Processes in karst systems: physics, chemistry, and geology W Dreybrodt Springer Science & Business Media, 2012 | 799 | 2012 |
The kinetics of calcite dissolution and precipitation in geologically relevant situations of karst areas: 1. Open system D Buhmann, W Dreybrodt Chemical geology 48 (1-4), 189-211, 1985 | 483 | 1985 |
A new direction in effective accounting for the atmospheric CO2 budget: Considering the combined action of carbonate dissolution, the global water cycle and photosynthetic … Z Liu, W Dreybrodt, H Wang Earth-Science Reviews 99 (3-4), 162-172, 2010 | 447 | 2010 |
Testing theoretically predicted stalagmite growth rate with recent annually laminated samples: Implications for past stalagmite deposition A Baker, D Genty, W Dreybrodt, WL Barnes, NJ Mockler, J Grapes Geochimica et Cosmochimica Acta 62 (3), 393-404, 1998 | 314 | 1998 |
Dissolution kinetics of calcium carbonate minerals in H2O CO2 solutions in turbulent flow: The role of the diffusion boundary layer and the slow reaction H2O+ CO2→ H++ HCO3− Z Liu, W Dreybrod Geochimica et cosmochimica acta 61 (14), 2879-2889, 1997 | 301 | 1997 |
The role of dissolution kinetics in the development of karst aquifers in limestone: a model simulation of karst evolution W Dreybrodt The Journal of Geology 98 (5), 639-655, 1990 | 284 | 1990 |
Speleogenesis evolution of Karst aquifers AB Kimchouk, DC Ford, AN Palmer, W Dreybrodt National Speleological Society, 2000 | 278 | 2000 |
The kinetics of the reaction CO2+ H2O→ H++ HCO3− as one of the rate limiting steps for the dissolution of calcite in the system H2O CO2 CaCO3 W Dreybrodt, J Lauckner, L Zaihua, U Svensson, D Buhmann Geochimica et Cosmochimica Acta 60 (18), 3375-3381, 1996 | 271 | 1996 |
Principles of early development of karst conduits under natural and man‐made conditions revealed by mathematical analysis of numerical models W Dreybrodt Water Resources Research 32 (9), 2923-2935, 1996 | 271 | 1996 |
Climatic dependence of stable carbon and oxygen isotope signals recorded in speleothems: From soil water to speleothem calcite W Dreybrodt, D Scholz Geochimica et Cosmochimica Acta 75 (3), 734-752, 2011 | 270 | 2011 |
Dissolution kinetics of natural calcite minerals in CO2-water systems approaching calcite equilibrium U Svensson, W Dreybrodt Chemical Geology 100 (1-2), 129-145, 1992 | 264 | 1992 |
Atmospheric CO2 sink: silicate weathering or carbonate weathering? Z Liu, W Dreybrodt, H Liu Applied Geochemistry 26, S292-S294, 2011 | 245 | 2011 |
Surface controlled dissolution rates of gypsum in aqueous solutions exhibit nonlinear dissolution kinetics AA Jeschke, K Vosbeck, W Dreybrodt Geochimica et Cosmochimica Acta 65 (1), 27-34, 2001 | 236 | 2001 |
Chemical kinetics, speleothem growth and climate W Dreybrodt Boreas 28 (3), 347-356, 1999 | 230 | 1999 |
A mass transfer model for dissolution and precipitation of calcite from solutions in turbulent motion W Dreybrodt, D Buhmann Chemical Geology 90 (1-2), 107-122, 1991 | 228 | 1991 |
Processes of a Speleogenessis [sic]: a modeling approach W Dreybrodt, F Gabrovšek, D Romanov Založba ZRC, 2005 | 209 | 2005 |
Hydrodynamic control of inorganic calcite precipitation in Huanglong Ravine, China: Field measurements and theoretical prediction of deposition rates L Zaihua, U Svensson, W Dreybrodt, Y Daoxian, D Buhmann Geochimica et Cosmochimica Acta 59 (15), 3087-3097, 1995 | 208 | 1995 |
Determination of the electron masses in stannic oxide by submillimeter cyclotron resonance KJ Button, CG Fonstad, W Dreybrodt Physical Review B 4 (12), 4539, 1971 | 198 | 1971 |
Precipitation kinetics of calcite in the system CaCO3 H2O C02: The conversion to CO2 by the slow process H++ HCO3−→ CO2+ H2O as a rate limiting step W Dreybrodt, L Eisenlohr, B Madry, S Ringer Geochimica et Cosmochimica Acta 61 (18), 3897-3904, 1997 | 193 | 1997 |
Theory of degenerate excitons in zinc-blende-type crystals in a magnetic field: Exchange interaction and cubic anisotropy K Cho, S Suga, W Dreybrodt, F Willmann Physical Review B 11 (4), 1512, 1975 | 193 | 1975 |