The N2O Network

  

Effect of biochar amendment on the soil-atmosphere exchange of greenhouse gases from an intensive subtropical pasture. Wollongbar, New South Wales, 2009 [Theme: Filling the research gap. Round 2]

Data Set Citation

Scheer C of Institute for Future Environments, Queensland University of Technology. Effect of biochar amendment on the soil-atmosphere exchange of greenhouse gases from an intensive subtropical pasture. Wollongbar, New South Wales, 2009 [Theme: Filling the research gap. Round 2].
Scheer.4.2 (http://www.n2o.net.au/knb/metacat/Scheer.4.2/html).

Metadata download:
Ecological Metadata Language (EML) File
Licence
View Licence
Data Set Owner(s):
Individual:
Dr. Clemens Scheer
Organization:
Institute for Future Environments, Queensland University of Technology
Position:
Researcher
Address:
2 George St,
Brisbane,
Queensland 4000
Australia
Phone:
+61 7 3138 7636 (voice)
Email Address:
clemens.scheer@qut.edu.au
Associated Party
Individual:
Ms. Siobhann McCafferty
Organization:
Institute for Future Environments, Queensland University of Technology
Position:
Data Librarian
Address:
2 George Street,
Brisbane,
QLD 4000
Australia
Phone:
+61 7 3138 0457 (voice)
Email Address:
siobhann.mccafferty@qut.edu.au
Role:
Custodian/Steward
Abstract

We assessed the effect of biochar incorporation into the soil on the soil-atmosphere exchange of the greenhouse gases (GHG) from an intensive subtropical pasture. For this, we measured N2O, CH4 and CO2 emissions with high temporal resolution from April to June 2009 in an existing factorial experiment where cattle feedlot biochar had been applied at 10 t ha-1 in November 2006. Over the whole measurement period, significant emissions of N2O and CO2 were observed, whereas a net uptake of CH4 was measured. N2O emissions were found to be highly episodic with one major emission pulse (up to 502 µg N2O-N m-2 h 1) following heavy rainfall. There was no significant difference in the net flux of GHGs from the biochar amended vs. the control plots. Our results demonstrate that intensively managed subtropical pastures on ferrosols in northern New South Wales of Australia can be a significant source of GHG. Our hypothesis that the application of biochar would lead to a reduction in emissions of GHG from soils was not supported in this field assessment. Additional studies with longer observation periods are needed to clarify the long term effect of biochar amendment on soil microbial processes and the emission of GHGs under field conditions.

Keywords
  • N2O
  • Nitrous oxide
  • Subtropical
  • Biochar
  • Pasture
  • Greenhouse gas emissions
  • Wollongbar
  • NSW
  • Ferrosols
  • Subtropical
anzsrc-for
  • 0502
  • 0503
Geographic Coverage
Geographic Description:
Wollongbar Agricultural Institute, Wollongbar, New South Wales
Bounding Coordinates:
West:  
153.4  degrees
East:  
153.4  degrees
North:  
-28.81  degrees
South:  
-28.81  degrees
Temporal Coverage
Begin:
2009-04-15
End:
2009-06-15
Contact(s)
Individual:
Professor Peter Grace
Organization:
Institute for Future Environments, Queensland University of Technology
Position:
Theme leader
Address:
Gardens Point campus, 2 George St,
Brisbane,
Queensland 4001
Australia
Phone:
+61 7 3138 9283 (voice)
Email Address:
pr.grace@qut.edu.au
Access
Access Control:
Auth System:
knb
Order:
allowFirst
Allow:
[read] public
[all] uid=datalibrarian,o=unaffiliated,dc=ecoinformatics,dc=org