Tuesday, September 25, 2012

New paper shows how natural changes in ozone may drive climate

A important paper published today in the Journal of Geophysical Research finds that large quantities of ozone [O3], a "major greenhouse gas," are being produced naturally by an increase in lightning activity "caused by the influx of aerosols from a volcano." According to the authors, "Our findings thus suggest a stronger O3 historical radiative forcing because this link implies lower lightning-generated [nitrous oxide] and lower O3, especially in the upper troposphere, in preindustrial time. Aerosol forcing therefore has a warming component via its effect on O3 production and this component has mostly been ignored in previous studies of climate forcing related to O3 and aerosols." Prior research has shown that large variations in solar UV activity also control ozone production and that ozone levels could be the main driver of recent climate. Once again, natural variability including changes in ozone, solar and volcanic activity have been shown to be important drivers of climate. 

JOURNAL OF GEOPHYSICAL RESEARCH, doi:10.1029/2012JD017723
Key Points
  • Lightning is extremely sensitive to aerosols when the atmosphere is clean
  • Aerosol induced lightning increase leads to increase in NOx and ozone
  • History of ozone forcing and feedbacks need to be better addressed
Authors:
Tianle Yuan
Lorraine A. Remer
Huisheng Bian
Jerald Ziemke
Rachel I. Albrecht
Kenneth Pickering
Lazaros Oreopoulos
Steven Goodman
Hongbin Yu
Dale J. Allen
Tropospheric ozone (O3) is a pollutant and major greenhouse gas and its radiative forcing is still uncertain. Inadequate understanding of processes related to O3 production, in particular those natural ones such as lightning, contributes to this uncertainty. Here we demonstrate a new effect of aerosol particles on O3 production by affecting lightning activity and lightning-generated NOx. We find that lightning flash rate increases at a remarkable rate of 30 times or more per unit of aerosol optical depth. We provide observational evidence that indicates the observed increase in lightning activity is caused by the influx of aerosols from a volcano. Satellite data analyses show O3 is increased as a result of aerosol-induced increase in lightning and lightning produced NOx. Model simulations with prescribed lightning change support the satellite data analysis. O3 production increase from this aerosol-lightning-ozone link is concentrated in the upper troposphere, where O3 is most efficient as a greenhouse gas. Our findings thus suggest a stronger O3 historical radiative forcing because this link implies lower lightning-generated NOx and lower O3, especially in the upper troposphere, in preindustrial time. Aerosol forcing therefore has a warming component via its effect on O3 production and this component has mostly been ignored in previous studies of climate forcing related to O3 and aerosols. Sensitivity simulations suggest that 4-8% increase of column tropospheric ozone, mainly in the tropics, is expected if aerosol-lighting-ozone link is parameterized, depending on the background emission scenario. We note, however, substantial uncertainties remain on the exact magnitude of aerosol effect on tropospheric O3 via lightning. The challenges for obtaining a quantitative global estimate of this effect are also discussed. Our results have significant implications for understanding past and projecting future tropospheric O3 forcing as well as wildfire changes and call for integrated investigations of the coupled aerosol-cloud-chemistry system.

1 comment:

  1. more on the solar-ozone-climate link

    http://www.nature.com/nature/journal/v467/n7316/full/nature09426.html

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