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Mechanical resilience of degraded soil amended with organic matter
B Zhang
*
, R Horn,
PD Hallett
*
Corresponding author for this work
Aberdeen Centre For Environmental Sustainability
Research output
:
Contribution to journal
›
Article
›
peer-review
98
Citations (Scopus)
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Agriculture & Biology
wet-dry cycles
100%
peat
94%
soil organic matter
85%
mechanical stress
73%
soil pore system
69%
shear stress
46%
soil
45%
peat soils
20%
Ultisols
20%
compressibility
19%
shear strength
18%
soil amendments
17%
traffic
15%
friction
14%
porosity
14%
drying
11%
microorganisms
9%
degradation
9%
water
6%
testing
5%
Earth & Environmental Sciences
peat
71%
organic matter
60%
soil
38%
compression
20%
Ultisol
17%
peat soil
16%
soil amendment
15%
water retention
13%
compressibility
13%
wetting
12%
shear strength
12%
compaction
11%
traffic
10%
drying
10%
friction
10%
vehicle
10%
porosity
9%
erosion
8%
rate
8%
degradation
8%
damage
8%
index
6%
particle
6%
test
5%
effect
3%