Response of simulated burned area to historical changes in environmental and anthropogenic factors: a comparison of seven fire models

Response of simulated burned area to historical changes in environmental and anthropogenic factors: a comparison of seven fire models

Understanding how fire regimes change over time is of major importance for understanding their future impact on the Earth system, including society. Large differences in simulated burned area between fire models show that there is substantial uncertainty associated with modelling global change impac...

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Veröffentlicht in:Biogeosciences 2019-10, Vol.16 (19), p.3883-3910
Hauptverfasser: Teckentrup, Lina, Harrison, Sandy P, Hantson, Stijn, Heil, Angelika, Melton, Joe R, Forrest, Matthew, Li, Fang, Yue, Chao, Arneth, Almut, Hickler, Thomas, Sitch, Stephen, Lasslop, Gitta
Format: Artikel
Sprache:eng
Schlagworte:
Annual variations
Anthropogenic factors
Area
Atmospheric models
Carbon dioxide
Carbon dioxide atmospheric concentrations
Carbon dioxide concentration
Climate
Climate and human activity
Climate and land use
Climate change
Climate models
Computer simulation
Constraint modelling
Continental interfaces, environment
Earth
Environmental aspects
Environmental changes
Environmental factors
Fires
Flammability
Forest fires
Germany
History
Human influences
Intercomparison
Land use
Lightning
Modelling
Motor vehicle drivers
Ocean, Atmosphere
Population density
Representations
Sciences of the Universe
Sensitivity analysis
Trajectory analysis
Trends
Uncertainty
Vegetation
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Zusammenfassung:Understanding how fire regimes change over time is of major importance for understanding their future impact on the Earth system, including society. Large differences in simulated burned area between fire models show that there is substantial uncertainty associated with modelling global change impacts on fire regimes. We draw here on sensitivity simulations made by seven global dynamic vegetation models participating in the Fire Model Intercomparison Project (FireMIP) to understand how differences in models translate into differences in fire regime projections. The sensitivity experiments isolate the impact of the individual drivers on simulated burned area, which are prescribed in the simulations. Specifically these drivers are atmospheric CO.sub.2 concentration, population density, land-use change, lightning and climate.
ISSN:1726-4189
1726-4170
1726-4189
DOI:10.5194/bg-16-3883-2019