Publikation
——2025——
Koplin J. […] Mueller P. […] et al. (2025) Blue carbon potential in Germany: Status and future development. Estuarine Coastal and Shelf Sciences doi.org/10.1016/j.ecss.2025.109354
Logemann E.L, Goesele C.K., Jensen K., Mueller P. (2025) Soil Organic Carbon Stocks of German Salt Marshes: A Comparative Study along Low- and High-Energy Coastlines. JGR Biogeosciences doi.org/10.1029/2025JG008797
Lønborg C. […] Logemann E.L.*** […] Muller P. […] et al. (2025) A marine and salt marsh sediment organic carbon database for European regional seas (EURO-CARBON). Data in Brief doi.org/10.1016/j.dib.2025.111595
Menzel C., Ostertag E., Mueller P., Rich R., Nolte S., Jensen K. (2025) Hydrology mediates salt marsh belowground biomass response to warming. Limnology and Oceanography doi.org/10.25592/uhhfdm.15931
Tutiyasarn P., Mueller P., Romero-Mujalli G., Van Dam B., Hartmann J., Porada P. (2025) Soil carbon dioxide levels control salt marsh alkalinity generation. Limnology and Oceanography doi.org/10.1002/lno.70062
Middelanis T., Looschelders D., Mueller P., K.-H. Knorr (2025) Potential of biochar to mitigate methane production in paddy soils - application of a new incubation and modelling approach. Biogeochemistry doi.org/10.1007/s10533-024-01200-9
——2024——
Grüterich L., Woodhouse J., Mueller P., Tiemann A., Ruscheweyh H.-J., Sunagawa S., Grossar H.P., Streit W.R. (2024) Assessing environmental gradients in relation to dark CO2 fixation in estuarine wetland microbiomes. Applied and Environmental Microbiology doi.org/10.1128/aem.02177-24
Krüger N., Knorr K-H, Mueller P. (2024) Opposite priming responses to labile carbon versus oxygen pulses in anoxic peat. Soil Biology and Biochemistry doi.org/10.1016/j.soilbio.2024.109682
Mueller P. and Megonigal, J.P. (2024) Redox control on rhizosphere priming in wetlands. Nature Geoscience doi.org/10.1038/s41561-024-01584-1
Mittmann-Goetsch J., Wilson M., Jensen, K. Mueller. P (2024) Root-driven soil reduction in Wadden Sea salt marshes. Wetlands doi.org/10.1007/s13157-024-01867-8
Grüterich L., Wilson M., Jensen K., Streit R.W, Mueller P. (2024) Transcriptomic response of wetland microbes to root influence. iScience doi.org/10.1016/j.isci.2024.110890
Arias-Ortiz A., […] Mueller P. […] et al. (2024) Methane fluxes in tidal marshes of the Contiguous United States. Global Change Biology doi.org/10.1111/gcb.17462
Sarneel J.M., […] Mueller P. […] et al. (2024) Reading tea leaves worldwide: decoupled drivers of initial litter decomposition mass-loss rate and stabilization. Ecology Letters doi.org/10.1111/ele.14415
Granse D., Wanner A., Stock M., Jensen K., Mueller P. (2024) Plant-sediment interactions decouple inorganic from organic carbon stock development in salt marsh soils. Limnology and Oceanography Letters doi.org/10.1002/lol2.10382
——2023——
Rich R., Mueller P. [….] et al. (2023) Design and assessment of a novel approach for ecosystem warming experiments in high-energy tidal wetlands. JGR Biogeosciences doi.org/10.1029/2023JG007550
Tang H., Nolte S., Rich R., Jensen K., Mittmann-Goetsch J., Mueller P. (2023) Warming accelerates belowground litter turnover in salt marshes – insights from a Tea Bag Index assay. Biogeosciences doi.org/10.5194/bg-20-1925-2023
Mueller P., Kutzbach L., Mozdzer T.J., Jespersen E., Barber D., Eller F. (2023) Minerogenic salt marshes can function as important inorganic carbon stores. Limnology and Oceanography doi.org/10.1002/lno.12322
——2022——
Ren L., Jensen K., Porada P., Mueller P. (2022) Biota-mediated carbon cycling – A synthesis of biotic-interaction controls on blue carbon. Ecology Letters 10.1111/ele.13940
——2021——
Tang H, Liebner S., Reents S, Nolte S., Horn F., Jensen K., Mueller P. (2021) Plant genotype controls wetland soil microbial functioning in response to sea-level rise. Biogeosciences doi.org/10.5194/bg-2021-41
Koop-Jakobsen K., Meier R.J., Mueller P. (2021) Plant-mediated rhizosphere oxygenation in the native invasive salt marsh grass Elymus athericus. Frontiers in Plant Science 12:669751
Reents S., Mueller P., Tang H., Jensen K., Nolte S. (2021) Plant genotype determines biomass response to flooding frequency in tidal wetlands. Biogeosciences 18:403–411
Mueller P., Do H.T., Smit C., Reisdorff C., Jensen K., Nolte S. (2021) With a little help from my friends – Physiological integration facilitates invasion of wetland grass E. athericus into flooded soils. Oikos 130:431–439
——2020——
Mueller P., Mozdzer T.J., Langley J.A., Aoki L., Noyce G., Megonigal J.P. (2020) Plant species determine tidal wetland methane response to sea level rise. Nature Communications 11:5154
Keshta A., Koop-Jakobsen K., Titschak J., Mueller P., Jensen K., Baldwin A., Nolte S. (2020) Ungrazed salt marsh has well connected soil pores and less dense sediment compared with grazed salt marsh: CT scanning study. Estuarine, Coastal and Shelf Science 245:106987
Mueller P., Granse D., Nolte S., Weingartner M., Hoth S., Jensen K. (2020) Unrecognized controls on microbial functioning in blue carbon ecosystems: The role of mineral enzyme stabilization and allochthonous substrate supply. Ecology and Evolution10:998-1011
Tang H., Nolte S., Jensen, K., Yang, Z., Wu, J., Mueller P. (2020) Grazing mediates soil microbial activity and litter decomposition in salt marshes. Science of the Total Environment 720:137559
——vor 2020——
Mueller, P. Do H.T., Jensen K., Nolte S. (2019) Origin of organic carbon in the topsoil of Wadden Sea salt marshes. Marine Ecology Progress Series 624:39-50
Mueller P., Ladiges N., Jack A., Schmiedl G., Kutzbach L., Jensen K., Nolte S. (2019), Assessing the long-term carbon-sequestration potential of the semi-natural salt marshes in the European Wadden Sea. Ecosphere 10:e02556
Mueller P., Schile-Beers L., Mozdzer T.J., Chmura G.L., Dinter T., Kuzyakov Y., de Groot A.V., Esselink P., Smit C., D’Alpaos A., Ibáñez C., Lazarus M., Neumeier U., Johnson B.J., Baldwin A.J., Yarwood S.A., Montemayor D.I., Yang Z., Wu J., Jensen K., Nolte S (2018) Global-change effects on early-stage decompositon processes in tidal wetlands – implications from a global survey using standardized litter. Biogeosciences 15:3189-3202
Lenzewski N., Mueller P., Meier R.J., Liebsch G., Jensen K., Koop-Jakobsen K. (2018) Belowground gas exchange between aquatic plants and sediment – A planar optode study of oxygen and carbon dioxide dynamics in rhizospheres of Lobelia dortmanna. New Phytologist 218:131-141
Koop-Jakobsen K., Mueller P., Meier R.J., Liebsch G., Jensen K. (2018) Plant-sediment interactions in salt marshes – O2, pH, and CO2 gradients in the rhizosphere. Frontiers in Plant Science 9:541
Mueller P., Granse D., Nolte S., Do H.T., Weingartner M., Hoth S., Jensen K. (2017) Top-down control of carbon sequestration: grazing affects microbial structure and function in salt marsh soils. Ecological Applications 27:1435-1450
Mueller P., Jensen K., Megonigal J.P. (2016) Plants mediate soil organic matter decomposition in response to sea level rise. Global Change Biology 22:404-414
Mueller P., Hager R.N., Meschter J.E., Mozdzer T.J., Langley J.A., Jensen K., Megonigal J.P. (2016) Complex invader-ecosystem interactions and seasonality mediate the impact of non-native Phragmites on CH4 emissions. Biological Invasions 18:2635-2647
Mozdzer T.J., Langley J.A., Mueller P., Megonigal J.P. (2016) Deep rooting and global change facilitate spread of invasive grass. Biological Invasions 18:2619–2631