Identification info

Metadata Language

English (en)

Character set

utf8

Dataset Reference Date ()

2018-05-04

Dataset Reference Date ()

2015-12-03

Identifier

https://catalogue.ceh.ac.uk/id/3a0a5132-797c-4ed5-98b9-1c17eaa2f2b7

Identifier

doi: / 10.5285/3a0a5132-797c-4ed5-98b9-1c17eaa2f2b7

Other citation details

Comer-Warner, S.A., Romeijn, P., Krause, S., Gooddy, D.C., Ullah, S. (2018). Carbon dioxide and methane emissions from incubated streambed sediments from the rivers Tern and Lambourn, England (2015). NERC Environmental Information Data Centre 10.5285/3a0a5132-797c-4ed5-98b9-1c17eaa2f2b7

Maintenance and update frequency

notPlanned

GEMET - INSPIRE themes, version 1.0 ()

• Atmospheric Conditions

Keywords

• River Tern
• River Lambourn
• Chalk
• Sandstone
• Microbial metabolic activity
• Carbon Dioxide
• Methane
• Resazurin
• Resorufin
• Substrate type
• Geology
• Greenhouse gas production
• sediment
• streambed

Limitations on Public Access

otherRestrictions

Other constraints

no limitations

Use constraints

otherRestrictions

Other constraints

This resource is made available under the terms of the Open Government Licence

Use constraints

otherRestrictions

Other constraints

If you reuse this data, you should cite: Comer-Warner, S.A., Romeijn, P., Krause, S., Gooddy, D.C., Ullah, S. (2018). Carbon dioxide and methane emissions from incubated streambed sediments from the rivers Tern and Lambourn, England (2015). NERC Environmental Information Data Centre https://doi.org/10.5285/3a0a5132-797c-4ed5-98b9-1c17eaa2f2b7

Spatial representation type

textTable

Distance

10  urn:ogc:def:uom:EPSG::9001

Topic category

• Climatology, meteorology, atmosphere

Begin date

2015-09-15

End date

2015-12-03

 

Code

WGS 84

Distribution Information

Data format

• Comma-separated values (CSV) ()

 

Quality Scope

dataset

Other

dataset

Statement

Sediment was collected using a shovel before being sieved (0.8 cm for fine, and 1.6 cm for medium and coarse) and homogenised prior to storage. The sediment was stored airtight in the cold and dark. Sediment of varying organic matter content from two geological origins (chalk and sandstone) was incubated at five temperatures (5, 9, 15, 21 and 26°C). Resorufin production was measured using a GGUN-FL30 on-line fluorometer, dissolved oxygen was measured using a Pyro-science Firesting fixed needle-type probe, and carbon dioxide and methane concentrations were measured using an Agilent 7890A Gas Chromatograph - Flame Ionisation Detector. The carbon dioxide and methane concentrations were converted to production per hour by calculating the difference in concentration between zero and five hours and normalising the production by the length of the incubation period. The data was then converted to emissions per volume of dry sediment using the Bunsen coefficient and the volume of sediment in each jar, resulting in units of milligrams of carbon per square metre per hour. Greenhouse gas concentrations were corrected for any machine drift using results from a standard gas mixture ran periodically during gas analysis. The resorufin concentration was converted to production per hour by calculating the difference in concentration between zero and five hours and normalising the production by the length of the incubation period. The production was then normalised by the concentration of resazurin added to the jar, resulting in units of nanograms of resorufin per microgram of resazurin per hour. Data were entered into an Excel spreadsheet and exported as a comma separated value file (.csv) for ingestion into the EIDC.

Metadata

File identifier

3a0a5132-797c-4ed5-98b9-1c17eaa2f2b7 XML

Metadata Language

English (en)

Character set

ISO/IEC 8859-1 (also known as Latin 1)

Resource type

dataset

Hierarchy level name

dataset

Metadata Date

2021-06-25T18:44:28

Metadata standard name

UK GEMINI

Metadata standard version

2.3