References
Beasley, J. O. (1940). The origin of American tetraploidGossypium species.Amer. Nat. 74, 285.
Beasley, J. O. (1942). Meiotic chromosome bebaviour in species, species hybrids, haploids and induced polyploids ofGossypium.Genetics,27, 25.
Clausen, R. E. (1941). Polyploidy inNicotiana.Amer. Nat. 75, 291.
Dobzhansky, T. (1941).Genetics and the Origin of Species. New York: Columbia University Press.
Harland, S. C. (1929). The inheritance of petal spot in New World cottons.J. Genet. 20, 365.
Harland, S. C. (1932). The genetics of cotton.Bibliogr. genet. 9, 107.
Harland, S. C. (1934). Two cases of linkage in New World cottons.Trop. Agriculture, Trin. 11, 316.
Harland, S. C. (1935). Homologous genes for anthocyanin pigmentation in New and Old World cottons.J Genet. 30, 465.
Harland, S. C. (1936). The genetical conception of the species.Biol. Rev. 11, 82.
Harland, S. C. (1937). Increased mutability of a gene inG. purpurascens as a consequence of hybridization withG. hirsutum.J. Genet. 34, 158.
Harland, S. C. (1939).The Genetics of Cotton. London: Jonathan Cape.
Harland, S. C. (1940). New polyploids in cotton by the use of colchicine.Trop. Agriculture, Trin. 17, 53.
Harland, S. C. &Atteck, O. M. (1941a). Transference of genes from diploid North American wild cottons to tetraploid New World cottons.J. Genet. 42, 1.
Harland, S. C. &Atteck, O. M. (1941b). Normal alleles of the crinkled mutant ofGossypium barbadense L. differing in dominance potency.J. Genet. 42, 21.
Hutchinson, J. B. (in press). The classification of the genusGossypium.
Hutchinson, J. B. &Silow, R. A. (1939). Gene symbols for use in cotton genetics.J. Hered. 30, 461.
Kearney, T. H. (1930). Short branch, another character of cotton showing monohybrid inheritance.J. Agric. Res. 41, 379.
Manton, I. (1932).Ann. Bot., Lond.,46, 509.
Neely, J. W. (1942). Inheritance of cluster habit and its linkage relation with anthocyanin pigmentation in Upland cotton.J. Agric. Res. 64, 105.
Silow, R. A. (1940).Progress Reports from Exp. Stations. Empire Cotton Growing Corporation. London, p. 172.
Silow, R. A. (1941). The comparative genetics ofGossypium anomalum and the cultivated Asiatic cottons.J. Genet. 42, 259.
Silow, R. A. (1944). The genetics of species development in the Old World cottons.J. Genet. 46, 62.
Silow, R. A. &Yu, C. R. (1942). Anthocyanin pattern in Asiatic cottons.J. Genet. 43, 249.
Skovsted, A. (1934). Two interspecific hybrids between Asiatic and New World cottons.J. Genet. 28, 407.
Skovsted, A. (1937). Chromosome conjugation in interspecific hybrids in cotton.J. Genet. 34, 97.
Stadler, L. J. (1929). Chromosome number and the mutation rate inAvena andTriticum.Proc. Nat. Acad. Sci., Wash.,15, 876.
Stephens, S. G. (1942). Colchicine-produced polyploids inGossypium. I.J. Genet. 44, 272.
Stephens, S. G. (1944a). Phenogenetic evidence for the amphidiploid origin of New World cottons.Nature, Lond.,153, 53.
Stephens, S. G. (1944b). The genetic organization of leaf shape development in the genusGossypium.J. Genet. 46, 28.
Stern, C. &Schaeffer, E. W. (1943). On wild type iso-alleles inDrosophila melanogaster.Proc. Nat. Acad. Sci., Wash.,29, 361.
Stroman, G. N. & Mahoney, C. H. (1925). Heritable chlorophyll deficiencies in seedling cotton.Bull. Texas Agric. Exp. Sta. no. 333.
Texas Agric. Exp. Sta. (1928). 41st Annual Report, 1928. 143 pp.
Thadani, K. (1923). Linkage relations in the cotton plant.Agric. J. India,18, 572.
Author information
Authors and Affiliations
Additional information
Formerly of the Empire Cotton Growing Corporation, Cotton Research Station, Trinidad, B.W.I.
Rights and permissions
About this article
Cite this article
Silow, R.A. Evidence on chromosome homology and gene homology in the amphidiploid new world cottons. Journ. of Genetics 47, 213–221 (1946). https://doi.org/10.1007/BF02986788
Issue Date:
DOI: https://doi.org/10.1007/BF02986788