Journal
SCIENCE
Volume 372, Issue 6543, Pages 711-+Publisher
AMER ASSOC ADVANCEMENT SCIENCE
DOI: 10.1126/science.abg0492
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Funding
- NSF [AGS-1834711, AGS-1063945]
- NASA [NNX12AB84G]
- [NSF-1063966]
- [AGS-1352144]
- NASA [30959, NNX12AB84G] Funding Source: Federal RePORTER
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Lightning enhances the atmosphere's self-cleansing ability by producing nitric oxide (NO) and forming ozone (O-3) and the oxidant hydroxyl radical (OH). It also directly generates the oxidants OH and the hydroperoxyl radical (HO2), with orders of magnitude greater quantities than previous atmospheric observations. Lightning-generated OH in all storms globally may account for a highly uncertain, but substantial, 2 to 16% of global atmospheric OH oxidation.
Lightning increases the atmosphere's ability to cleanse itself by producing nitric oxide (NO), leading to atmospheric chemistry that forms ozone (O-3) and the atmosphere's primary oxidant, the hydroxyl radical (OH). Our analysis of a 2012 airborne study of deep convection and chemistry demonstrates that lightning also directly generates the oxidants OH and the hydroperoxyl radical (HO2). Extreme amounts of OH and HO2 were discovered and linked to visible flashes occurring in front of the aircraft and to subvisible discharges in electrified anvil regions. This enhanced OH and HO2 is orders of magnitude greater than any previous atmospheric observation. Lightning-generated OH in all storms happening at the same time globally can be responsible for a highly uncertain, but substantial, 2 to 16% of global atmospheric OH oxidation.
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