Summary
It is shown that it is possible to obtain an indication of the parental value of heterozygous cultivars of potatoes for the characters breeders' preference, total tuber weight, mean tuber weight and number of tubers. Three methods of predicting the characteristics of progeny produced from particular parental cultivars were examined, namely: univariate cross prediction (based on mean and variance), mid-parent values and mid-self values. All provided some indication of which crosses would give superior progeny, but univariate cross prediction gave rankings which correlated most highly with observed performance in the second clonal year for the characters breeders' preference and total tuber weight. Interestingly, mid-self values gave the best predictions in the case of mean tuber weight and number of tubers. It is suggested that such predictions of ‘parental value’, especially when based on univariate cross prediction at the seedling stage, are worth carrying out in practical breeding programmes.
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Anonymous (1987) Classified list of potato varieties, England and Wales, National Institute of Agricultural Botany, Cambridge, pp 8–11
Brown J, Caligari PDS (1988) The use of multivariate cross prediction methods in the breeding of a clonally reproduced crop (Solanum tuberosum). Heredity 60:147–153
Brown J, Caligari PDS, Mackay GR, Swan GEL (1984) The efficiency of seedling selection by visual preference in a potato breeding programme. J Agric Sci 103:339–346
Brown J, Caligari PDS, Mackay GR, Swan GEL (1987) The efficiency of visual selection in early generations of a potato breeding programme. Ann Appl Biol 110:357–363
Brown J, Caligari PDS, Dale MFB, Swan GEL, Mackay GR (1988) The use of cross prediction methods in a practical potato breeding programme. Theor Appl Genet 76:33–38
Caligari PDS, Brown J (1986) The use of univariate cross prediction methods in the breeding of a clonally reproduced crop (Solanum tuberosum). Heredity 57:395–401
Caligari PDS, Powell W, Jinks JL (1985) The use of doubled haploids in barley breeding. Heredity 54:353–358
Chitsay M (1984) Inheritance of factors affecting quality of processed potato (Solanum tuberosum group tuberosum L.). Diss Abstr Int B 45:24B
Dalianis CD, Plaisted RL, Patterson LC (1966) Selection for freedom from after cooking blackening in potato breeding program. Am Potato J 43:207–215
Griffin B (1956) Concept of general and specific combining ability in relation to diallel crossing systems. Aust J Biol Sci 9:463–493
Jinks JL, Pooni HS (1976) Predicting the properties of recombinant inbred lines derived by single seed descent. Heredity 36:253–266
Jinks JL, Pooni HS (1980) Comparing predictions of mean performance and environmental sensitivity of recombinant lines based on F3 and triple test cross families. Heredity 45:305–312
Kempthorne O, Curnow RN (1961) The partial diallel cross. Biometrics 17:229–250
Killick RJ (1976) Genetic analysis of several traits in potatoes by means of a diallel cross. Ann Appl Biol 86:279–289
Killick RJ, Malcolmson JK (1973) Inheritance in potatoes of field resistance to late blight (Phytophthora infestons). Physiol Plant Pathol 3:121–131
Masson MF (1985) Mapping, combining abilities, heritabilities and heterosis with 4x x 2x crosses in potato. Diss Abst Int B 46:1448
Pfeffer C, Effmert M (1985) Breeding homozygous parents for resistance to potato scab caused by Streptomyces scabies (Thaxt) Waksman et Henrici. Arch Züchtungsforsch 15:325–333
Phillips MS, Dale MFB (1982) Assessing potato seedling progenies for resistance to the white potato cyst nematode. J Agric Sci 99:67–70
Pika NA, Tarasenko VA (1985) Evaluation of potato varieties for combining ability for starch content by means of a twotester topcross. Genetika 21:1856–1863
Pika NA, Tarasenko VA, Mitsko VN (1984) Combining ability of potato varieties and hybrids from tuber flesh blackening after cooking. Sel Semenovod 7:16–17
Plaisted RL, Patterson LC (1963) Two cycles at phenotypic recurrent selection for high specific gravity. Am Potato J 40:396–402
Plaisted RL, Sanford L, Federer WT, Kehr AE, Peterson LC (1962) Specific and general combining ability fo yield in potatoes. Am Potato J 39:185–197
Pooni HS, Jinks JL (1985) Predicting the properties of first cycle inbreeds and second cycle hybrids extracted from two, three and four parent crosses. Heredity 54:397–411
Rowell AB, Ewing EE, Plaisted RL (1986) General combining ability of Neotuberosum for potato prediction from true seed. Am Potato J 63:141–153
Snape JW, Parker P (1986) Cross prediction in wheat using F3 data. In: Prov IV Meet EUCARPIA Sec Biometrics, Birmingham, pp 359–369
Sprague GF, Tatum LA (1942) General versus specific combining ability in single crosses of corn. J Amer Soc Agron 34:923–932
Tai GCC (1976) Estimation of general and specific combining abilities in potato. Can J Genet Cytol 18:463–470
Thomas WTB, Tapsall CR, Powell W (1986) The application of cross prediction in spring barley. In: Proc IV Meet EUCARPIA Sec, Biometrics, Birmingham, pp 80–89
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Communicated by A.R. Hallauer
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Brown, J., Caligari, P.D.S. Cross prediction in a potato breeding programme by evaluation of parental material. Theoret. Appl. Genetics 77, 246–252 (1989). https://doi.org/10.1007/BF00266194
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DOI: https://doi.org/10.1007/BF00266194