. The effects of inbreeding and crossbreeding upon development. Hybridization. A THEORETICAL CONSIDERATION OF INBREEDING. 23 zygotes the reduction in the number of heterozygous elements proceeds as a variable approaching a limit by one half the differ- ence in each generation. The curve illustrating this condition is shown as No. 1 in Fig. I. Various formulae dealing with 100$ Percent of Heterozygous Individuals in Each Selfed Generation when the Number of Allelomorphs Concerned Are: 1,5,10, 10 Segregating Generations Figure I. The percent of heterozygous individuals and the percent of het
. The effects of inbreeding and crossbreeding upon development. Hybridization. A THEORETICAL CONSIDERATION OF INBREEDING. 23 zygotes the reduction in the number of heterozygous elements proceeds as a variable approaching a limit by one half the differ- ence in each generation. The curve illustrating this condition is shown as No. 1 in Fig. I. Various formulae dealing with 100$ Percent of Heterozygous Individuals in Each Selfed Generation when the Number of Allelomorphs Concerned Are: 1,5,10, 10 Segregating Generations Figure I. The percent of heterozygous individuals and the percent of heterozygous allelomorphic pairs in the whole population in each generation of self-fertilization. inbreeding have been discussed by East and Hayes ('12), Jennings ('12, '16), Pearl ('15) and Bruce ('17). It should be remembered that this reduction applies only to the whole population in which every member is inbred and all. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original Jones, Donald Forsha, 1890-. New Haven : Connecticut Agricultural Experiment Station
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