e9baffd1-18ad-435e-94e2-01e49c14c547
eng
utf8
dataset
Environmental Information Data Centre
Lancaster Environment Centre, Library Avenue, Bailrigg
Lancaster
LA1 4AP
UK
eidc@ceh.ac.uk
pointOfContact
2019-09-06T11:37:43
ISO 19115 (UK GEMINI)
1.0 (2.2)
27700
urn:ogc:def:crs:EPSG
Soil properties and soil greenhouse gas emissions in biochar-amended bioenergy soils undergoing long term field incubation
2014-02-28
publication
10.5285/e9baffd1-18ad-435e-94e2-01e49c14c547
doi:
1392215592694
CEH:EIDC:
https://catalogue.ceh.ac.uk/id/e9baffd1-18ad-435e-94e2-01e49c14c547
Case, S.D.C., McNamara, N.P., Reay, D.S., Chaplow, J.S., Whitaker, J. (2014). Soil properties and soil greenhouse gas emissions in biochar-amended bioenergy soils undergoing long term field incubation. NERC Environmental Information Data Centre 10.5285/e9baffd1-18ad-435e-94e2-01e49c14c547
Data collected during field and laboratory experiments to investigate the long-term effects of biochar application to soil on greenhouse gas emissions in a bioenergy plantation (Miscanthus X. giganteus). Analysis included monitoring of greenhouse gas emissions (carbon dioxide (CO2), methane (CH4) and nitrous oxide (N2O)), soil physical (bulk density and soil moisture ) and soil chemical analyses (total carbon (C) and nitrogen (N), extractable ammonium and nitrate). Biochar was applied to plots in a bioenergy plantation and emissions of CO2, CH4 and N2O were measured over a 2 year period. In addition a laboratory incubation experiment was conducted on soil taken from the Miscanthus field amended with field-incubated biochar to assess the effect on greenhouse gas emissions. Biochar is a carbon rich substances which is being advocated as a climate mitigation tool to increase carbon sequestration and reduce nitrous oxide emissions.
Dr. Niall McNamara
Centre for Ecology & Hydrology
enquiries@ceh.ac.uk
pointOfContact
Case, S.D.C.
Centre for Ecology & Hydrology
enquiries@ceh.ac.uk
author
McNamara, N.P.
Centre for Ecology & Hydrology
enquiries@ceh.ac.uk
author
Reay, D.S.
The University of Edinburgh
enquiries@ceh.ac.uk
author
Chaplow, J.S.
Centre for Ecology & Hydrology
enquiries@ceh.ac.uk
author
Whitaker, J.
Centre for Ecology & Hydrology
enquiries@ceh.ac.uk
author
NERC Environmental Information Data Centre
eidc@ceh.ac.uk
publisher
Environmental Information Data Centre
eidc@ceh.ac.uk
custodian
notPlanned
Soil
theme
GEMET - INSPIRE themes, version 1.0
2008-06-01
publication
Lincolnshire
GeoNames
2006-01-01
creation
Soil
Soil
Shore Section
biochar
chemistry
soil
N2O
nitrous oxide
greenhouse gas
emission
This resource is made available under the terms of the Open Government Licence
© Centre for Ecology & Hydrology (Natural Environment Research Council)
If you reuse this data, you should cite: Case, S.D.C., McNamara, N.P., Reay, D.S., Chaplow, J.S., Whitaker, J. (2014). Soil properties and soil greenhouse gas emissions in biochar-amended bioenergy soils undergoing long term field incubation. NERC Environmental Information Data Centre https://doi.org/10.5285/e9baffd1-18ad-435e-94e2-01e49c14c547
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textTable
eng
utf8
environment
2011-03-01
2012-01-31
-0.95
0.358
52.64
53.726
Comma-separated values (CSV)
unknown
Environmental Information Data Centre
eidc@ceh.ac.uk
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https://catalogue.ceh.ac.uk/download?fileIdentifier=e9baffd1-18ad-435e-94e2-01e49c14c547
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information
dataset
dataset
Twenty soil cores were collected from a field site in Lincolnshire in March 2011, three weeks after planting and Nitrogen fertiliser addition. Soil cores of 150-180 millimetre (mm) depth, containing approximately 1.6 kilogram soil (dry weight) were extracted in Polyvinyl chloride (PVC) pipes (height 215 mm depth 102 mm) and stored at 4 degrees centigrade for 30 days. A four-treatment factorial experiment was designed using soils un-amended or amended with biochar and un-wetted or wetted with deionised water (5 replicates per treatment). Soil in all the cores was mixed to 7 centimetre (cm) depth. To half of the cores, biochar (less than 2 mm) was mixed into the soil at a rate of 3 percent soil dry weight (approximately 22 tons per hectare (t ha-1)). After allowing for any potential Carbon dioxide (CO2) flush from newly-mixed soil to equilibrate for seven days, the cores were placed at 16 degrees centigrade in the dark. Un-wetted soil cores were maintained at 23 percent Gravimetric moisture content (GMC), whilst the GMC of 'wetted' soil cores was increased to 28 percent GMC at the time zero (t0) of four wetting events on day 17, 46, 67 and 116. These water addition rates were based on mean and maximum monthly soil GMC measured in the field between 2009-2010.