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Laboratory measurements of stomatal NO <sub>2</sub> deposition to native California trees and the role of forests in the NO <sub>x</sub> cycle

Erin R. Delaria, Bryan K. Place, Amy X. Liu, R. C. Cohen

2020Atmospheric chemistry and physics39 citationsDOIOpen Access PDF

Abstract

Abstract. Both canopy-level field measurements and laboratory studies suggest that uptake of NO2 through the leaf stomata of vegetation is a significant sink of atmospheric NOx. However, the mechanisms of this foliar NO2 uptake and their impact on NOx lifetimes remain incompletely understood. To understand the leaf-level processes affecting ecosystem-scale atmosphere–biosphere NOx exchange, we have conducted laboratory experiments of branch-level NO2 deposition fluxes to six coniferous and four broadleaf native California trees using a branch enclosure system with direct laser-induced fluorescence (LIF) detection of NO2. We report NO2 foliar deposition that demonstrates a large degree of inter-species variability, with maximum observed deposition velocities ranging from 0.15 to 0.51 cm s−1 during the daytime, as well as significant stomatal opening during the night. We also find that the contribution of mesophyllic processing to the overall deposition rate of NO2 varies by tree species but has an ultimately inconsequential impact on NOx budgets and lifetimes. Additionally, we find no evidence of any emission of NO2 from leaves, suggesting an effective unidirectional exchange of NOx between the atmosphere and vegetation.

Topics & Concepts

NOxDeposition (geology)Atmospheric sciencesCanopyAtmosphere (unit)Sink (geography)Environmental scienceEnvironmental chemistryChemistryCombustionBotanyMeteorologyBiologyPaleontologyOrganic chemistryGeologySedimentCartographyPhysicsGeographyAtmospheric chemistry and aerosolsPlant responses to elevated CO2Atmospheric and Environmental Gas Dynamics
Laboratory measurements of stomatal NO <sub>2</sub> deposition to native California trees and the role of forests in the NO <sub>x</sub> cycle | Litcius