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Uptake of gaseous nitrous acid (HONO) by several plant species
AbstractUptake of gaseous nitrous acid (HONO) by sunflower (Heliantus annuus L. var. gigantheus), tobacco (Nicotiana tabacum L. var. Bel W3), castor (Rhicinus communis L. var. Carmencita), and birch (Betula pendula L.) was studied under controlled conditions in a continuously stirred tank reactor. Exposing plants to HONO at concentrations between 60ppt and 10ppb led to significant uptake by the plants. The uptake was proportional to HONO concentrations and linearly related to stomatal conductivity. HONO losses at the cuticle were of minor importance. Our data imply a quick metabolism of HONO and it is concluded that the uptake of HONO by plants is only limited by diffusion of HONO through the plants stomata.Comparing results from measurements with and without plants in the chamber it is furthermore concluded that a compensation point for HONO uptake is below 20ppt if it exists at all. Heterogeneous formation of HONO by reactions of NO2 on the plant surfaces was either not effective or compensated by the stomatal uptake of HONO. The data of the present study imply that plant surfaces represent a sink for HONO. Therefore, it was concluded that processes on plant surfaces cannot explain HONO formation on ground surfaces as observed in field studies.
Uptake of gaseous nitrous acid (HONO) by several plant species
AbstractUptake of gaseous nitrous acid (HONO) by sunflower (Heliantus annuus L. var. gigantheus), tobacco (Nicotiana tabacum L. var. Bel W3), castor (Rhicinus communis L. var. Carmencita), and birch (Betula pendula L.) was studied under controlled conditions in a continuously stirred tank reactor. Exposing plants to HONO at concentrations between 60ppt and 10ppb led to significant uptake by the plants. The uptake was proportional to HONO concentrations and linearly related to stomatal conductivity. HONO losses at the cuticle were of minor importance. Our data imply a quick metabolism of HONO and it is concluded that the uptake of HONO by plants is only limited by diffusion of HONO through the plants stomata.Comparing results from measurements with and without plants in the chamber it is furthermore concluded that a compensation point for HONO uptake is below 20ppt if it exists at all. Heterogeneous formation of HONO by reactions of NO2 on the plant surfaces was either not effective or compensated by the stomatal uptake of HONO. The data of the present study imply that plant surfaces represent a sink for HONO. Therefore, it was concluded that processes on plant surfaces cannot explain HONO formation on ground surfaces as observed in field studies.
Uptake of gaseous nitrous acid (HONO) by several plant species
Schimang, Ralf (author) / Folkers, Achim (author) / Kleffmann, Jörg (author) / Kleist, Einhard (author) / Miebach, Marco (author) / Wildt, Jürgen (author)
Atmospheric Environment ; 40 ; 1324-1335
2005-10-14
12 pages
Article (Journal)
Electronic Resource
English
Revisiting nitrous acid (HONO) emission from on-road vehicles: A tunnel study with a mixed fleet
| Taylor & Francis Verlag | 2017