Climate Impacts: Fire Fuels Change. Wake, B. 4(8):662. Paper doi abstract bibtex [Excerpt] The burning of vegetation – biomass burning – impacts on climate and air pollution. The fires produce gases and particles that interact and change the atmosphere and clouds. Most biomass burning is human-caused, resulting from land-clearing and land-use change, with a small proportion due to natural causes. Mark Jacobson, of Stanford University, USA, uses a 3D global model to simulate biomass burning [...] Over a 20-year period, biomass burning caused a net temperature increase of 0.4 °C globally, largely because of cloud absorption effects. [...] Additionally, biomass burning was estimated to cause around 250,000 premature deaths per annum, with the majority due to particulate matter. [...]
@article{wakeClimateImpactsFire2014,
title = {Climate Impacts: {{Fire}} Fuels Change},
author = {Wake, Bronwyn},
date = {2014-08},
journaltitle = {Nature Climate Change},
volume = {4},
pages = {662},
issn = {1758-6798},
doi = {10.1038/nclimate2333},
url = {https://doi.org/10.1038/nclimate2333},
abstract = {[Excerpt] The burning of vegetation -- biomass burning -- impacts on climate and air pollution. The fires produce gases and particles that interact and change the atmosphere and clouds. Most biomass burning is human-caused, resulting from land-clearing and land-use change, with a small proportion due to natural causes.
Mark Jacobson, of Stanford University, USA, uses a 3D global model to simulate biomass burning [...] Over a 20-year period, biomass burning caused a net temperature increase of 0.4 °C globally, largely because of cloud absorption effects. [...]
Additionally, biomass burning was estimated to cause around 250,000 premature deaths per annum, with the majority due to particulate matter. [...]},
keywords = {*imported-from-citeulike-INRMM,~INRMM-MiD:c-13332579,aerosol,anthropogenic-impacts,biomass,biomass-burning,carbon-emissions,climate,fire-fuel,global-warming},
number = {8}
}
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