L. Lőkös szerk.: Studia Botanica Hungarica 24. 1993 (Budapest, 1993)
Kereszty, Zoltán: The distribution of the genus Scilla in Hungary
CHANDRA, R. S. (1971): Chromosome study in different species of Scilla. —Rev. Roumaine Embr. et Cyt., Ser. Cyt., 8: 29-35. DARLINGTON, C. D. (1926): Chromosome studies in the Scillae. —Jour. Genet. 16: 237-251. DARLINGTON, C. D. (1934): Chromosome studies in the Scillae. II. —Jour. Genet. 29: 85-98. DE WET, J. M. J. (1957): Chromosome numbers in the Scillae. — Cytologia 22: 145-159. EBÉRT, L., GREILHUBER, J., SWOMA. E. and SPETA, F. (1983): Taxonomic significance of embryology in Scilla (Liliaceae). — Acta Bot. Nederl. 32: 356-357. FIVAWO, C. L. and REES, H. (1985): Chromosome size variation during pollen grain development in Scilla sibirica. — Theor. Appl. Genet. 70: 417-421. FRISCH, B. and NAGL, W. (1979): Patterns of endopolyploidy and 2 nuclear DNA content (Feulgen) in Scilla bifolia (Liliaceae). —Plant Syst. Evol. 131: 261-276. GIMENEZ, G. (1959): Estudio cariologico en especies de Scilla L.; S. tubergeniana Hoog., S. siberica L.; S. amoena L.; S. roseni C. Koch; S. bithynica Boiss. — Phyton (Argentina) 12: 121-129. GIMENEZ, G. (1959): Caryologia de Scilla 11. — Phyton (Argentina) 13: 145-152. GIMENEZ, G. (1959): Caryologia de Scilla 111.— Phyton (Argentina) 13: 153-162. GlMENEZ, G. (1959): Numero cromosomico en especies de Scilla. — Genet. Iber. 11: 97. GIMENEZ, G. and BURGOS, J. A. (1957): Variáción cromosomica numérica de Scilla maritima L. Espanola espontanea. — Genet. Iber. 9: 293-300. GIMENEZ, G., LOPEZ, J. and GONZALES, A (1963): On the structure of the cromosomes of Scilla non-scripta. —Experientia 19: 10: 5-26. GORINDAPPA, D. A. (1956): The development of endosperm in Scilla indica Baker. — Curr. Sei. (India) 25(5): 198-199. GREILHUBER, J. (1978): DNA-contents, Giemsa banding, and systematics in Scilla bifolia, S. drunensis, and 5. vindobonensis (Liliaceae). —Plant Syst. Evol. 130: 223-233. GREILHUBER, J. (1979): Evolutionary changes of DNA and heterochromatin amounts in the Scilla bifolia group (Liliaceae). —Plant Syst. Evol, Suppl, 2: 263-280. GREILHUBER, J. and SPETA, F. (1976): C-banded caryotypes in the Scilla hohenackeri group, 5. persica, and Puschkinia (Liliaceae). —Plant Syst. Evol. 126: 149-188. GREILHUBER, J. and SPETA, F. (1977): Giemsa karyotypes and their evolutionary significance in Scilla bifolia; S. drunensis and S. vindobonensis. —Plant Syst. Evol. 127: 171-190. GREILHUBER, J. and SPETA, F (1978): Quantitative analyses of C-Banded karyotypes, and systematics in the cultivated species of the Scilla siberica group (Liliaceae). — Plant Syst. Evol. 129: 63-109. GREILHUBER, J. and SPETA, F. (1985): Geographical variation of genome size at low taxonomic levels in the Scilla bifolia alliance (Hyacinthaceae). —Flora 176: 431-438. GREILHUBER, J. and STREHL, S. (1985): Deviating basic genome size in a hexaploid population of Scilla bifolia agg. in the valley Kreuttal (Weinviertel; Lower Austria). —Stapfia (Linz) 14: 127-134. GREILHUBER, J., DEUMLING, B. and SPETA, F. (1981): Evolutionary aspects of chromosome banding, heterochromatin, satellite DNA, and genome size in Scilla (Liliaceae). — Ber. Deutsch. Bot. Ges. 94: 249-266. GUILLEN, A. and REJON, M. R. (1984): Structural variability and chromosome numbers variation in natural populations of Scilla autumnalis (Liliaceae). — Plant Syst. Evol. 144: 201-207. GYŐZŐ, K. (1989): Kalluszindukció és növényregeneráció a hazai Scilla spetana (Liliaceae) in vitro szövettenyészetében. [Callus induction and plant regeneration in the in vitro cell culture of Scilla spetana (Liliaceae).] — Diplomamunka, [Diplomawork], ELTE, Budapest, (manuscr.).
