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REFERENCES

  • Aubinet M. (2008) Eddy covariance CO2 flux measurements in nocturnal conditions: an analysis of the problem. Ecological Applications 18, 13681378.
  • Baldocchi D.D. (1988) A multi-layer model for estimating sulfur dioxide deposition to a deciduous oak forest canopy. Atmospheric Environment 22, 869884.
  • Baldocchi D.D. (2003) Assessing the eddy covariance technique for evaluating carbon dioxide exchange rates of ecosystems: past, present and future. Global Change Biology 9, 479492.
  • Baldocchi D.D., Hicks B.B. & Meyers T.P. (1988) Measuring biosphere-atmosphere exchanges of biologically related gases with micrometeorological methods. Ecology 69, 13311340.
  • Bartell U., Hofmann U., Kreuzburg B., Andreae M.O. & Kesselmeier J. (1993) COS and H2S fluxes over a wet meadow in relation photosynthetic activity: an analysis of measurements made on 6 September 1990. Atmospheric Environment 27, 18511864.
  • Brugnoli E. & Calfapietra C. (2010) Carbonyl sulfide: a new tool for understanding the response of the land biosphere to climate change. New Phytologist 186, 783785.
  • Brühl C., Lelieveld C., Crutzen P.J. & Tost H. (2011) The role of carbonyl sulphide as a source of stratospheric sulphate aerosol and its impact on climate. Atmospheric Chemistry and Physics Discussions 11, 2082320854.
  • von Caemmerer S. & Farquhar G.D. (1981) Some relationships between the biochemistry of photosynthesis and the gas exchange of leaves. Planta 153, 376387.
  • Campbell G.S. & Norman J.M. (1998) An Introduction to Environmental Biophysics. Springer, New York, USA.
  • Campbell J.E., Carmichael G.R., Chai T., et al. (2008) Photosynthetic control of atmospheric carbonyl sulfide during the growing season. Science 332, 10851088.
  • Dore S., Hymus G.J., Johnson D.P., Hinkle C.R., Valentini R. & Drake B.G. (2003) Cross validation of open-top chamber and eddy covariance measurements of ecosystem CO2 exchange in a Florida scrub-oak ecosystem. Global Change Biology 9, 8495.
  • Eriksson M., Villand P., Garderström P. & Samuelsson G. (1998) Induction and regulation of expression of low-CO2-induced mitochondrial carbonic anhydrase in Chlamydomonas reinhardtii. Plant Physiology 116, 637641.
  • Evans J.R., Kaldenhoff R., Genty B. & Terashima I. (2009) Resistance along the CO2 diffusion pathway inside leaves. Journal of Experimental Botany 60, 22352248.
  • Finnigan J.J. & Raupach M.R. (1987) Transfer processes in plant canopies in relation to stomatal characteristics. In Stomatal Function (eds E. Zeiger, G.D. Farquhar & I.R. Cowan), pp. 385429. Stanford University Press, Stanford, CA, USA.
  • Gillon J.S. & Yakir D. (2000) Internal conductance to CO2 diffusion and C18OO discrimination in C3 leaves. Plant Physiology 123, 201213.
  • Goulden M.L., Munger J.W., Fan S.M., Daube B.C. & Wofsy S.C. (1996) Measurements of carbon sequestration by long-term eddy covariance: methods and critical evaluation of accuracy. Global Change Biology 2, 169182.
  • Graus M., Müller M. & Hansel A. (2010) High resolution PTR-TOF: quantification and formula confirmation of VOC in real time. Journal of the American Society of Mass Spectrometry 21, 10371044.
  • Gu L., Falge E.M., Boden T., et al. (2005) Objective threshold determination for nighttime eddy flux filtering. Agricultural and Forest Meteorology 128, 179197.
  • Hofmann U., Hofmann R. & Kesselmeier J. (1992) Field measurements of reduced sulfur compounds over wheat during a growing season. In Precipitation Scavenging and Atmosphere-Surface Exchange, Volume 2 – The Semonin Volume: Atmosphere-Surface Exchange Processes (eds S.E. Schwartz & W.G.N. Slinn), pp. 967977. Hemisphere Publishing Corporation, Washington DC, USA.
  • Huber B. (1993) Austausch flüchtiger Schwefelverbindungen in land- und forstwirtschaftlichen Ökosystemen. PhD thesis, Technische Universität München, Munich, Germany.
  • Kruijt B., Ongeri S. & Jarvis P.G. (1997) Scaling of PAR absorption, photosynthesis and transpiration from leaves to canopy. In Scaling-up from Cell to Landscape (eds P.R. van Gardingen, G.M. Foody & P.J. Curran), pp. 79104. Cambridge University Press, Cambridge, UK.
  • Kuhn U., Ammann C., Wolf A., Meixner F.X., Andreae M.O. & Kesselmeier J. (1999) Carbonyl sulfide exchange on an ecosystem scale: soil represents a dominant sink for atmospheric COS. Atmospheric Environment 33, 9951008.
  • Larcher W. (2001) Ökophysiologie der Pflanzen. Ulmer, Stuttgart, Germany.
  • Liu S., Lu L., Mao D. & Lia J. (2007) Evaluating parameterizations of aerodynamic resistance to heat transfer using field measurements. Hydrology and Earth System Science 11, 769783.
  • Magnani F., Leonardi S., Tognetti R., Grace J. & Borghetti M. (1998) Modelling the surface conductance of a broad-leaf canopy: effects of partial decoupling from the atmosphere. Plant, Cell & Environment 21, 867879.
  • Monteith J.L. & Unsworth M.H. (1990) Principles of Environmental Physics. Edward Arnold, London, UK.
  • Montzka S.A., Calvert P., Hall B.D., Elkins J.W., Conway T.J., Tans P.P. & Sweeney C. (2007) On the global distribution, seasonality, and budget of atmospheric carbonyl sulfide (COS) and some similarities to CO2. Journal of Geophysical Research 112, D09302. doi:10.1029/2006JD007665.
  • Moskvin O.V., Ivanov B.N., Ignatova I.K. & Kollmeier M.A. (2000) Light-induced stimulation of carbonic anhydrase activity in pea thylakoids. FEBS Letters 470, 375377.
  • Penman H.L. (1948) Natural evaporation from open water, bare soil and grass. Proceedings of the Royal Society A 193, 120145.
  • Protoschill-Krebs G., Wilhelm C. & Kesselmeier J. (1996) Consumption of carbonyl sulfide (COS) by higher plant carbonic anhydrase (CA). Atmospheric Environment 30, 31513156.
  • Reichstein M., Falge E., Baldocchi D., et al. (2005) On the separation of net ecosystem exchange into assimilation and ecosystem respiration: review and improved algorithm. Global Change Biology 11, 14241439.
  • Rodeghiero M., Niinemets Ü. & Cescatti A. (2007) Major diffusion leaks of clamp-on leaf cuvettes still unaccounted: how erroneous are the estimates of Farquhar et al. model parameters? Plant, Cell & Environment 30, 10061022.
  • Sánchez J.M., Caselles V., Niclòs R., Coll C. & Kustas W.P. (2009) Estimating energy balance fluxes above a boreal forest from radiometric temperature observations. Agricultural and Forest Meteorology 149, 10371049.
  • Sandoval-Soto L., Stanimirov M., von Hobe M., Schmitt V., Valdes J., Wild A. & Kesselmeier J. (2005) Global uptake of carbonyl sulfide (COS) by terrestrial vegetation: estimates corrected by deposition velocities normalized to the uptake of carbon dioxide (CO2). Biogeosciences 2, 125132.
  • Seibt U., Kesselmeier J., Sandoval-Soto L., Kuhn U. & Berry J.A. (2010) A kinetic analysis of leaf uptake of COS and its relation to transpiration, photosynthesis and carbon isotope fractionation. Biogeosciences 7, 333341.
  • Sharkey T.D., Wiberley A.E. & Donohue A.R. (2008) Isoprene emission from plants: why and how. Annals of Botany 101, 518.
  • Sitch S., Huntingford C., Gedney N., et al. (2008) Evaluation of the terrestrial carbon cycle, future plant geography and climate-carbon cycle feedbacks using five Dynamic Global Vegetation Models DGVMs. Global Change Biology 14, 20152039.
  • Steinbacher M., Bingemer H.G. & Schmidt U. (2004) Measurements of the exchange of carbonyl sulfide (OCS) and carbon disulfide (CS2) between soil and atmosphere in a spruce forest in central Germany. Atmospheric Environment 38, 60436052.
  • Stimler K., Montzka S.A., Berry J.A., Rudich Y. & Yakir D. (2010a) Relationships between carbonyl sulfide (COS) and CO2 during leaf gas exchange. New Phytologist 186, 869878.
  • Stimler K., Nelson D. & Yakir D. (2010b) High precision measurements of atmospheric concentrations and plant exchange rates of carbonyl sulfide using mid-IR quantum cascade laser. Global Change Biology 16, 24962503.
  • Stimler K., Berry J.A., Montzka S.A. & Yakir D. (2011) Association between carbonyl sulfide uptake and 18Δ during gas exchange in C3 and C4 leaves. Plant Physiology 157, 509517.
  • Sültemeyer D. (1998) Carbonic anhydrase in eukaryotic algae: characterization, regulation, and possible functioning during photosynthesis. Canadian Journal of Botany 76, 962972.
  • Van Diest H. & Kesselmeier J. (2008) Soil atmosphere exchange of carbonyl sulphide (COS) regulated by diffusivity depending on water-filled pore space. Biogeosciences 5, 475483.
  • Velmeke F. (1993) Versuche zur Korrelation von Photosynthese mit dem Austausch flüchtiger Schwefel-Verbindungen zwischen Bäumen und der Atmosphäre. MSc thesis, Universität Mainz, Mainz, Germany.
  • Watts S.F. (2000) The mass budgets of carbonyl sulfide, dimethyl sulfide, carbon sulfide and hydrogen sulfide. Atmospheric Environment 34, 761779.
  • White M.L., Zhou Y., Russo R.S., Mao H., Talbot R., Varner R.K. & Sive B.C. (2010) Carbonyl sulfide exchange in a temperate loblolly pine forest grown under ambient and elevated CO2. Atmospheric Chemistry and Physics 10, 547561.
  • Wilson K.B., Hanson P.J., Mulholland P.J., Baldocchi D.D. & Wullschleger S.D. (2001) A comparison of methods for determining forest evapotranspiration and its components: sap-flow, soil water budget, eddy covariance and catchment water balance. Agricultural and Forest Meteorology 106, 153168.
  • Wohlfahrt G., Bahn M., Haslwanter A., Newesely C. & Cernusca A. (2005) Estimation of daytime ecosystem respiration to determine gross primary production of a mountain meadow. Agricultural and Forest Meteorology 130, 1325.
  • Wohlfahrt G., Irschick C., Thalinger B., Hörtnagl L., Obojes N. & Hammerle A. (2010) Insights from independent evapotranspiration estimates for closing the energy balance: a grassland case study. Vadose Zone Journal 9, 10251033.
  • Xu X., Bingemer H.G. & Schmidt U. (2002) The flux of carbonyl sulfide and carbon disulfide between the atmosphere and a spruce forest. Atmospheric Chemistry and Physics 2, 171181.