Date (Creation)

2023-01-23

Date (Revision)

2023-01-23

Date (Publication)

2023-01-23

Date (released)

2023-01-23

Edition

1.0

Unique resource identifier

https://doi.org/10.5285/417a7f70-4ff2-428e-829d-0423772f66b4

Codespace

doi

Unique resource identifier

GB/NERC/BAS/PDC/01709

Codespace

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

Other citation details

Please cite this item as: Riley, T. (2023). 40Ar/39Ar geochronology of basaltic samples from Bruce Bank and Jane Bank of the Scotia Sea (Version 1.0) [Data set]. NERC EDS UK Polar Data Centre. https://doi.org/10.5285/417a7f70-4ff2-428e-829d-0423772f66b4

Credit

No credit.

Status

Completed

Point of contact

Organisation name	Individual name	Electronic mail address	Role
British Antarctic Survey	Riley, Teal		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 > Solid Earth > Geochemistry > Marine Geochemistry

Theme

• Scotia Sea

• basalt

• geochronology

Place

• Bruce Bank and Jane Bank, Scotia sea Southern Ocean

GEMET - INSPIRE themes, version 1.0

• Geology

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

Riley, T. (2023). 40Ar/39Ar geochronology of basaltic samples from Bruce Bank and Jane Bank of the Scotia Sea (Version 1.0) [Data set]. NERC EDS UK Polar Data Centre. https://doi.org/10.5285/417A7F70-4FF2-428E-829D-0423772F66B4

Use constraints

Other restrictions

Other constraints

No restrictions apply.

Unique resource identifier

url

Codespace

url

Association Type

Cross reference

Spatial representation type

Text, table

Language

English

Character set

UTF8

Topic category

• Geoscientific information

Begin date

2022-06-01

End date

2022-06-30

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:

Field methods:

Dredge sampling took place at sites along the eastern margin of Bruce Bank and southern margin of Jane Bank where the slopes were interpreted to be the steepest (less than 25 degrees) and therefore likely to have reduced sediment cover. Dredge site DR.225 (c. 850 m) is dominated by mafic volcanic, hypabyssal and plutonic rocks, including gabbro and ultramafic lithologies. Sample DR.225.14 is from a mafic porphyritic lithology interpreted as a probable hypabyssal unit and DR.225.27 is a fine-grained basaltic lava with phenocrysts of olivine and pyroxene. Dredge site DR.84 from Jane Bank yielded a significant return of mafic - silicic volcanic rocks and volcaniclastic lithologies characterised by a thin (few mm) Fe-Mn crust. A fine-grained basaltic lava (DR.84.8) from dredge site DR.84 (c. 1900 m depth) is dated here.

Analytical methods:

40Ar-39Ar geochronology

40Ar/39Ar dating was performed at the Department of Earth Sciences, Open University. The samples were crushed using a pestle and mortar and the crushate was sieved and washed repeatedly in de-ionised water to remove dust and clay particles from the surfaces of all the size fractions. Using a binocular microscope whole rock pieces were selected that were free from alteration. The picked separates were cleaned ultrasonically in acetone and de-ionised water, dried using the hot plate, and packaged in aluminium foil packets of c. 10mm x 10mm prior to irradiation.

Samples were irradiated at the McMaster Nuclear Reactor (McMaster University, Canada) in reactor position 8E for 120 hours, using cadmium shielding. Neutron flux was monitored using biotite mineral standard GA1550 which has an age of 99.738 +/- 0.104 Ma (Renne et al., 2010). Standards were packed for irradiation, either side of the unknown samples and analysed using the single grain fusion method using a 1059nm CSI fibre laser and a MAP215-50 mass spectrometer. The J Values were then calculated by linear extrapolation between the 2 measured J values, the values for each sample are shown in the data table and a 0.5 percentage error on J is used.

The irradiated samples were loaded into an ultra-high vacuum system and a 1059nm CSI fibre laser was focused into the sample chamber and was used to step-heat basalt. After passing through a liquid nitrogen trap, extracted gases were cleaned for 5 minutes using two SAES AP-10 getters (one at 450 degrees Celsius and one at room temperature), following which the gases were let into a MAP 215-50 mass spectrometer for analysis; the mass discrimination value was measured at 283 for 40Ar/36Ar (using a calibration noble gas mixture of known composition). System blanks were measured before and after every one or two sample analyses. Gas clean-up and inlet is fully automated, with measurement of 40Ar, 39Ar, 38Ar, 37Ar, and 36Ar (relative isotope abundances), each for ten scans, and the final measurements are extrapolations back to the inlet time.

The system blanks measured before and after every one or two sample analysis were subtracted from the raw sample data. Results were corrected for 37Ar and 39Ar decay, and neutron-induced interference reactions. The following correction factors were used: (39Ar/37Ar)Ca = 0.00065 +/- 0.00000325, (36Ar/37Ar)Ca = 0.000265 +/- 0.000001325, and (40Ar/39Ar)K = 0.0085 +/- 0.0000425; based on analyses of Ca and K salts. Ages were calculated using the atmospheric 40Ar/36Ar ratio of 298.56 (Lee et al., 2006) and decay constants of Renne et al. (2010). All data corrections were carried out using an Excel macro and ages were calculated using Isoplot 4.15 (Ludwig, 2012). All ages are reported at the 2sigma level and include a 0.5 percentage error on the J value. Plateau criteria of at least 50 percent of the 39Ar release in at least 3 consecutive steps were used.

For step-heating experiments data is usually presented as a step-heating release spectrum...(9)

Data collection:

Binocular microscope

1059nm CSI fibre laser

MAP215-50 mass spectrometer

SAES AP-10 getters

Data was processed using Isoplot 4.15 software by Ludwig (2012)

Data quality:

Results were corrected for 37Ar and 39Ar decay, and neutron-induced interference reactions. The following correction factors were used: (39Ar/37Ar)Ca = 0.00065 ± 0.00000325, (36Ar/37Ar)Ca = 0.000265 ± 0.000001325, and (40Ar/39Ar)K = 0.0085 ± 0.0000425; based on analyses of Ca and K salts. Data corrections carried out using an Excel macro.

A calibration noble gas mixture was used with known concentration.

Neutron flux was monitored using biotite mineral standard GA1550.

Metadata

File identifier

417a7f70-4ff2-428e-829d-0423772f66b4 XML

Metadata language

English

Character set

UTF8

Hierarchy level

Dataset

Hierarchy level name

dataset

Date stamp

2023-01-23

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