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Titel |
Soil GHG emissions in a Miscanthus plantation as affected by increasing rates of biochar application. |
VerfasserIn |
P. Panzacchi, C. A. Davies, M. Ventura, E. J. Michie, G. Tonon |
Konferenz |
EGU General Assembly 2012
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Medientyp |
Artikel
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Sprache |
Englisch
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Digitales Dokument |
PDF |
Erschienen |
In: GRA - Volume 14 (2012) |
Datensatznummer |
250067979
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Zusammenfassung |
Biochar is defined as charcoal produced by pyrolysis with the aim to apply it to the soil in
order to improve its fertility and carbon (C) storage capacity. Biochar physical and chemical
properties can vary depending on the original biomass feedstock and pyrolysis conditions.
The potential agricultural benefits and CO2 carbon sequestration from the application of
biochar to soil, were assessed in field trials with well characterised biochar. In May 2010 we
applied biochar from Miscanthus biomass produced at 450 ºC at 3 different application rates:
10, 25 and 50 tons ha-1 to a 6 year old Miscanthus x giganteus plantation in Brattleby
(Lincoln, UK) . Each treated 25 m2 plot had 4 replicates according to a randomised block
experimental design. Biochar was incorporated to a depth of 10 cm in the soil between plant
rhizomes after the harvest, through shallow tilling. CO2 emissions from biochar amended
soil were monitored every two weeks by a portable infrared gas analyser (IRGA)
with a closed dynamic chamber system, and continuously through 8 automated
chambers (both systems from Li-COR, Lincoln, Nebraska). N2O fluxes were monitored
using a closed static chamber technique with manual gas sampling and subsequent
gas chromatography. Cation/anion exchange resin lysimeters were buried 20 cm
deep in order to capture the leached nitrogen. Higher biochar applications led to a
reduction of CO2 effluxes in the first 10 weeks of the experiment, after which no
treatment effect was observed. The emission of N2O was significantly reduced in
the 25 and 50 tons ha-1 application rates. Addition of biochar had no significant
affect on the surface soil temperature, however the temperature sensitivity of soil
respiration in the biochar treated plots decreased with increasing application rates |
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