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Intraspecific competition in models for vegetation patterns: Decrease in resilience to aridity and facilitation of species coexistence
L. Eigentler
School of Mathematical & Computer Sciences
Research output
:
Contribution to journal
›
Article
›
peer-review
11
Citations (Scopus)
20
Downloads (Pure)
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Dive into the research topics of 'Intraspecific competition in models for vegetation patterns: Decrease in resilience to aridity and facilitation of species coexistence'. Together they form a unique fingerprint.
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INIS
bifurcation
28%
biomass
14%
capture
14%
competition
100%
density
14%
dynamics
42%
ecosystems
71%
mathematical models
14%
modeling
14%
prediction
14%
soils
14%
solutions
14%
stability
28%
vegetation
100%
water
14%
Mathematics
Mathematical Modeling
100%
Overestimation
100%
Single Specie
100%
Spatial Scale
100%
Computer Science
Characteristic Feature
100%
Complex Ecosystem
100%
Modeling Framework
100%
Overestimation
100%
Earth and Planetary Sciences
Aridity
100%
Bare Soil
16%
Ecosystem Dynamics
33%
Ecosystem Resilience
16%
Intraspecific Competition
100%
Self Organization
16%
Vegetation
100%
Biochemistry, Genetics and Molecular Biology
Dynamics
50%
Ecosystem Resilience
16%
Intraspecific Competition
100%
Plant Density
16%
Solution and Solubility
16%
Species Coexistence
100%