Publikationen

2025

  • J Eckei, R Well, M Maier, A Matson, K Dittert, PS Rummel. 2025. Determining N2O and N22fluxes in relation to winter wheat and sugar beet growth and development using the improved 15N gas flux method on the field scale Biology and Fertility of Soils 61 (3), 489-505, https://doi.org/10.1007/s00374-024-01806-z

  • V Gartiser, V Lang, M Maier. 2025. ConFluxPro: A toolkit for soil gas analysis. Journal of Open Source Software, 10(110), 8094, https://doi.org/10.21105/joss.08094

  • V Gartiser, V Lang, M Maier. 2025. A New Approach to Address Soil Heterogeneity as a Source of Uncertainty in the Flux‐Gradient Method: CO2 Case Studies European Journal of Soil Science 76 (3), e70126, https://doi.org/10.1111/ejss.70126

  • Haberstroh, S., Scarpa, F., Seeger, S., Christen, A., & Werner, C. (2025). Continuous stem water potential measurements of a diffuse-porous tree species offer new insights into tree water relations. Ecohydrology, 18(1), e2761. https://doi.org/10.1002/eco.2761

  • Pyschik, J., Seeger, S., Herbstritt, B., and Weiler, M.: Technical note: A fast and objective autosampler for direct vapor equilibration isotope measurements, Hydrol. Earth Syst. Sci., 29, 525–534, https://doi.org/10.5194/hess-29-525-2025, .

  • Rosalie Ina Wetterau, Lilli Aline Schroeder, Claudia Heidecke, Martin Maier, Konrad Egenolf; 2025 Humusberatung im Ackerbau – Bedeutung, Bewertung und Perspektiven Thünen Working Paper 256, https://www.thuenen.de/de/thuenen-institut/infothek/schriftenreihen/thuenen-working-paper

2024

  • Gao,H., Gong, J., Ye, T., Maier, M., Liu, J., 2024. Constructing cropland ecological stability assessment method based on disturbance-resistance-response processes and classifying cropland ecological types. Science of The Total Environment.930, 172673. https://doi.org/10.1016/j.scitotenv.2024.172673

  • Hartmann, P., Jansone, L., Mahlau, L., Maier, M.,Lang, V., & Puhlmann, H., 2024.Liming leads to changes in the physical properties of acidified forest soils. Journal of Plant Nutrition and Soil Science. https://doi.org/10.1002/jpln.202300055

  • Kinzinger, L., Mach, J., Haberstroh, S., Schindler, Z., Frey, J., Dubbert, M.,, Seeger, S, ... & Werner, C. (2024). Interaction between beech and spruce trees in temperate forests affects water use, root water uptake pattern and canopy structure. Tree Physiology, 44(1),https://doi.org/10.1093/treephys/tpad144.

  • Nguyen, T. T., Bekin, N., Altman, A., Maier, M., Agam, N., & Levintal, E. (2024). Overcoming barriers in long-term, continuous monitoring of soil CO 2 flux: A low-cost sensor system. EGUsphere, 2024, 1-22. https://doi.org/10.5194/egusphere-2024-3156

2023

  • Ahl, C., Gernandt, P., 2023. Peat depth of an agriculturally used fen 1952 vs. 2021 – The example of Großes Bruch, Saxony Anhalt/Lower Saxony. TELMA.

  • Seeger, S., Weile M.. 2023. Dye-tracer-aided investigation of xylem water transport velocity distributions. Hydrology and Earth System Sciences. https://doi.org/10.5194/hess-27-3393-2023

  • Lang, V., Schneider, V., Puhlmann, H. et al. 2023.Spotting ethylene in forest soils - What influences the occurrence of the phytohormone?. Biol Fertil Soils . https://doi.org/10.1007/s00374-023-01763-z

  • Osterholt, L., Maier, M., & Schindler, D. 2023. Small lateral air pressure gradients generated by a large chamber system have a strong effect on CO2 transport in soil. European Journal of Soil Science, e13405. DOI: https://doi.org/10.1111/ejss.13405

2022

  • Fiedler, Jan; Fuß, Roland; Glatzel, Stephan; Hagemann, Ulrike; Huth, Vytas; Jordan, Sabine; Jurasinski, Gerald; Kutzbach, Lars; Maier, Martin; Schäfer, Klaus; Weber, Tobias; Weymann, Daniel, 2022: BEST PRACTICE GUIDELINE Measurement of carbon dioxide, methane and nitrous oxide fluxes between soil-vegetation-systems and the atmosphere using non-steady state chambers - Version 1. Arbeitsgruppe Bodengase, Deutsche Bodenkundliche Gesellschaft, Göttingen, 70 S., DOI: https://doi.org/10.23689/fidgeo-5422.

  • Jochheim, H. S Wirth, V Gartiser, S Paulus, C Haas, HH Gerke, M Maier, 2022. Dynamics of Soil CO2 Efflux and Vertical CO2 Production in a European Beech and a Scots Pine Forest. Frontiers in Forests and Global Change.

  • Kolbe S., M Mohr, M Maier, L Osterholt, B Gardiner, D Schindler, 2022. On the Potential of Using Air Pressure Fluctuations to Estimate Wind-Induced Tree Motion in a Planted Scots Pine Forest. Forests 13 (2), 225

  • Maier, M., Weber, T.K.D., Fiedler, J., Fuß, R., Glatzel, S., Huth, V., Jordan, S., Jurasinski, G., Kutzbach, L., Schäfer, K., Weymann, D., Hagemann, U., 2022. Introduction of a guideline for measurements of greenhouse gas fluxes from soils using non‐steady‐state chambers. J. Plant Nutr. Soil Sci. 185 (4), 447–461.

  • Osterholt, L., Kolbe, S., Maier, M., 2022. A differential CO2 profile probe approach for field measurements of soil gas transport and soil respiration . J. Plant Nutr. Soil Sci. 185 (2), 282–296.

2021

  • Maier,M., M Cordes, L Osterholt. 2021. Soil respiration and CH4 consumption covary on the plot scale. Geoderma 382, 114702

2020

  • Maier, M., Gartiser, V., Schengel, A., Lang, V., 2020. Long Term Soil Gas Monitoring as Tool to Understand Soil Processes. Applied Sciences 10 (23), 8653.

  • Mohr, M., Laemmel, T., Maier, M., Schindler, D., 2020. Inexpensive high‐precision system for measuring air pressure fluctuations. Meteorol Appl 27 (1).

2019

  • Laemmel, T., Mohr, M., Schack‐Kirchner, H., Schindler, D., Maier, M., 2019. 1D Air Pressure Fluctuations Cannot Fully Explain the Natural Pressure‐Pumping Effect on Soil Gas Transport. Soil Sci. Soc. Am. j. 83 (4), 1044–1053.

  • Laemmel, T., Mohr, M., Longdoz, B., Schack-Kirchner, H., Lang, F., Schindler, D., Maier, M., 2019. From above the forest into the soil – How wind affects soil gas transport through air pressure fluctuations. Agricultural and Forest Meteorology 265, 424–434.

  • Maier, M., Mayer, S., Laemmel, T., 2019. Rain and wind affect chamber measurements. Agricultural and Forest Meteorology 279, 107754.

  • Well, R., Maier, M., Lewicka-Szczebak, D., Köster, J.-R., Ruoss, N., 2019. Underestimation of denitrification rates from field application of the 15N gas flux method and its correction by gas diffusion modelling. Biogeosciences 16 (10), 2233–2246.


Ausgewählte Publikationen vor 2019:

  • Maier, M., Machacova, K., Lang, F., Svobodova, K., Urban, O., 2018. Combining soil and tree‐stem flux measurements and soil gas profiles to understand CH4 pathways in Fagus sylvatica forests. J. Plant Nutr. Soil Sci. 181 (1), 31–35.

  • Maier, M., Longdoz, B., Laemmel, T., Schack-Kirchner, H., Lang, F., 2017. 2D profiles of CO2, CH4, N2O and gas diffusivity in a well aerated soil: measurement and Finite Element Modeling. Agricultural and Forest Meteorology 247, 21–33.

  • Maier, M., Schack-Kirchner, H., 2014. Using the gradient method to determine soil gas flux: A review. Agricultural and Forest Meteorology 192-193, 78–95.

  • Maier, M., Schack-Kirchner, H., Hildebrand, E.E., Schindler, D., 2011. Soil CO2 efflux vs. soil respiration: Implications for flux models. Agricultural and Forest Meteorology 151 (12), 1723–1730.

  • Maier, M., Schack-Kirchner, H., Hildebrand, E.E., Holst, J., 2010. Pore-space CO2 dynamics in a deep, well-aerated soil. European Journal of Soil Science 61 (6), 877–887.