Summary
To determine whether in potatoes the tetraploid level is preferable to the diploid level, especially regarding tuber yield, four diploid (2n=2×=24) Solanum phureja x dihaploid S. tuberosum hybrid parents and their vegetatively doubled, tetraploid (2n=4×=48) counterparts were intermated, which resulted in two F1 hybrid families at both levels of ploidy. The parents and clones of the F1 families and their offspring were used in crosses in such a way that in addition Sib1, Sib2, F1×Sib1, BC1 and Sib1×Sib1 families were produced. Of the first clonal generation of the 12 2 x families and their 12 counterpart 4 x families two tubers per clone were planted in three replications in a field experiment at Sturgeon Bay in 1969; of the parents six tubers were planted in each replication. Data were recorded on 16 characters, including plant height at four different times.
The ANOVA's showed significant clone effects within each family for all characters. Computed from all family means as well as from the family means per ploidy level, differences due to family were also significant for all characters except one.
As at the 2 x level and at the 4 x level of ploidy the mean phenotypic correlations between characters were of similar magnitude, it is concluded that they are independent of ploidy level.
With the exception of eye depth, the mean coefficient of variation was greater at the 2 x than at the 4 x level of ploidy, indicating the greatest response to selection for those characters at the 2 x level. From the differences in family means between the 4 x and the 2 x level of ploidy it was apparent that the 4 x families generally had significantly taller plants, later maturity, fewer tubers, higher mean tuber weight, more tuber yield and more dry matter yield than their counterpart 2 x families. In contrast, the 4 x parents had on the average shorter plants, lower mean tuber weight, much lower tuber yield and lower dry matter yield than their 2 x counterparts.
The phenotypic correlation and Spearman's rank correlation between the family means of the 2 x and the 4 x level of ploidy were positive for almost all characters and significant for nearly half of them.
From the results it is concluded that 1. in potatoes the 4 x level of ploidy is preferable to the 2 x level, and 2. the performance of 4 x families is predictable from the performance of their counterpart 2 x families.
Based on results mentioned in the literature and on the present results, a continued use of S. tuberosum dihaploids in potato breeding needs to be dissuaded.
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References
Bradley, J.V., 1968. Distribution-free statistical tests. Prentice Hall, Inc., Englewood Cliffs, N.J., USA, 388 pp.
Chase, S.S., 1963. Analytic breeding in Solanum tuberosum L.-A scheme utilizing parthenotes and other diploid stocks. Can. J. Genet. Cytol. 5: 359–363.
De, Jong, H. & G.C.C., Tai, 1977. Analysis of tetraploid-diploid hybrids in cultivated potatoes. Potato Res. 20: 111–121.
De, Maine, M.J., 1984. Comparisons of photosynthesis and tuber yield of a dihaploid, its chromosome-doubled derivatives and parent. Potato Res. 27: 251–260.
Hougas, R.W. & S.J., Peloquin, 1958. The potential of potato haploids in breeding and genetic research. Am. Potato J. 35: 701–707.
Hougas, R.W., S.J., Peloquin & R.W., Ross, 1958. Haploids of the common potato. J. Heredity 49: 103–106.
Lundqvist, A., 1966. Heterosis and inbreeding depression in autotetraploid rye. Hereditas 56: 317–366.
Maris, B., 1962. Analyse van aardappelpopulaties ten dienste van de veredeling. Pudoc, Wageningen, 208 pp.
Maris, B., 1969. Studies on maturity, yield, under water weight and some other characters of potato progenies. Euphytica 18: 297–319.
Maris, B., 1988. Correlations within and between characters between and within generations as a measure for the early generation selection in potato breeding. Euphytica 37: 205–224.
McHale, N.A. & F.I., Lauer, 1981. Breeding value of 2n pollen from diploid hybrids and phureja in 4x−2x crosses in potatoes. Am. Potato J., 58: 365–374.
Mendiburu, A.O. & S.J., Peloquin, 1977. The significance of 2n gametes in potato breeding. Theor. Appl. Genet. 49: 53–61.
Mendoza, H.A. & F.L., Haynes, 1973. Some aspects of breeding and inbreeding in potatoes. Am. Potato J. 50: 216–222.
Mendoza, H.A. & F.L., Haynes, 1974. Genetic basis of heterosis for yield in the autotetraploid potato. Theor. Appl. Genet. 45: 21–25.
Mok, D.W.S. & S.J., Peloquin, 1975. Breeding value of 2n pollen (diplandroids) in tetraploid x diploid crosses in potatoes. Theor. Appl. Genet. 46: 307–314.
Quinn, A.A. & S.J., Peloquin, 1973. Use of experimental tetraploids in potato breeding. Am. Potato J. 50: 415–420.
Ross, R.W., L.A., Dionne & R.W., Hougas, 1967. Doubling the chromosome number of selected Solanum genotypes. Eur. Potato J. 10: 37–52.
Ross, R.W. & P.R. Rowe, 1965. Inventory of tuber-bearing Solanum species. Agric. Expt. Sta., Univ. of Wisc., Bull. 533, 73 pp.
Rowe, P.R., 1967. Performance of diploid and vegatively doubled clones of Phureja-haploid Tuberosum hybrids. Am. Potato J. 44: 195–203.
Rowe, P.R., 1967. Performance and variability of diploid and tetraploid potato families. Am. Potato J. 44: 263–271.
Sanford, J.C. & R.E., HennemanJr., 1982. Intermating of potato haploids and spontaneous sexual polyploidization. Effects on heterozygosity. Am. Patato J. 59: 407–414.
Schroeder, S.H. & S.J., Peloquin, 1983. Parental effects for yield and tuber appearance on 4x families from 4x×2x crosses. Am. Potato J. 60: 819.
Sekhon, B.S., 1968. Influence of heterozygosity and environment on yield of diploid and tetraploid potatoes. Ph.D. Thesis, Univ. of Wisconsin, 77 pp.
Tai, G.C.C. & H.De, Jong, 1980. Multivariate analysis of potato hybrids. I. Discrimination between tetraploid-diploid hybrid families and their relationship to cultivars. Can. J. Genet. Cytol. 22: 227–235.
Veilleux, R.E. & F.I., Lauer, 1981. Breeding behavior of yield components and hollow heart in tetraploid-diploid vs. conventional derived potato hybrids. Euphytica 30: 547–561.
Weber, E., 1967. Mathematische Grundlagen der Genetik. Fischer Verlag, Jena, 464 pp.
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Maris, B. Comparison of diploid and tetraploid potato families derived from Solanum phureja x dihaploid S. tuberosum hybrids and their vegetatively doubled counterparts. Euphytica 46, 15–33 (1990). https://doi.org/10.1007/BF00057615
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DOI: https://doi.org/10.1007/BF00057615