Isoprene emission from a subarctic peatland under enhanced UV-B radiation

Isoprene is a reactive hydrocarbon with an important role in atmospheric chemistry, and emissions from vegetation contribute to atmospheric carbon fluxes. The magnitude of isoprene emissions from arctic peatlands is not known, and it may be altered by increasing UV-B radiation. Isoprene emission was...

Full description

Saved in:
Bibliographic Details
Published in:The New phytologist 2007-01, Vol.176 (2), p.346-355
Main Authors: Tiiva, Päivi, Rinnan, Riikka, Faubert, Patrick, Räsänen, Janne, Holopainen, Toini, Kyrö, Esko, Holopainen, Jarmo K
Format: Article
Language:English
Subjects:
Arctic Regions
atmosphere
atmospheric chemistry
Bryopsida - growth & development
Bryopsida - metabolism
Bryopsida - radiation effects
Butadienes - analysis
carbon
Carbon - metabolism
Carbon dioxide emissions
Carex
Carex limosa
Carex Plant - growth & development
Carex Plant - metabolism
Carex Plant - radiation effects
Cyperaceae - growth & development
Cyperaceae - metabolism
Cyperaceae - radiation effects
Ecosystem
emissions
Eriophorum
Eriophorum russeolum
Fens
Freshwater
growing season
Growing seasons
Hemiterpenes - analysis
hydrocarbons
isoprene
mosses and liverworts
Ozone
peatland
Peatlands
Pentanes - analysis
Photosynthetically active radiation
plant density
Plants
Pollutant emissions
Population Density
Soil - analysis
Sphagnum
ultraviolet radiation
Ultraviolet Rays
UV-B radiation
vegetation
volatile organic compound (VOC)
Volatile organic compounds
Warnstorfia exannulata
Water tables
weather
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Isoprene is a reactive hydrocarbon with an important role in atmospheric chemistry, and emissions from vegetation contribute to atmospheric carbon fluxes. The magnitude of isoprene emissions from arctic peatlands is not known, and it may be altered by increasing UV-B radiation. Isoprene emission was measured with the dynamic chamber method from a subarctic peatland under long-term enhancement of UV-B radiation targeted to correspond to a 20% loss in the stratospheric ozone layer. The site type of the peatland was a flark fen dominated by the moss Warnstorfia exannulata and sedges Eriophorum russeolum and Carex limosa. The relationship between species densities and the emission was also assessed. Isoprene emissions were significantly increased by enhanced UV-B radiation during the second (2004) and the fourth (2006) growing seasons under the UV-B exposure. Emissions were related to the density of E. russeolum. The dominant moss, W. exannulata, proved to emit small amounts of isoprene in a laboratory trial. Subarctic fens, even without Sphagnum moss, are a significant source of isoprene to the atmosphere, especially under periods of warm weather. Warming of the Arctic together with enhanced UV-B radiation may substantially increase the emissions.
ISSN:0028-646X
1469-8137
DOI:10.1111/j.1469-8137.2007.02164.x