Deposition of H15NO3 vapour to white oak, red maple and loblolly pine foliage: experimental observations and a generalized model
1992
HANSON, PAUL J. | GARTEN, CHARLES T., Jr
Nitric acid vapour enriched with ¹⁵N (H¹⁵NO₃) was volatilized into the cuvette of an open‐flow gas exchange system containing red maple (Acer rubrum L.), white oak (Quercus alba L.), or loblolly pine (Pinus taeda L.) seedling shoots to facilitate direct measurements of total foliar deposition, and subsequent assessments of the rate of HNO₃ movement across the cuticle (transcuticular uptake). Total H¹⁵NO₃ vapour deposition to foliar surfaces ranged from <5 to 27 nmol m‐² s‐¹ the variability being largely accounted for by differences in HNO₃ concentrations and leaf conductance. Mean whole‐leaf conductance to HNO₃ ranged between 0.9 and 3.4 mm s‐¹ for hardwoods and between 6 and 34 mm s‐¹ for loblolly pine. Of the total H¹⁵NO₃ vapour deposited to leaves, an average of 39 to 48 % was immediately‘bound’into hardwood foliage whereas only 3 % was bound to loblolly pine needles. This implies that rain events might extract greater amounts of HNO₃‐derived nitrate in throughfall from conifer canopies as compared to hardwood canopies. Post‐exposure H¹⁵NO₃ uptake rates across the leaf cuticle increased with surface nitrate concentrations, but were 1 to 2 orders of magnitude lower (O06 to 0.24 nmol m‐² s‐¹) than total HNO₃, deposition during exposures. A generalized leaf‐level model of HNO₃ deposition to foliage capable of simulating deposition pathways to sorption sites on the leaf surface, and to the metabolically active leaf interior via transcuticular or stomatal pathways is formulated and suggested for use in planning future work on HNO₃ deposition.
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