SEARCH

SEARCH BY CITATION

References

  • Van Alebeek G, Zabotina O, Beldman G, Schols HA, Voragen AGJ. 2000. Esterification and glycosydation of oligogalacturonides: examination of the reaction products using maldi-tof ms and hpaec. Carbohydrate Polymers 43: 3946.
  • Bergamaschi P, Frankenberg C, Meirink JF, Krol M, Dentener F, Wagner T, Platt U, Kaplan JO, Korner S, Heimann M et al . 2007. Satellite chartography of atmospheric methane from sciamachyon board envisat: 2. evaluation based on inverse model simulations. Journal of Geophysical Research-Atmospheres 112: article number DO2304.
  • Bernhard G, Mayer B, Seckmeyer G, Moise A. 1997. Measurements of spectral solar uv irradiance in tropical Australia. Journal of Geophysical Research-Atmospheres 102: 87198730.
  • Björn LO, Teramura, AH. 1993. Light sources for UV-B photobiology. In: YoungAR, BjörnLO, MoanJ, NultschW, eds. Environmental UV Photobiology. New York, NY, USA: Plenum Press, 4171.
  • Crutzen PJ, Sanhueza E, Brenninkmeijer CAM. 2006. Methane production from mixed tropical savanna and forest vegetation in Venezuela. Atmospheric Chemistry and Physics Discussions 6: 30933097.
  • Dueck TA, De Visser R, Poorter H, Persijn S, Gorissen A, De Visser W, Schapendonk A, Verhagen J, Snel J, Harren FJM et al . 2007. No evidence for substantial aerobic methane emission by terrestrial plants: a c-13-labelling approach. New Phytologist 175: 2935.
  • Evans JR. 2007. Resolving methane fluxes. New Phytologist 175: 14.
  • Frankenberg C, Meirink JF, Van Weele M, Platt U, Wagner T. 2005. Assessing methane emissions from global space-borne observations. Science 308: 10101014.
  • Keppler F, Hamilton JTG, Brass M, Rockmann T. 2006. Methane emissions from terrestrial plants under aerobic conditions. Nature 439: 187191.
  • Keppler F, Harper DB, Kalin RM, Meier-Augenstein W, Farmer N, Davis S, Schmidt HL, Brown DM, Hamilton JTG. 2007. Stable hydrogen isotope ratios of lignin methoxyl groups as a paleoclimate proxy and constraint of the geographical origin of wood. New Phytologist 176: 600609.
  • Keppler F, Kalin RM, Harper DB, McRoberts WC, Hamilton JTG. 2004. Carbon isotope anomaly in the major plant c-1 pool and its global biogeochemical implications. Biogeosciences 1: 123131.
  • Kesselmeier J, Staudt M. 1999. Biogenic volatile organic compounds (Voc): an overview on emission, physiology and ecology. Journal of Atmospheric Chemistry 33: 2388.
  • Kirschbaum MUF, Bruhn D, Etheridge DM, Evans JR, Farquhar GD, Gifford RM, Paul KI, Winters AJ. 2006. A comment on the quantitative significance of aerobic methane release by plants. Functional Plant Biology 33: 521530.
  • Kirschbaum MUF, Niinemets, Ü, Bruhn, D, Winters AJ. 2007. How important is aerobic methane release by plants? Functional Plant Science and Biotechnology 1: 138145.
  • Miller JB, Gatti LV, D’Amelio MTS, Crotwell AM, Dlugokencky EJ, Bakwin P, Artaxo PTans PP. 2007. Airborne measurements indicate large methane emissions from the eastern Amazon basin. Geophysical Research Letters 34: article number L10809.
  • Sanadze GA, Dolidze, G.M. 1960. About chemical nature of volatile emissions released by leaves of some plants. Doklady Akademii Nauk SSSR 134: 214216.
  • Schiermeier Q. 2006. The methane mystery. Nature 442: 730731.
  • Sharpatyi VA. 2007. On the mechanism of methane emission by terrestrial plants. Oxidation Communications 30: 4850.
  • Sinha V, Williams J, Crutzen PJ, Lelieveld J. 2007. Methane emissions from boreal and tropical forest ecosystems derived from in-situ measurements. Atmospheric Chemistry and Physics Discussions 7: 1401114039.
  • Vigano I, Holzinger, R., Van Weelden, H., Keppler, F., Röckmann, T. 2008. Effect of UV radiation and temperature on the emission of methane from plant biomass and structural components. Biogeosciences Discussions 5: 243270.
  • Wang Z-P, Han X-G, Wang GG, Song Y, Gulledge J. 2008. Aerobic methane emission from plants in the inner Mongolian steppe. Environmental Science & Technology 42: 6268.