Dedolomitization by meteoric fluids: the Korbach fissure of the Hessian Zechstein basin, Germany

Allan, 1982, Isotope signatures associated with early meteoric diagenesis, Sedimentology, 29, 797, 10.1111/j.1365-3091.1982.tb00085.x Becker, F., Zeeh, S., 2000. Untersuchungen zur Diagenese und Isotopengeochemie (δ18O und δ13C) der Zechstein-1 Karbonate der Fossillagerstätte Korbacher Spalte und ihrer Umgebung (NW-Hessen). Geologisches Jahrbuch Hessen. Grossman, E.L., 1994. The carbon and oxygen isotope record during the evolution of Pangea: Carboniferous to Triassic. In: Klein, G.D. (Ed.), Pangea: Paleoclimate, Tectonics, and Sedimentation During Accretion, Zenith, and Breakup of a Supercontinent, Spec. Paper Geol. Soc. Am., vol. 288, pp. 207–228. Lohmann, K.C., 1982. “Inverted J” carbon and oxygen isotopic trends: a criterion for shallow meteoric phreatic diagenesis. Geol. Soc. Am., Abstracts with Programs, vol. 14, p. 548. Meyers, W.J., Lohmann, K.C., 1985. Isotope geochemistry of regionally extensive calcite cement zones and marine components in Mississippian limestones, New Mexico. In: Schneidermann, N., Harris, P.M. (Eds.), Carbonate Cements, Spec. Publ. Soc. Econ. Paleont. Mineral., vol. 36, pp. 223–239. Richter-Bernburg, 1950, Zwei Beiträge zur Fazies, Tektonik und Kupferführung des Zechsteins: I. Waldeck, II, Nordsudeten. Geol. Jb., 65, 145 Smith, D.B., 1980. The evolution of the English Zechstein basin. In: Füchtbauer, H., Peryt, T. (Eds.), The Zechstein basin with emphasis on carbonate sequences, Contr. Sedimentology, vol. 9, pp. 7–34. Sues, 1996, A remarkable assemblage of terrestrial tetrapods from the Zechstein (Upper Permian: Tatarian) near Korbach (northwestern Hesse), Paläont. Z., 70, 213, 10.1007/BF02988279 Ziegler, P.A., 1990. Geological atlas of Western and Central Europe. Shell Internationale Petroleum Matschappij B.V., The Hague.