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Modeling of decadal scale phosphorus retention in lake sediment under varying redox conditions
Katsev, S., & Dittrich, M. (2013). Modeling of decadal scale phosphorus retention in lake sediment under varying redox conditions. Ecological Modelling, 251, 246-259. https://doi.org/10.1016/j.ecolmodel.2012.12.008
Silicon: the key element in early stages of biocalcification
Matsko, N. B., Žnidaršič, N., Letofsky-Papst, I., Dittrich, M., Grogger, W., Štrus, J., & Hofer, F. (2011). Silicon: the key element in early stages of biocalcification. Journal of Structural Biology, 174(1), 180-186. https://doi.org/10.1016/j.jsb.2010.09.025
Lake Malawi sediment and pore water chemistry: proposition of a conceptual model for stratification intensification since the end of the Little Ice Age
Branchu, P., Bergonzini, L., Pons-branchu, E., Violier, E., Dittrich, M., Massault, M., & Ghaleb, B. (2010). Lake Malawi sediment and pore water chemistry: proposition of a conceptual model for stratification intensification since the end of the Little Ice Age. Global and Planetary Change, 72(4), 321-330. https://doi.org/10.1016/j.gloplacha.2010.01.008
Calcium carbonate precipitation by cyanobacterial polysaccharides
Dittrich, M., & Sibler, S. (2010). Calcium carbonate precipitation by cyanobacterial polysaccharides. In H. M. Pedley & M. Rogerson (Eds.), Geological Society special publication: Vol. 336. Tufas and speleothems: unravelling the microbial and physical controls (pp. 51-63). https://doi.org/10.1144/SP336.4
Lake sediments during the transient eutrophication period: reactive-transport model and identifiability study
Dittrich, M., Wehrli, B., & Reichert, P. (2009). Lake sediments during the transient eutrophication period: reactive-transport model and identifiability study. Ecological Modelling, 220(20), 2751-2769. https://doi.org/10.1016/j.ecolmodel.2009.07.015
CaCO<SUB>3</SUB> nucleation by cyanobacteria: laboratory evidence for a passive, surface-induced mechanism
Obst, M., Wehrli, B., & Dittrich, M. (2009). CaCO3 nucleation by cyanobacteria: laboratory evidence for a passive, surface-induced mechanism. Geobiology, 7(3), 324-347. https://doi.org/10.1111/j.1472-4669.2009.00200.x
Microorganisms, mineral surfaces, and aquatic environments: learning from the past for future progress
Dittrich, M., & Luttge, A. (2008). Microorganisms, mineral surfaces, and aquatic environments: learning from the past for future progress. Geobiology, 6(3), 201-213. https://doi.org/10.1111/j.1472-4669.2008.00159.x
Aerobic microbial dolomite at the nanometer scale: implications for the geologic record
Sánchez-Román, M., Vasconcelos, C., Schmid, T., Dittrich, M., McKenzie, J. A., Zenobi, R., & Rivadeneyra, M. A. (2008). Aerobic microbial dolomite at the nanometer scale: implications for the geologic record. Geology, 36(11), 879-882. https://doi.org/10.1130/G25013A.1
Atomic force microscope (AFM) combined with the ultramicrotome: a novel device for the serial section tomography and AFM/TEM complementary structural analysis of biological and polymer samples
Efimov, A. E., Tonevitsky, A. G., Dittrich, M., & Matsko, N. B. (2007). Atomic force microscope (AFM) combined with the ultramicrotome: a novel device for the serial section tomography and AFM/TEM complementary structural analysis of biological and polymer samples. Journal of Microscopy, 226(3), 207-217. https://doi.org/10.1111/j.1365-2818.2007.01773.x
Influence of H<SUP>+</SUP> and calcium ions on surface functional groups of Synechococcus PCC 7942 cells
Dittrich, M., & Sibler, S. (2006). Influence of H+ and calcium ions on surface functional groups of Synechococcus PCC 7942 cells. Langmuir, 22(12), 5435-5442. https://doi.org/10.1021/la0531143
Surface properties of cyanobacteria: role of different ionic strength and cadmium adsorption on cells
Karrer, E. (2006). Surface properties of cyanobacteria: role of different ionic strength and cadmium adsorption on cells [Master thesis].
Calcium adsorption and changes of the surface microtopography of cyanobacteria studied by AFM, CFM, and TEM with respect to biogenic calcite nucleation
Obst, M., Dittrich, M., & Kuehn, H. (2006). Calcium adsorption and changes of the surface microtopography of cyanobacteria studied by AFM, CFM, and TEM with respect to biogenic calcite nucleation. Geochemistry, Geophysics, Geosystems, 7(6), 1-15. https://doi.org/10.1029/2005GC001172
Mechanisms of calcite precipitation by picocyanobacteria
Obst, M. (2006). Mechanisms of calcite precipitation by picocyanobacteria [Doctoral dissertation, ETH Zürich]. https://doi.org/10.3929/ethz-a-005181118
Cell surface groups of two picocyanobacteria strains studied by zeta potential investigations, potentiometric titration, and infrared spectroscopy
Dittrich, M., & Sibler, S. (2005). Cell surface groups of two picocyanobacteria strains studied by zeta potential investigations, potentiometric titration, and infrared spectroscopy. Journal of Colloid and Interface Science, 286(2), 487-495. https://doi.org/10.1016/j.jcis.2005.01.029
Living under an atomic force microscope. An optimized approach for <I>in vivo</I> investigations on surface alterations towards biomineral nucleation on cyanobacterial cells
Obst, M., & Dittrich, M. (2005). Living under an atomic force microscope. An optimized approach for in vivo investigations on surface alterations towards biomineral nucleation on cyanobacterial cells. Geobiology, 3, 179-193. https://doi.org/10.1111/j.1472-4669.2005.00054.x
TEM-specimen preparation of cell/mineral interfaces by Focused Ion Beam milling
Obst, M., Gasser, P., Mavrocordatos, D., & Dittrich, M. (2005). TEM-specimen preparation of cell/mineral interfaces by Focused Ion Beam milling. American Mineralogist, 90(8-9), 1270-1277. https://doi.org/10.2138/am.2005.1743
Are picoplankton responsible for calcite precipitation in lakes?
Dittrich, M., & Obst, M. (2004). Are picoplankton responsible for calcite precipitation in lakes? Ambio, 33(8), 559-564. https://doi.org/10.1579/0044-7447-33.8.559
The role of autotrophic picocyanobacteria in calcite precipitation in an oligotrophic lake
Dittrich, M., Kurz, P., & Wehrli, B. (2004). The role of autotrophic picocyanobacteria in calcite precipitation in an oligotrophic lake. Geomicrobiology Journal, 21(1), 45-53. https://doi.org/10.1080/01490450490253455
New organic matter degradation proxies: valid in lake systems?
Meckler, A. N., Schubert, C. J., Cowie, G. L., Peiffer, S., & Dittrich, M. (2004). New organic matter degradation proxies: valid in lake systems? Limnology and Oceanography, 49(6), 2023-2033. https://doi.org/10.4319/lo.2004.49.6.2023
Induced calcite precipitation by cyanobacterium <I>Synechococcus</I>
Dittrich, M., Müller, B., Mavrocordatos, D., & Wehrli, B. (2003). Induced calcite precipitation by cyanobacterium Synechococcus. Acta Hydrochimica et Hydrobiologica, 31(2), 162-169. https://doi.org/10.1002/aheh.200300486