Date (Creation)

2024-04-18

Date (Revision)

2024-04-18

Date (Publication)

2024-04-18

Date (released)

2024-04-18

Edition

1.0

Unique resource identifier

https://doi.org/10.5285/af64fb7a-6783-4951-b7e0-3ffc37b931e1

Codespace

doi

Unique resource identifier

GB/NERC/BAS/PDC/01838

Codespace

https://data.bas.ac.uk/

Other citation details

Please cite this item as: Rees, A.P., Owens, N.J.P., & Upstill-Goddard, R. (2024). Nitrous oxide in the Drakes Passage, Bellingshausen Sea and Deception Island during November-December 1992 (Version 1.0) [Data set]. NERC EDS UK Polar Data Centre. https://doi.org/10.5285/af64fb7a-6783-4951-b7e0-3ffc37b931e1

Credit

No credit.

Status

Completed

Point of contact

Organisation name	Individual name	Electronic mail address	Role
Plymouth Marine Laboratory	Rees, Andrew P		Author
Scottish Association For Marine Science	Owens, Nicholas JP		Author
Newcastle University	Upstill-Goddard, Robert		Author
NERC EDS UK Polar Data Centre		PDCServiceDesk@bas.ac.uk	Point of contact

Maintenance and update frequency

As needed

Maintenance note

Completed

Global Change Master Directory (GCMD) Science Keywords

• EARTH SCIENCE > Oceans > Ocean Chemistry > Nitrous Oxide

Theme

• Antarctic

• Deception Island

• Drakes Passage

• Nitrous oxide

Place

• Drakes Passage Southern Ocean

• Bellingshausen Sea

• Deception Island South Shetland Islands

GEMET - INSPIRE themes, version 1.0

• Oceanographic geographical features

Access constraints

Other restrictions

Other constraints

no limitations to public access

Access constraints

Other restrictions

Other constraints

no limitations

Use constraints

License

Other constraints

Open Government Licence v3.0

Use constraints

Other restrictions

Other constraints

This data is governed by the NERC Data Policy: https://www.ukri.org/who-we-are/nerc/our-policies-and-standards/nerc-data-policy/

Use constraints

Other restrictions

Other constraints

This data is governed by the NERC data policy and supplied under Open Government Licence v.3

Use constraints

Other restrictions

Other constraints

None.

Unique resource identifier

doi

Codespace

doi

Association Type

Cross reference

Unique resource identifier

doi

Codespace

doi

Association Type

Cross reference

Unique resource identifier

doi

Codespace

doi

Association Type

Cross reference

Unique resource identifier

doi

Codespace

doi

Association Type

Cross reference

Unique resource identifier

doi

Codespace

doi

Association Type

Cross reference

Unique resource identifier

url

Codespace

url

Association Type

Cross reference

Spatial representation type

Text, table

Language

English

Character set

UTF8

Topic category

• Oceans

Begin date

1992-11-01

End date

1992-12-07

Supplemental Information

It is recommended that careful attention be paid to the contents of any data, and that the author be contacted with any questions regarding appropriate use. If you find any errors or omissions, please report them to polardatacentre@bas.ac.uk.

Title

European Petroleum Survey Group (EPSG) Geodetic Parameter Registry

Date (Publication)

2008-11-12

Cited responsible party

Organisation name	Individual name	Electronic mail address	Role
European Petroleum Survey Group		EPSGadministrator@iogp.org	Publisher

Unique resource identifier

urn:ogc:def:crs:EPSG::3031

Version

6.18.3

Hierarchy level

Dataset

Statement

Methodology:

Collection of Seawater Samples

Seawaters were collected during the STERNA expedition of the RRS James Clark Ross between October and December 1992 - RRS James Clark Ross JR19921026 (JR02, JRXX7).

For surface transects, samples were taken from the ship's nontoxic seawater supply (intake at 8 m). Samples for the vertical profiles were collected from a conductivity-temperature-depth (CTD) rosette sampler, using 10-L Go-Flo bottles. Sample collection was in 1-L volumetric flasks, overfilled at least three times to aid exclusion of air bubbles. Following the addition of 200-microlitre saturated HgCl2 solution to arrest microbial action, flasks were sealed with ground glass stoppers, inverted to disperse the HgCl2 and temperature equilibrated at 25.0 +/- 0.05 degrees C prior to N2O analysis. In preliminary work, water samples treated in this way showed no significant changes in N2O concentration during several days storage. Using a similar sampling protocol, Elkins [1980] reports dissolved N2O stabilities of at least 1.5 months.

N2O Analysis

Analyses of N2O in air and seawater were by gas chromatography with electron-capture detection (Shimadzu GC-8AIE, 10mCi 63Ni). For seawaters, analysis was always within 48 hours of collection using a single-phase equilibration technique. The analytical system is described in detail by Upstill-Goddard et al. (1996 - Simultaneous high-precision measurements of methane and nitrous oxide in water and seawater by single phase equilibration gas chromatography, Deep Sea Research, Part I.), where full details of method calibration are also presented. In brief, chromatographic separation of N2O was at 65 degrees C on Porapak-Q (80-100 mesh, 2 m x 2 mm stainless steel column), with prior removal of H2O vapor and CO2 on precolumns of magnesium perchlorate and carbosorb, respectively. The detector temperature was 320 degrees C. Carrier gas was ultrahigh purity (UHP) nitrogen at a flow rate of 15 mL min-1.

The method returns gas partial pressures in the samples at the equilibrium temperature. Dissolved N2O concentrations in situ were calculated from the solubility tables of Weiss and Price [1980], for the equilibrium temperature (~25°C) and in situ salinity. Percent saturation of seawater with N2O was determined by ratioing the N2O partial pressures corrected to in situ temperature to the values determined in atmospheric air samples (mean 313 +/- 5 ppbv).

Data collection:

Analyses of N2O in air and seawater were by gas chromatography with electron-capture detection (Shimadzu GC-8AIE, 10mCi 63Ni).

Data quality:

Primary method calibration was through a commercially prepared, certified N2O/CH4 mixture in an UHP N2 matrix (Air Products) with a certified accuracy of +/-1% or better. For routine analytical calibrations a series of four secondary standards (in the linear range of the detector) were used, prepared from the primary mixtures by pressure dilution [Upstill-Goddard et al., 1990]. Consequently, the best estimate for overall accuracy of the N2O secondary standards was +/-2%. The variability of the method during this study was generally better than 2-3% (mean = 0.97%, n=44), based on replicate analyses of standards, atmospheric air, and compressed air. In support of this calibration, the measured atmospheric mixing ratio of 313 +/- 5 parts per billion by volume (ppbv) shows less than 1% deviation from the interhemispheric corrected global mean and at worst provides an overestimate of 1.3% relative to 1992 data for the South Pole [Swanson et al., 1992].

Metadata

File identifier

af64fb7a-6783-4951-b7e0-3ffc37b931e1 XML

Metadata language

English

Character set

UTF8

Hierarchy level

Dataset

Hierarchy level name

dataset

Date stamp

2024-04-18

Metadata standard name

ISO 19115 Geographic Information - Metadata

Metadata standard version

ISO 19115:2003(E)

Metadata author

Organisation name	Individual name	Electronic mail address	Role
NERC EDS UK Polar Data Centre		polardatacentre@bas.ac.uk	Point of contact