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Application of biochar to soil and N
2
O emissions: Potential effects of blending fast-pyrolysis biochar with anaerobically digested slurry
E. W. Bruun
*
,
D. Müller-Stöver
,
Per Lennart Ambus
, H. Hauggaard-Nielsen
*
Corresponding author for this work
125
Citations (Scopus)
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Dive into the research topics of 'Application of biochar to soil and N
2
O emissions: Potential effects of blending fast-pyrolysis biochar with anaerobically digested slurry'. Together they form a unique fingerprint.
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Earth & Environmental Sciences
biochar
79%
carbon
6%
carbon dioxide
8%
carbon sequestration
9%
climate change
6%
cropping practice
10%
effect
17%
greenhouse gas
9%
immobilization
10%
laboratory
5%
microbial activity
10%
nitrogen
6%
nitrous oxide
11%
pyrolysis
66%
slurry
70%
soil
22%
soil emission
100%
soil nitrogen
12%
Agriculture & Biology
biochar
89%
carbon dioxide
16%
carbon sequestration
12%
climate change
8%
cropping systems
10%
greenhouse gases
12%
long term effects
10%
microbial activity
11%
nitrogen
6%
nitrogen retention
13%
nitrous oxide
85%
pyrolysis
82%
soil
37%
soil carbon
12%
soil treatment
11%