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Glob Chang Biol


Title:Ecosystem-scale volatile organic compound fluxes during an extreme drought in a broadleaf temperate forest of the Missouri Ozarks (central USA)
Author(s):Seco R; Karl T; Guenther A; Hosman KP; Pallardy SG; Gu L; Geron C; Harley P; Kim S;
Address:"Department of Earth System Science, University of California, Irvine, CA, 92697, USA. Institute of Meteorology and Geophysics, University of Innsbruck, Innsbruck, Austria. Pacific Northwest National Laboratory, Richland, WA, USA. Department of Civil and Environmental Engineering, Washington State University, Pullman, WA, USA. Department of Forestry, University of Missouri, Columbia, MO, 65211, USA. Environmental Sciences Division, Oak Ridge National Laboratory, Oak Ridge, TN, 37831, USA. U.S. Environmental Protection Agency, National Risk Management Research Laboratory, Research Triangle Park, NC, 27711, USA. Atmospheric Chemistry Division, National Center for Atmospheric Research, Boulder, CO, 80301, USA"
Journal Title:Glob Chang Biol
Year:2015
Volume:20150707
Issue:10
Page Number:3657 - 3674
DOI: 10.1111/gcb.12980
ISSN/ISBN:1365-2486 (Electronic) 1354-1013 (Linking)
Abstract:"Considerable amounts and varieties of biogenic volatile organic compounds (BVOCs) are exchanged between vegetation and the surrounding air. These BVOCs play key ecological and atmospheric roles that must be adequately represented for accurately modeling the coupled biosphere-atmosphere-climate earth system. One key uncertainty in existing models is the response of BVOC fluxes to an important global change process: drought. We describe the diurnal and seasonal variation in isoprene, monoterpene, and methanol fluxes from a temperate forest ecosystem before, during, and after an extreme 2012 drought event in the Ozark region of the central USA. BVOC fluxes were dominated by isoprene, which attained high emission rates of up to 35.4 mg m(-2) h(-1) at midday. Methanol fluxes were characterized by net deposition in the morning, changing to a net emission flux through the rest of the daylight hours. Net flux of CO2 reached its seasonal maximum approximately a month earlier than isoprenoid fluxes, which highlights the differential response of photosynthesis and isoprenoid emissions to progressing drought conditions. Nevertheless, both processes were strongly suppressed under extreme drought, although isoprene fluxes remained relatively high compared to reported fluxes from other ecosystems. Methanol exchange was less affected by drought throughout the season, confirming the complex processes driving biogenic methanol fluxes. The fraction of daytime (7-17 h) assimilated carbon released back to the atmosphere combining the three BVOCs measured was 2% of gross primary productivity (GPP) and 4.9% of net ecosystem exchange (NEE) on average for our whole measurement campaign, while exceeding 5% of GPP and 10% of NEE just before the strongest drought phase. The meganv2.1 model correctly predicted diurnal variations in fluxes driven mainly by light and temperature, although further research is needed to address model BVOC fluxes during drought events"
Keywords:"Butadienes/*metabolism *Droughts *Forests Hemiterpenes/*metabolism Methanol/*metabolism Missouri Models, Theoretical Monoterpenes/*metabolism Pentanes/*metabolism Trees/*metabolism Voc biogenic emissions drought isoprene isoprene volcano megan methanol mo;"
Notes:"MedlineSeco, Roger Karl, Thomas Guenther, Alex Hosman, Kevin P Pallardy, Stephen G Gu, Lianhong Geron, Chris Harley, Peter Kim, Saewung eng Research Support, U.S. Gov't, Non-P.H.S. England 2015/05/20 Glob Chang Biol. 2015 Oct; 21(10):3657-74. doi: 10.1111/gcb.12980. Epub 2015 Jul 7"

 
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