Dataset: Sediment Traps
Deployment: MV1008

Shallow-drifting sediment trap fluxes (C, N, pigments).

Principal Investigator:

Michael R. Landry (University of California-San Diego, UCSD-SIO)

Contact:

Michael R. Stukel (University of Maryland Center for Environmental Science, UMCES/HPL)

BCO-DMO Data Manager:

Shannon Rauch (Woods Hole Oceanographic Institution, WHOI BCO-DMO)

Project:

Costa Rica Dome FLUx and Zinc Experiments (CRD FLUZiE)

Current State:

Final no updates expected

Version:

27 May 2014

Deployment Synonyms:

CRD FLUZiE

Version Date:

2014-05-27

Data URL:

https://www.bco-dmo.org/dataset-deployment/515989/data

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Description

Carbon, Nitrogen, and pigment fluxes from sediment trap arrays deployed in the Costa Rica Dome region of the Eastern Tropical Pacific Ocean during June and July 2010.

Methods & Sampling

Dataset acquisition description

The sediment trap array was deployed at the beginning and recovered at the end of each experimental cycle.The array consisted of two VERTEX-style particle interceptor tube (PIT) crosspieces (Knauer et al. 1979, Stukel et al. 2013), deployed at what investigators initially thought to be the base of the euphotic zone (100 m on cycle 1, 90 m on other cycles) and 150 m. Each crosspiece held 8-12 cylindrical trap tubes, with an inner diameter of 70 mm and an 8:1 aspect ratio. Each tube also contained a baffle constructed of 14 smaller tubes that had been tapered at the top to ensure that all particles settling within the inner diameter of the outer tube would sink into the trap. Tubes were deployed with 2 L of a slurry comprised of 0.1-um filtered seawater, amended with an additional 50 g L-1 NaCl, and formalin (1% final concentration).

Upon recovery, the height of the interface between trap slurry and overlying water was immediately determined and the overlying water was gently removed with a peristaltic pump. Samples were then gravity filtered through a 200-um mesh Nitex filter and the contents of the filter were sorted under a dissecting microscope to remove mesozooplankton that were believed to have swam into the trap. The remainder of the >200-um particles were then re-combined with the <200-um. Individual tubes were split using a Fulsom split to allow replicate measurements of multiple different components of the sinking including organic C (Corg), N, and pigments (reported in Stukel et al. 2013). Samples for pigments were filtered through GF/F filters and extracted in 90% acetone for greater than 24 hours. Chlorophyll a and phaeopigments were then determined on a Turner Designs model 10 fluorometer (Strickland and Parsons, 1972). Samples for C and N were filtered through a GF/F filter and frozen at -80C. On land, filters were cut in half and acidified with HCl for 24 hours. They were then analyzed for C and N on the CHN analyzer at the SIO Analytical Facility.

Related publications and references:
Knauer, G.A., Martin, J.H., and Bruland, K.W. (1979) Fluxes of particulate carbon, nitrogen, and phosphorus
in the upper water column of the northeast Pacific. Deep Sea Research, 26A, 97-108. doi: 10.1016/0198-0149(79)90089-X
Stukel, M. R., Decima, M. ,Selph, K. E., Taniguchi, D. A. A., Landry, M. R. (2013) The role of Synechococcus in vertical flux in the Costa Rica upwelling dome. Progress in Oceanography 112-113: 49-59. doi: 10.1016/j.pocean.2013.04.003

Data Processing Description

Dataset Processing Description

More information about this dataset deployment

Funding

Award Number	Funding Source
OCE-0826626	NSF Division of Ocean Sciences

Instruments

Sediment Trap - Floating

Supplied Name: Sed Trap - Float

Supplied Description:

The sediment trap array consisted of two VERTEX-style particle interceptor tube (PIT) crosspieces (Knauer et al. 1979, Stukel et al. 2013), deployed at what was initially thought to be the base of the euphotic zone (100m on cycle 1, 90 m on other cycles) and 150 m. Each crosspiece held 8-12 cylindrical trap tubes, with an inner diameter of 70 mm and an 8:1 aspect ratio. Each tube also contained a baffle constructed of 14 smaller tubes that had been tapered at the top to ensure that all particles settling within the inner diameter of the outer tube would sink into the trap.

Refer to Knauer et al. 1979 (doi: 10.1016/0198-0149(79)90089-X) for more information about VERTEX-style sediment traps.

Instrument Type

Generic Name: Sediment Trap - Floating

Acronym: Sed Trap - Float

Community Identifier: http://vocab.nerc.ac.uk/collection/L05/current/33/

Generic Description:

Floating sediment traps are specially designed sampling devices deployed to float in the water column (as opposed to being secured to a mooring at a fixed depth) for periods of time to collect particles from the water column that are falling toward the sea floor. In general a sediment trap has a container at the bottom to collect the sample and a broad funnel-shaped opening at the top with baffles to keep out very large objects and help prevent the funnel from clogging. The 'Sediment Trap -Floating' designation is used for a floating type of sediment trap about which no other design details are known.

Parameters

Supplied Name	Supplied description	Supplied Units	Standard Name
event_deploy	Number referring to the particular deployment activity (event) on the FluZiE cruise.	integer	event
event_recover	Number referring to the particular recovery activity (event) on the FluZiE cruise.	integer	event
date_deployed	Date of deployment of the drifting sediment trap array (local time zone of UTC -6). format: ddmmyyyy	unitless	date_start
date_recovered	Date of recovery of the drifting sediment trap array (local time zone of UTC -6). format: ddmmyyyy	unitless	date_end
cycle	Refers to the 4-day Lagrangian experiment during which the sample was taken.	integer	no_bcodmo_term
lat_deploy	Latitude (in degrees North) that sediment trap array was deployed.	decimal degrees	lat
lon_deploy	Longitude (in degrees East) that sediment trap array was deployed.	decimal degrees	lon
lat_recover	Latitude (in degrees North) that sediment trap array was recovered.	decimal degrees	lat
lon_recover	Longitude (in degrees East) that sediment trap array was recovered.	decimal degrees	lon
depth	Depth of sediment trap.	meters	depth
C_org_flux	Particulate organic carbon flux into trap.	milligrams Carbon per square meter per day (mg C m-2 d-1)	no_bcodmo_term
C_org_flux_stdev	Standard deviation of particulate organic carbon flux into trap.	milligrams Carbon per square meter per day (mg C m-2 d-1)	std_dev
N_org_flux	Particulate nitrogen flux into trap.	milligrams Nitrogen per square meter per day (mg N m-2 d-1)	no_bcodmo_term
N_org_flux_stdev	Standard deviation of particulate nitrogen flux into trap.	milligrams Nitrogen per square meter per day (mg N m-2 d-1)	std_dev
chla_flux	Chlorophyll a flux into trap.	micrograms Chl-a per square meter per day (ug Chl a m-2 d-1)	chl_a_f
chla_flux_stdev	Standard deviation of chlorophyll a flux into trap.	micrograms Chl-a per square meter per day (ug Chl a m-2 d-1)	std_dev
phaeo_flux	Phaeopigment flux into trap.	micrograms Chl-a equivalents per square meter per day (ug Chl a equivalents m-2 d-1)	no_bcodmo_term
phaeo_flux_stdev	Standard deviation of phaeopigment flux into trap.	micrograms Chl-a equivalents per square meter per day (ug Chl a equivalents m-2 d-1)	std_dev

Database

Contribute Data

Dataset: Sediment Traps
Deployment: MV1008

Dataset acquisition description

Dataset Processing Description

Database

Contribute Data

Dataset: Sediment TrapsDeployment: MV1008

Dataset acquisition description

Dataset Processing Description

Dataset: Sediment Traps
Deployment: MV1008