Dataset: GN01 Aerosol Mercury
Deployment: HLY1502

Mercury and methylmercury concentrations in aerosols

Principal Investigator:

Robert P. Mason (University of Connecticut, UConn)

BCO-DMO Data Manager:

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

Project:

Collaborative Research: GEOTRACES Arctic Section: Determination of atmospheric wet and dry deposition and air-sea exchange of mercury species from coastal and offshore waters (GEOTRACES Arctic Atmos Hg)

U.S. Arctic GEOTRACES Study (GN01) (U.S. GEOTRACES Arctic)

Deployment Synonyms:

GN01, U.S. GEOTRACES Arctic, 32H120150809

Data URL:

https://www.bco-dmo.org/dataset-deployment/779232/data

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Description

The data include measurements of mercury and methylmercury concentrations in aerosols from the GEOTRACES Arctic Ocean cruise in 2015 (HLY1502, GN01).

Methods & Sampling

Dataset acquisition description

Methodology: Details of the methods for the cruise are given in DiMento et al. (2019). Details of the overall method and approach for dissolved gaseous mercury and atmospheric mercury methods are given in Andersson et al. (2008), Mason et al. (2017), Soerensen et al. (2014), and Soerensen et al. (2013). Analytical methods are detailed in DiMento et al. (2019) with additional information in the papers listed above and in Munson et al. (2014), Morton et al. (2013), and Gichuki & Mason (2014). See "Related Publications" below for complete citations.

Sampling Procedures: Fourteen bulk aerosol deployments were made over periods of three to five days using high-volume aerosol samplers following methods in Morton et al. (2013). During each deployment, aerosol samples were collected in triplicate on pre-combusted glass-fiber (GFF) or quartz fiber (QMA) filters. Unused filters were set aside for blank analysis. Sampling duration lasted an average of 31.0 h (11.0 to 80.0 h) with an average volume filtered of 172.5 m3 (60.6 to 451.9 m3). Aerosol filters were stored in acid cleaned polystyrene petri dishes. All samples were kept frozen at -20 degrees C in the dark, and were transported back to the University of Connecticut for analysis.

Methylmercury concentrations were determined following the ascorbic acid-assisted direct ethylation method (Munson et al., 2014) using a Tekran 2700 instrument and autosampler to automate the purging, trapping, and detection via cold vapor atomic fluorescence spectroscopy (CVAFS). Samples were thawed then acidified to 1% (v/v) H2SO4 and left to digest overnight before neutralizing with 8N potassium hydroxide (KOH), buffering with 4M acetate, adding 2.5% (w/v) ascorbic acid and finally 1% (w/v) sodium tetraethyl borate (NaTEB) to ethylate the methylmercury. Total mercury concentrations were determined by dual gold-amalgamation CVAFS utilizing a Tekran 2600 instrument in accordance with U.S. EPA Method 1631. Briefly, waters were digested with bromine monochloride (BrCl) followed by a pre-reduction step with hydroxylamine hydrochloride (NH₂OH·HCl). Inorganic Hg(II) was then reduced to Hg⁰ using stannous chloride (SnCl₂) prior to automated analysis on the Tekran.

Aerosol filters were digested in acid-cleaned 15-mL centrifuge tubes with 10 mL of 4.57 M trace metal grade HNO3, placed in a covered 60 degrees C water bath for 12 hours (Hammerschmidt and Fitzgerald, 2006). A subsample of this digest was taken for CH3Hg analysis, and the remainder was further digested with BrCl overnight at room temperature.

Data Processing Description

Dataset Processing Description

QA/QC: Measurements of elemental mercury in surface seawater and in the atmosphere relied on the use of a Tekran air measurement instrument, which has a built-in calibration unit (Hg⁰ permeation tube) for calibration, which was done daily. External injections of Hg⁰ were also used to check the accuracy of the permeation device. The instruments had a detection limit of <0.2 ng m⁻³ for air sampling and <2 fM for water sampling during the cruise (water concentration calculated from the measured value in the equilibrated air). The detection limit for the equilibrator is evaluated based on the sparging of water without water flow. As the DGHg is removed by sparging and not replenished without flow, long-term sparging results in values that reflect the background blank and the variability in this value is used to estimate the detection limit. For the air sampling, the instrument periodically flushes the system with Hg-free air and makes blank measurements. Again, these values and their variability can be used to determine the detection limit for air sampling. Prior studies have compared concentrations measured using the continuous sampler to those with manual methods and verified consistency over a range of seawater temperatures (Andersson et al., 2008; Soerensen et al., 2014). Our data was also compared with measurements by the Hammerschmidt and Lamborg research group made on board for both underway samples and for samples collected from the Go-Flo bottles. Results were comparable.

Performance of the continuous sampler was also verified in the laboratory prior to the cruise by injection and recovery of external standards. Data presented in the table represent the average hourly value for each set of measurements, which were made at 10 minute resolution, and which are only presented for when the ship was underway, and not for times when the ship was on station. Typical variability was 3% and 10% for 1 hr of observations in air and water, respectively; n = 6 for 10-min samples (per hour).

BCO-DMO Processing:
- modified parameter names to conform with BCO-DMO and GEOTRACES naming conventions;
- split the Sampling_Dates column into Date_Start and Date_End (yyyy-mm-dd);
- filled blanks with "nd" (no data);
- 2021-01-25: renamed fields with the GEOTRACES DOoR barcodes.

More information about this dataset deployment

Funding

Award Number	Funding Source
OCE-1434998	NSF Division of Ocean Sciences

Instruments

Aerosol Sampler

Supplied Name: high-volume aerosol samplers

Supplied Description:

Instrument Type

Generic Name: Aerosol Sampler

Community Identifier: http://vocab.nerc.ac.uk/collection/L05/current/13/

Generic Description:

A device that collects a sample of aerosol (dry particles or liquid droplets) from the atmosphere.

Automated Mercury Analysis System

Supplied Name: Tekran 2600; Tekran 2700

Supplied Description:

Tekran 2600 automated sampler for total mercury and Tekran 2700 automated sampler for methylmercury

Instrument Type

Generic Name: Automated Mercury Analysis System

Generic Description:

Examples include Tekran Models 2600 and 2700

Cold Vapor Atomic Fluorescence Spectrophotometer

Supplied Name: Tekran 2537B mercury analyzer

Supplied Description:

Instrument Type

Generic Name: Cold Vapor Atomic Fluorescence Spectrophotometer

Acronym: CVAFS

Generic Description:

A Cold Vapor Atomic Fluorescent Spectrophotometer (CVAFS) is an instrument used for quantitative determination of volatile heavy metals, such as mercury. CVAFS make use of the characteristic of mercury that allows vapor measurement at room temperature. Mercury atoms in an inert carrier gas are excited by a collimated UV light source at a particular wavelength. As the atoms return to their non-excited state they re-radiate their absorbed energy at the same wavelength. The fluorescence may be detected using a photomultiplier tube or UV photodiode.

Parameters

Supplied Name	Supplied description	Supplied Units	Standard Name
Deployment	Aerosol sampler deployment number	unitless	deploy
EVENT_ID	GEOTRACES event number	unitless	event
SAMPLE_ID	GEOTRACES sample number	unitless	sample
Lat_average	Average latitude during deployment	decimal degrees	lat
Hg_Me_A_T_CONC_HIVOL_6xqvwk	High volume sampler/aerosol methylmercury. Values are the average of duplicate filter analyses.	femtomoles per cubic meter (fmol/m3)	metal_conc_air
Hg_A_T_CONC_HIVOL_o2llrs	high volume sampler/aerosol total mercury. Values are the average of triplicate filter analyses.	femtomoles per cubic meter (fmol/m3)	metal_conc_air
SD1_Hg_A_T_CONC_HIVOL_o2llrs	Standard deviation of Hg_A_T_CONC_HIVOL	femtomoles per cubic meter (fmol/m3)	metal_conc_air
Start_Latitude	Latitude at start of deployment; positive values = North	decimal degrees	lat
Start_Longitude	Longitude at start of deployment; positive values = East	decimal degrees	lon
End_Latitude	Latitude at end of deployment; positive values = North	decimal degrees	lat
End_Longitude	Longitude at end of deployment; positive values = East	decimal degrees	lon
Sampling_Dates	Sampling date range (GMT); format: mm/dd-mm/dd	unitless	duration
Date_Start	Start date of deployment (GMT); format: yyyy-mm-dd	unitless	date
Date_End	End date of deployment (GMT); format: yyyy-mm-dd	unitless	date
Sample_Group	Sample Group (A or B)	unitless	sample_descrip
Run_Time	Run time	hours	time_elapsed
Air_Volume	Volume of air sampled	cubic meters (m3)	sample_volume

Database

Contribute Data

Dataset: GN01 Aerosol Mercury
Deployment: HLY1502

Dataset acquisition description

Dataset Processing Description

Database

Contribute Data

Dataset: GN01 Aerosol MercuryDeployment: HLY1502

Dataset acquisition description

Dataset Processing Description

Dataset: GN01 Aerosol Mercury
Deployment: HLY1502