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Long-term insect herbivory slows soil development in an arid ecosystem
Aimee T. Classen
, Samantha K. Chapman
, Thomas G. Whitham
, Stephen C. Hart
, George W. Koch
Biological Sciences
Research output
:
Contribution to journal
›
Article
›
peer-review
11
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Scopus citations
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Keyphrases
Herbivore
100%
Arid Ecosystems
100%
Soil Development
100%
Insect Herbivory
100%
Soil C Accumulation
60%
Cinder
40%
N Accumulation
40%
Litterfall
40%
Arizona
20%
Woodland
20%
Tree Resistance
20%
Removal Experiment
20%
Piñon-juniper Woodlands
20%
Nitrogen N
20%
Plant Growth
20%
Carbon-nitrogen
20%
Soil C Flux
20%
Tree Growth
20%
Carbon Pools
20%
Soil nutrients
20%
Soil Surface
20%
N Flux
20%
Fertility Islands
20%
C Input
20%
Litter Input
20%
Carbon C
20%
Nutrient-poor
20%
Signal-to-noise
20%
Efflux
20%
Tree Level
20%
Plant Development
20%
Primary Succession
20%
Volcanic Eruption
20%
Herbivore Impact
20%
Background Level
20%
Impact on Plants
20%
Nutrient Flux
20%
Noise Problem
20%
Annual Litterfall
20%
Nutrient Pools
20%
Soil Carbon
20%
Natural Variation
20%
Direct Examination
20%
Arid Systems
20%
Herbivory Tolerance
20%
Agricultural and Biological Sciences
Annuals
100%
Tree Growth
50%
Plant Growth
50%
Soil Carbon
50%
Juniper
50%
Soil Nutrient
50%
Plant Development
50%
Growth and Development
50%
Primary Succession
50%