Add to ORKGBiomass burning is an important component of the Earth system in terms of global biogeochemistry, atmospheric composition, climate, terrestrial ecology, and land use. This study examines published ice core trace gas measurements of acetylene, ethane, and methane, which have been used as proxies for paleofire emissions. We investigate the consistency of these records for the past 1,000 years in terms of (1) temporal trends in global fire emissions and (2) quantitative estimates for changes in global burning (dry matter burned per year). Three-dimensional transport and box models were used to construct emissions scenarios for the trace gases consistent with each ice core record. Burning histories were inferred from trace gas emissions by...
Fires have influenced atmospheric composition and climate since the rise of vascular plants, and sat...
Fires have influenced atmospheric composition and climate since the rise of vascular plants, and sat...
Human activities including fossil fuel burning are currently altering the global climate system at r...
Biomass burning plays a major role in atmospheric chemistry, carbon cycling, and climate. To underst...
Biomass burning emissions of trace gases are inferred from ice core levels of acetylene, ethane, met...
Biomass burning drives changes in greenhouse gases, climate-forcing aerosols, and global atmospheric...
Acetylene is a short-lived trace gas produced during combustion of fossil fuels, biomass, and biofue...
Biomass burning plays a major role in climate variability, atmospheric chemistry, carbon cycling, an...
International efforts to retrieve ice cores from both poles and every possible continent have result...
Human activities including fossil fuel burning are currently altering the global climate system at r...
Recent studies based on trace gas mixing ratios in ice cores and charcoal data indicate that biomass...
We review the approaches for estimating biomass burning from ice-cores and consider the challenges a...
Biomass burning is a major source of greenhouse gases and influences regional to global climate. Pre...
Fires have influenced atmospheric composition and climate since the rise of vascular plants, and sat...
Fires have influenced atmospheric composition and climate since the rise of vascular plants, and sat...
Human activities including fossil fuel burning are currently altering the global climate system at r...
Biomass burning plays a major role in atmospheric chemistry, carbon cycling, and climate. To underst...
Biomass burning emissions of trace gases are inferred from ice core levels of acetylene, ethane, met...
Biomass burning drives changes in greenhouse gases, climate-forcing aerosols, and global atmospheric...
Acetylene is a short-lived trace gas produced during combustion of fossil fuels, biomass, and biofue...
Biomass burning plays a major role in climate variability, atmospheric chemistry, carbon cycling, an...
International efforts to retrieve ice cores from both poles and every possible continent have result...
Human activities including fossil fuel burning are currently altering the global climate system at r...
Recent studies based on trace gas mixing ratios in ice cores and charcoal data indicate that biomass...
We review the approaches for estimating biomass burning from ice-cores and consider the challenges a...
Biomass burning is a major source of greenhouse gases and influences regional to global climate. Pre...
Fires have influenced atmospheric composition and climate since the rise of vascular plants, and sat...
Fires have influenced atmospheric composition and climate since the rise of vascular plants, and sat...
Human activities including fossil fuel burning are currently altering the global climate system at r...