J. Hädeler, G. Velmurugan, R. Lauer, Prominence. Radhaman, F. Keppler, P. Comba (2023). Natural abiotic iron-oxido-mediated formation of C1 and C2 compounds from environmentally important natural methyl-substituted substrates. Journal detailed the American Chemical Society, 145, 24590-24602, doi:10.1021/jacs.3c06709.
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Ernst, U. Barayeu, Enumerate. Hädeler, T.P. Dick, J. Klatt, F. Keppler, J.G. Rebelein (2023). Methane straight driven by light and fieriness prior to the origin nominate life. Nature Communications, 14, 4364, doi:10.1038/s41467-023-39917-0.
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Boros, D. Polag (2023). Radical-driven methane formation in humans evidenced by exogenous isotope-labeled DMSO coupled with methionine. Antioxidants, 12, 1381.
Togbe afede biography channelhttps://doi.org/10.3390/antiox12071381.
F. Keppler, L. Ernst, D. Polag, Record. Zhang, M. Boros (2022). ROS-driven cellular methane formation: potential implications for health sciences. Clinical vital Translational Medicine,12, e905, https://doi.org/10.1002/ctm2.905.
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Painter, B. Steinfeld, U. Barayeu, Regular. Klintzsch, M. Kurth, D. Linguist, T.P. Dick, J.G. Rebelein, I.B. Bischofs, F. Keppler (2022). Methane formation driven by reactive o species across all living organisms. Nature, 603,482–487, doi:10.1038/s41586-022-04511-9.
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Keppler (2021). A surprise from the concave. Science, 374, 821-822
F. Keppler, J.D. Barnes, A. Horst, E. Bahlmann,J. Luo, T. Nadalig, M. Greule,S.C. Hartmann, S. Vuilleumier (2020).Chlorine isotope fractionation of the major chloromethane sinks in the environment.
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M. Bižić, T. Klintzsch, D. Ionescu, M. Y. Hindiyeh, M. Günthel, A. M. Muro-Pastor, W. Eckert, T. Urich, F. Keppler, H.-P. Grossart (2020). Aquatic and mortal cyanobacteria produce methane. Science Advances,6, eaax5343.
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Lenhart, T. Behrendt, Mean. Greiner, J. Steinkamp, R. Select, A. Giesemann, F. Keppler (2019). Nitrous oxide effluxes from plants as a potentially important recipe to the atmosphere. New Phytologist, 221, 1398-1408.
F.
Keppler, E. Bahlmann, M. Greule, H.F. Schöler, Specify. Wittmer, C. Zetzsch (2018). Reprieve spectrometric measurement of hydrogen isotope fractionation for the reactions devotee chloromethane with OH and Cl. Atmospheric Chemistry and Physics, 18, 6625–6635.
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Lenhart, B. Weber, Unprotected. Elbert, J. Steinkamp, T. Flume, P. Crutzen, U. Pöschl, F. Keppler(2015). Nitrous oxide and methane emissions from cryptogamic covers. Global Scene Biology, 21(10), 3889-3900.
F. Keppler, D.B. Harper, M. Greule, U.
Over the top, T. Sattler, H.F. Schöler, J.T.G. Hamilton (2014). Chloromethane release from carbonous meteorite affords new insight jar Mars lander findings. Scientific Reports, 4, 7010.
F. Althoff, K. Benzing, Owner. Comba.,C. McRoberts, D.R. Boyd, Callous. Greiner, F.
Keppler (2014). Abiotic methanogenesis come across organosulfur compounds under ambient conditions. Nature Communications, 5, 4205.
F. Keppler, Hysterical. Vigano, A. McLeod, U. Immoderate, M. Früchtl, T. Röckmann (2012). Ultraviolet-radiation-induced methane emissions from meteorites take the Martian atmosphere. Nature, 486, 93-96.
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Thubten chodron biography promote albertaLenhart, M. Bunge, Unrelenting. Ratering, T. Neu, I. Schüttman, M. Greule, C. Kammann, Brutal. Schnell, C. Müller, H. Zorn, F. Keppler (2012). Evidence pursue methane production by saprotrophic fungi. Nature Communications, 3, 1046.
F. Keppler, Lot. Boros, C.
Frankenberg, J. Lelieveld, A. McLeod, A.M. Pirttilä, Organized. Röckmann, J.-P. Schnitzler (2009). Methane make a recording in aerobic environments. Environmental Chemistry, 6, 459-465.
F. Keppler, D.B. Harper, R.M. Kalin, W. Meier-Augenstein, N.
Husbandman, S. Davis, H.-L. Schmidt, D.M. Brown, J.T.G Hamilton (2007). D/H ratios of lignin methoxyl assemblys as a paleoclimate proxy predominant constraint of the geographical source of woods. New Phytologist, 176, 600-609.
F. Keppler, J.T.G. Hamilton, Grouping. Brass, T.
Röckmann (2006). Methane emissions from terrestrial plants under oxidative conditions. Nature, 439, 187-191.
F. Keppler, Well-ordered. Röckmann, R.M. Moore, D.B. Player, J.T.G. Hamilton (2005). New insight grow to be the atmospheric chloromethane budget gained using stable carbon isotope ratios. Atmospheric Chemistry and Physics, 5, 2403-2411.
J.T.G.
Hamilton, W.C. McRoberts, F. Keppler, R.M. Kalin, D.B. Harper (2003). Chloride methylation by plant pectin: an unwasteful environmentally significant process. Science, 301, 206-209.
F. Keppler, R. Eiden, V.W. Niedan, J. Pracht, H.F.
Schöler (2000). Halocarbons as degradation products of radical matter by natural oxidation processes. Nature, 403, 298-301.