This is a preview of subscription content, log in via an institution to check access.
References
Anderson, E. &Sax, K. (1935). Chromosome numbers in the Hamamelidaceae and their phylogenetic significance.J. Arnold. Arbor.16, 210–15.
Babcock, E. B. (1936). The origin ofCrepis and related genera.Essays on Geobotany in honour of William Albert Setchell, pp. 9–53. Univ. Calif. Press.
Babcock, E. B. &Cameron, D. R. (1934). Chromosomes and phylogeny inCrepis. II. The relationships of one hundred and eight species.Univ. Calif. Publ. Agric. Sci.6, 287–324.
Babcock, E. B. &Navashin, M. (1930). The genusCrepis.Bibliogr. genet.6, 1–90.
Brunn, H. G. (1932). Cytological studies inPrimula, with special reference to the relation between karyology and taxonomy of the genus.Symb. bot. upsaliens,1, 1–239.
Collins, J. L. &Mann, M. C. (1923). Interspecific hybrids inCrepis. II. A preliminary report on the results of hybridizingC. setosa Hall withC. capillaris L. Wallr. andC. biennis L..Genetics,8, 212–32.
Darlington, C. D. (1929). Chromosome behaviour and structural hybridity in the Tradescantiae.J. Genet.21, 207–86.
Darlington, C. D. (1937).Recent Advances in Cytology, 2nd ed. London: Churchill.
Hassib, M. (1938). Cucurbitaceae in Egypt.The Fouad I Univ. Faculty Sci. Publ. no. 3.
Kozhukhow, S. A. (1925). Karyotypische eigentumlichkeiten der kultivierten Cucurbitaceae.Bull. Appl. Bot. Pl. Breed.14, 89–96.
Kozhukhow, S. A. (1930). Karyological investigations of the genusCucumis.Bull. Appl. Bot. Pl. Breed.23, 357–66.
La Cour, L. (1931). Improvement in everyday technique in plant cytology.J. Roy. Micr. Soc.51, 119–26.
Lammerts, W. E. (1932). An experimentally produced secondary polyploid in the genusNicotiana.Cytología, Tokyo,4, 38–45.
Lawrence, W. J. C. (1931). The chromosome constitution ofCardamene Pratensis andVerbascum phoeniceum.Genetica,13, 183–207.
Manton, I. (1934). The problem ofBiscutella Laevigata L.Z. indukt. Abstamm.- u. VerebLehre,67, 41–57.
Mather, K. (1932). Chromosome variation inCrocus. I.J. Genet.26, 129–42.
Mather, K. &Stone, L. H. A. (1932). The effect of X-radiation upon somatic chromosomes.J. Genet.28, 1–24.
Matsuda, H. (1927). On the origin of big pollen grains with an abnormal number of chromosomes.Cellule,38, 2.
Matsuda, H. (1930). Further studies on the origin of giant pollen grains inPetunia.Proc. Corp. Sci. Soc. Japan,2, 2.
McKay, J. W. (1930). Chromosome numbers in the Cucurbitaceae.Bot. Gaz.89, 416–17.
McKay, J. W. (1931). Chromosome studies in the Cucurbitaceae.Univ. Calif. Publ. Bot.16, No. 9, 339–50.
Moffett, A. A. (1931). Chromosome constitution of Pomoidae.Proc. Roy. Soc. B,108, 423–46.
Moffett, A. A. (1932). Studies on the formation of multinuclear giant pollen grains inKniphofia.J. Genet.25, 315–37.
Muntzing, A. (1935). Cyto-genetic studies in hybrids between twoPhleum species.Hereditas, Lund,20, 103–36.
Navashin, M. (1932). The dislocation hypothesis of evolution of chromosome numbers.Z. indukt. Abstamm.- u. Vererb Lehre,63, 224–31.
Passmore, S. F. (1930). Microsporogenesis in the Cucurbitaceae.Bot. Gaz.90, 213–23.
Shimotomai, N. (1933). Zur Karyogenetic der gattungChrysanthemum.J. Sci. Hiroshima Univ. B, div. 2, pp. 1–100.
Smith, S.-G. (1932). Cytology ofAnchusa and its relation to the taxonomy of the genus.Bot. Gaz.94, 394–403.
Stockwell, P. (1935). Chromosome numbers of some Cactaceae.Bot. Gaz.96, 565–70.
Whitaker, T. W. (1930). Chromosome numbers in the cultivated Cucurbits.Am. Journ. Bot.17, 1033–40.
Author information
Authors and Affiliations
Additional information
(With 11 Text-figures)
Rights and permissions
About this article
Cite this article
Afify, A. Cytological studies in the cucurbitaceae and their evolutionary significance. Journ. of Genetics 46, 116–124 (1944). https://doi.org/10.1007/BF02986696
Issue Date:
DOI: https://doi.org/10.1007/BF02986696