The response of the global budget of SOA to temperature and moisture changes as well as to
biogenic emission changes over a decade (1984 - 1993) has been evaluated.
Not exact matches
«We must expand our focus and devise strategies that target the
biogenic emissions of these other greenhouse gases if we are to
change the course of climate
change.»
Although
biogenic NMVOC
emissions increase with increasing temperature, all three studies concur that climate - driven
changes in vegetation types unfavourable to isoprene
emissions (notably the recession of tropical forests) would partly compensate for the effect of warming in terms of ozone generation.
Biogenic VOC
emissions may be highly sensitive to climate
change.
Global
biogenic VOC
emissions respond to climate
change (e.g., Turner et al., 1991; Adams et al., 2001; Penner et al., 2001; Sanderson et al., 2003b).
The response of
biogenic secondary organic carbon aerosol production to a temperature
change, however, could be considerably lower than the response of
biogenic VOC
emissions since aerosol yields can decrease with increasing temperature.