Methyl chloride and C 2–C 5 hydrocarbon emissions from dry leaf litter and their dependence on temperature

Methyl chloride and C 2–C 5 hydrocarbon emissions from dry leaf litter and their dependence on temperature

Emissions of methyl chloride and several C 2–C 5 hydrocarbons from dry leaf litter at temperatures in the range 20–100 °C are reported for different plant species. The emission rates of ethane, ethene, propane, propene, n-pentane and methyl chloride increased with temperature. Hydrocarbon emission r...

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Bibliographic Details
Published in:Atmospheric environment (1994) Vol. 45; no. 18; pp. 3112 - 3119
Main Authors: Derendorp, Leonie, Holzinger, Rupert, Wishkerman, Asher, Keppler, Frank, Röckmann, Thomas
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-06-2011
Subjects:
C 2–C 5 hydrocarbons
Leaf litter
Methyl chloride
Methyl chloride
Leaf litter
C 2–C 5 hydrocarbons
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Summary:Emissions of methyl chloride and several C 2–C 5 hydrocarbons from dry leaf litter at temperatures in the range 20–100 °C are reported for different plant species. The emission rates of ethane, ethene, propane, propene, n-pentane and methyl chloride increased with temperature. Hydrocarbon emission rates up to 0.88 ng gdw −1 h −1 were measured at 20 °C, while methyl chloride emission rates between 0.03 and 0.85 ng gdw −1 h −1 were observed at this temperature. At 70 °C emission rates increased up to 650 ng gdw −1 h −1 for C 2–C 5 hydrocarbons and up to 18 μg gdw −1 h −1 for methyl chloride. The Arrhenius relation can be used to describe the temperature dependence of methyl chloride emissions, while for hydrocarbon emissions deviations from this relation were observed. The emissions were not due to enzymatic activity, which was indicated by emission rates that continuously increased with increasing temperature, and activation energies higher than 50 kJ mol −1. At constant temperature, the emission rate of both methyl chloride and hydrocarbons from dry leaf litter decreased in time. At high temperatures (80–100 °C) this was noticeable on a timescale of hours, while at low temperatures (20–30 °C) the decrease was very slow and only visible on a timescale of months. Emission of methyl chloride from leaf litter might be significant for its global budget, while temperature induced hydrocarbon emissions from leaf litter are likely insignificant. ► Methyl chloride and C 2–C 5 hydrocarbons are emitted by leaf litter. ► Emission rates increase with temperature. ► Methyl chloride from leaf litter is a significant source of chloride in the atmosphere.
ISSN:1352-2310
1873-2844
DOI:10.1016/j.atmosenv.2011.03.016