MOCNESS tow physical parameter data from R/V New Horizon cruise NH1008 in Monterey Bay, near MBARI buoy M1 (36.747?N, 122.022?W); 2010 (GATEKEEPERS project)

Website: https://www.bco-dmo.org/dataset/3731
Version: 24 September 2012
Version Date: 2012-09-24

Project
» Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux? (GATEKEEPERS)
ContributorsAffiliationRole
Checkley, David M.University of California-San Diego Scripps (UCSD-SIO)Principal Investigator, Contact
Dagg, MichaelLouisiana Universities Marine Consortium (LUMCON)Co-Principal Investigator
Jackson, George A.Texas A&M University (TAMU)Co-Principal Investigator
Gegg, Stephen R.Woods Hole Oceanographic Institution (WHOI BCO-DMO)BCO-DMO Data Manager


Dataset Description

MOCNESS - Data
time pres echo temp theta sal sigma angle flow hzvel
vtvel vol net fluor ptran oxycurrent oxytemp oxygen
lat lon


Methods & Sampling

(In Progress)


Data Processing Description

BCO-DMO Processing/Edits
- Generated from MOCNESS data (MN_XX.txt files) contributed by Jessica Forrest-Baldini
- Awk routine "NewHorizon_MN_2_BCODMO.awk" generated to convert MN_XX.txt files to bco-dmo formatted files
- Spaces converted to tabs
- BCO-DMO compatible parameter header generated


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Data Files

File
MOCNESS_Data.csv
(Comma Separated Values (.csv), 2.17 MB)
MD5:adb5e5c911d98724d94848fb646622ac
Primary data file for dataset ID 3731

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Parameters

ParameterDescriptionUnits
MN_Tow

MOCNESS Tow Number

Dimensionless
Event

Event Number

Dimensionless
Station

Station Number/Id

Dimensionless
ISO_DateTime_Local_Deployed

Deployment Date/Time (PDT) ISO formatted

YYYY-MM-DDTHH:MM:SS.xx[+/-TZ]
Date_Deployed

Deployment Date (PDT)

YYYYMMDD
Time_Deployed

Deployment Time (PDT)

HHMMSS
Latitude_Deployed

Deployment Latitude (South is negative)

decimal degrees
Longitude_Deployed

Deployment Longitude (West is negative)

decimal degrees
ISO_DateTime_Local_Recovered

Recovery Date/Time (PDT) ISO formatted

YYYY-MM-DDTHH:MM:SS.xx[+/-TZ]
Date_Recovered

Recovery Date (PDT)

YYYYMMDD
Time_Recovered

Recovery Time (PDT)

HHMMSS
Latitude_Recovered

Recovery Latitude (South is negative)

decimal degrees
Longitude_Recovered

Recovery Longitude (West is negative)

decimal degrees
time

Julian day and hours/minutes expressed as decimal
Note: GMT day number is off by one day (GMT Day Reported > GMT Day actual by one day)

decimal days
pres

pressure

decibars = depth (m)

decibars
echo

echo

kHz
temp

temperature

Degrees celsius
theta

Theta - potential temperature

nd
sal

salinity

PSU
sigma

sigma t (density)

kg/m3
angle

angle of net frame relative to vertical

degrees
flow

flow

nd
hzvel

horizontal velocity

meters/min(?/)
vtvel

verticle velocity

meters/min(??)
vol

volume filtered

m3
net

sequential MOCNESS net number

dimensionless
fluor

fluorescence

volts
ptran

transmissometer(??)

nd
oxycurrent

oxygen sensor current

nd
oxytemp

oxygen sensor temperature

nd
oxygen

dissolved oxygen

mL/L
lat

Data Latitude (South is negative)

decimal degrees
lon

Data Longitude (West is negative)

decimal degrees


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Instruments

Dataset-specific Instrument Name
MOCNESS
Generic Instrument Name
MOCNESS
Generic Instrument Description
The Multiple Opening/Closing Net and Environmental Sensing System or MOCNESS is a family of net systems based on the Tucker Trawl principle. There are currently 8 different sizes of MOCNESS in existence which are designed for capture of different size ranges of zooplankton and micro-nekton Each system is designated according to the size of the net mouth opening and in two cases, the number of nets it carries. The original MOCNESS (Wiebe et al, 1976) was a redesigned and improved version of a system described by Frost and McCrone (1974).(from MOCNESS manual) This designation is used when the specific type of MOCNESS (number and size of nets) was not specified by the contributing investigator.


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Deployments

NH1008

Website
Platform
R/V New Horizon
Report
Start Date
2010-07-08
End Date
2010-07-25
Description
Collaborative Research: Zooplankton at the Base of the Particle Maximum: Gatekeepers of the Vertical Flux?: Deployment and recovery of SOLOPCs in Monterey Bay, plus CTD and MOCNESS deployments in Monterey Bay Cruise information and original data are available from the NSF R2R data catalog. Figure 1. R/V New Horizon Cruise NH1008 GATEKEEPERS [click on the image to view a larger version]


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Project Information

Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux? (GATEKEEPERS)


Coverage: Monterey Bay, CA and waters offshore


Zooplankton feeding at the base of the particle maximum: Gatekeepers of the Vertical Flux?

A range of observations suggest that zooplankton act as gatekeepers for material leaving the euphotic zone. This study will investigate the interactions of zooplankton with other particles using a suite of autonomous and tethered instruments in conjunction with finescale water sampling. The SOLOPC (Sounding Oceanographic Observer with Laser Optical Plankton Counter) will be the autonomous instrument and provide hourly profiles of zooplankton and other particles. Previous sampling with the SOLOPC indicated a diel cycle of production and abundance of particles in the euphotic zone and their sinking and consumption, presumably by zooplankton observed at the base of the particle abundance maximum. The SOLOPC senses particles, including zooplankton and aggregates, and measures their equivalent spherical diameters which can be used to compute particle size spectra. However, it is difficult to use the SOLOPC to distinguish among particle types, such as copepods, larvaceans, and aggregates, particularly if they are small. The research will include an intensive field study that will take place in Monterey Bay and use adaptive sampling to observe near SOLOPCs with a new, AUV-borne imaging system, ship-based CTD and MOCNESS sampling, and MBARI's ROV Ventana. The investigators will alter a SOLOPC to be stationary relative to an isopycnal and use the particle counts that it accumulates to calculate a flux spectrum. They will combine the flux and concentration spectra to estimate particle sinking velocities as a function of particle diameter. Zooplankton feeding in the water column will be estimated by analyzing the gut fluorescence of animals caught in zooplankton nets and by counting the distribution of fecal pellets in water samples. Results will enhance the understanding of the role of the zooplankton as gatekeepers in the vertical flux of particles and, hence, the biological pump. The study will also provide new insight into factors that affect zooplankton behavior and ecology.

Collaborating institutions include SIO, TAMU, LUMCON, MBARI, BIO, and Université Paris VI. The SOLOPC, modified to measure flux as well as profile, and REFLICS are intended for acquisition and use by other researchers worldwide. The understanding we gain of role of the zooplankton as gatekeepers of the vertical flux will contribute valuably to understanding of the biological pump and the carbon cycle.

PUBLICATIONS PRODUCED AS A RESULT OF THIS RESEARCH
Jackson, GA and DM Checkley Jr. "Particle size distributions in the upper 100 m water column and their implications for animal feeding in the plankton," Deep-Sea Research, 2011.

Figure 1. R/V New Horizon Cruise NH1008 GATEKEEPERS
[click on the image to view a larger version]



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Funding

Funding SourceAward
NSF Division of Ocean Sciences (NSF OCE)
NSF Division of Ocean Sciences (NSF OCE)
NSF Division of Ocean Sciences (NSF OCE)

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