per meter (S/m)
C2_C1S_m

Conductivity Difference, 2 - 1

Siemens per meter (S/m)
V0

Voltage 0

volts (V)
CStarAt0

Beam Attenuation, WET Labs C-Star

reciprocal meters (1/m)
CStarTr0

Beam Transmission, WET Labs C-Star

percent (%)
V1

Voltage 1

volts (V)
FlECO_AFL

Fluorescence, WET Labs ECO-AFL/FL

milligrams per cubic meter (mg/m^3)
V2

Voltage 2

volts (V)
AltM

Altimeter

meters (m)
V3

Voltage 3

volts (V)
Par

PAR/Irradiance, Biospherical/Licor

micromoles photons per square meter per second (umol photons/m^2/sec)
V4

Voltage 4

volts (V)
Sbeox0V

Oxygen raw, SBE 43

volts (V)
V5

Voltage 5

volts (V)
Sbeox1V

Oxygen raw, SBE 43, 2

volts (V)
V6

Voltage 6

volts (V)
V7

Voltage 7

volts (V)
Spar

SPAR, Biospherical/Licor

micromoles photons per square meter per second (umol photons/m^2/sec)
Pumps

Pump status

unitless
Latitude

Latitude

degrees North
Longitude

Longitude

degrees East
DepSM

Depth [salt water, m], lat = 11.2882

meters (m)
Sal00

Salinity, Practical

PSU
Sal11

Salinity, Practical, 2

PSU
Sigma_t00

Density [sigma-theta]

kilograms per cubic meter (kg/m^3)
Sigma_t11

Density, 2 [sigma-theta]

kilograms per cubic meter (kg/m^3)
Sbeox0Mm_L

Oxygen, SBE 43, WS = 2

micromoles per liter (umol/l)
Sbeox1Mm_L

Oxygen, SBE 43, 2, WS = 2

micromoles per liter (umol/l)
Potemp090C

Potential Temperature [ITS-90]

degrees Celsius
Potemp190C

Potential Temperature, 2 [ITS-90]

degrees Celsius
SvCM

Sound Velocity [Chen-Millero]

meters per second (m/s)
SvCM1

Sound Velocity, 2 [Chen-Millero]

meters per second (m/s)
Dz_dtM

Descent Rate, WS = 2

meters per second (m/s)
Gpa

Geopotential Anomaly

joules per kilogram (J/kg)
Nbin

number of scans per bin

unitless
Flag

Flag

unitless


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Instruments

Dataset-specific Instrument Name
Seabird SBE 11plus v5.2
Generic Instrument Name
CTD Sea-Bird
Generic Instrument Description
Conductivity, Temperature, Depth (CTD) sensor package from SeaBird Electronics, no specific unit identified. This instrument designation is used when specific make and model are not known. See also other SeaBird instruments listed under CTD. More information from Sea-Bird Electronics.

Dataset-specific Instrument Name
PAR/Irradiance & SPAR, Biospherical/Licor
Generic Instrument Name
LI-COR Biospherical PAR Sensor
Generic Instrument Description
The LI-COR Biospherical PAR Sensor is used to measure Photosynthetically Available Radiation (PAR) in the water column. This instrument designation is used when specific make and model are not known.

Dataset-specific Instrument Name
Oxygen, SBE 43
Generic Instrument Name
Sea-Bird SBE 43 Dissolved Oxygen Sensor
Generic Instrument Description
The Sea-Bird SBE 43 dissolved oxygen sensor is a redesign of the Clark polarographic membrane type of dissolved oxygen sensors. more information from Sea-Bird Electronics

Dataset-specific Instrument Name
Fluorometer, WET Labs ECO-AFL/FL
Generic Instrument Name
Wet Labs ECO-AFL/FL Fluorometer
Generic Instrument Description
The Environmental Characterization Optics (ECO) series of single channel fluorometers delivers both high resolution and wide ranges across the entire line of parameters using 14 bit digital processing. The ECO series excels in biological monitoring and dye trace studies. The potted optics block results in long term stability of the instrument and the optional anti-biofouling technology delivers truly long term field measurements. more information from Wet Labs

Dataset-specific Instrument Name
Transmissometer, WET Labs C-Star
Generic Instrument Name
WET Labs {Sea-Bird WETLabs} C-Star transmissometer
Generic Instrument Description
The C-Star transmissometer has a novel monolithic housing with a highly intgrated opto-electronic design to provide a low cost, compact solution for underwater measurements of beam transmittance. The C-Star is capable of free space measurements or flow-through sampling when used with a pump and optical flow tubes. The sensor can be used in profiling, moored, or underway applications. Available with a 6000 m depth rating. More information on Sea-Bird website: https://www.seabird.com/c-star-transmissometer/product?id=60762467717


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Deployments

EN640

Website
Platform
R/V Endeavor
Start Date
2019-06-13
End Date
2019-07-08
Description
See more information from the Rolling Deck to Repository (R2R): https://www.rvdata.us/search/cruise/EN640


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Project Information

Collaborative Research: Impact of the Amazon River Plume on Nitrogen Availability and Planktonic Food Web Dynamics in the Western Tropical North Atlantic (Amazon River Plume Nitrogen)

Coverage: Amazon River plume


NSF Award Abstract:
This is a focused program of field research in waters of the Western Tropical North Atlantic influenced by the Amazon River Plume during the high river flow season. The Amazon Plume region supports diverse plankton communities in a dynamic system driven by nutrients supplied by transport from the river proper as well as nutrients entrained from offshore waters by physical mixing and upwelling. This creates strong interactions among physical, chemical, and biological processes across a range of spatial and temporal scales. The field program will link direct measurements of environmental properties with focused experimental studies of nutrient supply and nutrient limitation of phytoplankton, as well as the transfer of phytoplankton nitrogen to the zooplankton food web. The Amazon Plume exhibits a close juxtaposition of distinct communities during the high-flow season, making it an ideal site for evaluating how nutrient availability, nutrient supply, and habitat longevity interact to drive offshore ecosystem dynamics and function. This project will include German collaborators and will seamlessly integrate education and research efforts. The investigators and their institutions have a strong commitment to undergraduate and graduate education and to increasing the diversity of the ocean science community through active recruiting and training efforts. The team has a strong track record of involving both undergraduate and graduate students in their field and lab research. The two research cruises planned will provide opportunities for students and technicians to interact with an interdisciplinary and international research team.

The ultimate objectives of this project are to understand the processes and interactions that promote distinct communities of nitrogen-fixing organisms (diazotrophs) and other phytoplankton around the Amazon Plume and to explore the impacts of these diazotroph-rich communities on zooplankton biomass and production. The research team includes scientists with expertise in nutrient and stable isotope biogeochemistry, remote sensing as well as specialists in characterizing water mass origin and history using naturally occurring radium isotopes. This combination of approaches will provide a unique opportunity to address fundamental questions related to plankton community structure, primary production, and links to secondary production in pelagic ecosystems. The project will address the following key questions focused on fundamental issues in plankton ecology resulting from previous research in this region:

A. What mechanisms promote the preferential delivery of bioavailable phosphorus and the resulting strong nitrogen limitation associated with the northern reaches of the Amazon Plume during the high flow season?

B. What factors lead to the clear niche separation between diazotrophs within and around the Amazon Plume and how are the distinct diazotroph communities influenced by hydrographic and biogeochemical controls associated with the Amazon River Plume and offshore upwelling processes?

C. How does the nitrogen fixed by the different types of diazotrophs contribute to secondary production, and how efficiently does diazotroph nitrogen move through the food web?



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Funding

Funding SourceAward
NSF Division of Ocean Sciences (NSF OCE)

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