B. Papp szerk.: Studia Botanica Hungarica 30-31. 1999-2000 (Budapest, 2000)

Rákosi, László; Barbacka, Mária: Upper Cretaceous flora from Ajka (W Hungary). I. Thallophyta

The sizes of the identified spores and massulae, respectively, indicate a sedi­mentary process among undisturbed, near-shore conditions. The presence of mega­spore species, however, refers to humid, dystrophic boggy soil, to undisturbed nu­tritious water surface and perhaps an environment provided by brackish water or standing water stretches of rivers. REFERENCES BATTEN, D. J. and ZAVATTIERI, A. M. (1996): Occurrence of dispersed seed cuticles and similar microfossils in mainly Cretaceous successions of the Northern Hemisphere. - Cretaceous Re­search 16: 73-94. BERGAD, R. D. (1973): North American species of the Cretaceous megaspores Balmeisporites and Monophyllosporites. -Micropalaeontology 19: 53-67. BERGAD, R. D. (1978): Ultrastruclural studies of selected North American Cretaceous megaspores of Minerisporites, Erlansonisporites, Horstisporites, and Ricinospora, n. gen. - Palynology 2: 39-53. BINDA, P. j. and NAMBUDIRI, E. M. (1983): Fossil seed cuticles from the Upper Cretaceous Whitemud beds of Alberta and Saskatchewan, Canada. - Can. J. Bot. 61: 2717-2728. BRENNER, G. J. (1963): The spores and pollen of the Potomac group of Maryland. -Maryland Dep. Geol. Mines Water Res. 27: 1-225. Coll inson, M. E. (1978): Dispersed fern sporangia from the British Tertiary.— Ann. Bot. 42: 233—250. CSÁSZÁR, G. h. and BODROGI, I. (1985): Munieriak a magyarországi krétában. [Munieria sp. from the Hungarian Cretaceous]. - M. Áll. Földi. Int. Évi Jel. 1983: 167-212. CSÁSZÁR, G. H. and GÓCZÁN, F. (1988): A Bakony felső-kréta kőszénkutatás és kőszén láp vizsgálat. (Upper Cretaceous coal prospecting and peat bog studies in the Bakony Mts). - M. Áll. Földt. Int. Évi Jel. 1986: 155-178. DIJKSTRA, S. J. (1961): Some Palaeocene megaspores and other small fossils. - Meded. Geol. Stichting., n. s., 13: 5-1 !. ELLIS, C. H. and TSCHUDY, R. H. (1964): The Cretaceous megaspore genus Arellites Miner. ­Micropalaeontology 10: 73-79. GELLAI, M. and TÓTH, K. (1982): Munieriak a Sümeg - Gyepükaján környéki szenonból (ajkai formáció). (Munieria sp. from the Senonian of Sümeg - Gyepükaján - Ajka Formation. ­Földt. Közi. 112(3): 267-274. GÓCZÁN, F., SIEGL-FARKAS, A., MORA-CABALAY, L., RIMANÓCZY, A., VlCZIAN, J., RÁKOSI, L., CSALAGOVITS, .1. and PARTÉNYI, Z. (1986): Ajka Coal Formation: biostratigraphy and geohistory. - Acta Geol. Hung. 29(3-4): 221-231. GREGUSS, P. (1949): Az ajkai felsőkrctakorú barnakőszén fuzitzárványok meghatározása (Podocar­poxylon ajkaense nov.sp.). (Bestimmung des Fusit-Einschlusses der Braunkohle von Ajka aus der oberen Kreidezeit. (Podocarpoxylon ajkaense nov. sp.)).-Földt. Közl 1949(9-12): 1-15. GUNTHER, P. R. and HILLS, L. V. (1972): Megaspores and other palynomorps of the Brazeau Forma­tion (Upper Cretaceous), Nordegg Area, Alberta. - Geoscience and Man 4: 29^48. HALL, J. W. (1967): Invalidity of the name Chrysotheca Miner for microfossils. -/. Palaeontol. 41: 1298-1299. HALL, J. W. (1974): Cretaceous Salviniaceae. - Ann. Missouri Bot. Gard. 61: 354-367. HORST, U. (1954): Merkwürdige Gebildein Kohlen aus dem Wealden. - Geologie, Berlin, 3: 610-612.

Next