Summary
A knowledge of the pattern of flowering and seed production is required for the development of large-scale field production of True Potato Seed (TPS). At the highland experimental station of the International Potato Center in Peru, data on flowering and seed production were collected from three cultivars planted at three densities.
Main stems in which flowering was delayed ceased shoot growth at an earlier stage and produced fewer inflorescences. Inflorescences produced later had fewer flowers, a lower berry set and yielded less seed. Inflorescences flowering at the same time performed similarly, irrespective of their position on the plant. Increasing plant density resulted in cessation of shoot growth at an earlier stage and concentrated inflorescence and flower production at primary positions of early-flowering shoots. With cvs Renacimiento and Yungay a higher plant density increased the percentage of flowers produced in the first three weeks of the flowering period, but with cv. Atzimba the effect of plant density on the distribution of flower production was off-set by a slower stem development.
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References
Almekinders, C. J. M., 1991. Flowering and true seed production in potato (Solanum tuberosum L.). 2. Effects of stem density and pruning of lateral stems.Potato Research 34: 379–388.
Almekinders, C. J. M., 1992. The effect of photoperiod on flowering and TPS production in the warm tropics.Potato Research 35: 433–442.
Almekinders, C. J. M. & S. G. Wiersema, 1991. Flowering and true seed production in potato (Solanum tuberosum L.). 1. Effects of inflorescence position, nitrogen treatment, and harvest date of berries.Potato Research 34: 365–377.
Darwinkel, A., 1978. Patterns of tillering and grain production of winter wheat at a wide range of plant densities.Netherlands Journal of Agricultural Science 26: 383–398.
Fery, R. L. & J. Janick, 1970. Response of the tomato to population pressure.Journal of American Society of Horticultural Science 95: 614–624.
Firman, D. M., P. J. O. O'Brien & E. J. Allen, 1991. Leaf and flower initiation in potato (Solanum tuberosum) sprouts and stems in relation to the number of nodes and tuber initiation.Journal of Agricultural Science 117: 61–74.
Gray, D. & J. R. A. Steckel, 1983. Seed quality in carrots: the effects of seed crop plant density, harvest date and seed grading on seed and seedling variability.Journal of Horticultural Science 58: 393–401.
Gray, D., J. R. A. Steckel & J. A. Ward, 1985. The effect of plant density, harvest date and method on the yield of seed and components of yield of parsnip.Annals of Applied Biology 107: 547–558.
Jones, H. A. & H. A. Borthwick, 1938. Influence of photoperiod and other factors on the formation of flower primordia in the potato.American Potato Journal 15: 331–336.
Malagamba, P., 1988. Potato production from true seed.HortScience 23: 495–499.
Pallais, N., S. Villagarcia, N. Fong, J. Tapia & R. Garcia, 1987. Effect of supplemental nitrogen on true potato seed weight.American Potato Journal 64: 483–491.
Vos, J. & H. Biemond, 1992. Effects of nitrogen on the development and growth of the potato plant. 1. Leaf appearance, expansion growth, life spans of leaves and stem branching.Annals of Botany 70: 27–35.
Vos, J. & T. Klemke, 1992. The foliar development of the potato plant and modulations by environmental factors (provisional title). In: B. van den Broek, H. van Keulen, B. Marshall & J. Vos (Eds),Concepts and models for the simulation of potato production (provisional title). Simulation Monographs. Pudoc, Wageningen (in press).
Wiersema, S. G., 1986. A method of producing seed tubers from true potato seed.Potato Research 29: 229–237.
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Almekinders, C.J.M. Effect of plant density on the inflorescence production of stems and the distribution of flower production in potato. Potato Res 36, 97–105 (1993). https://doi.org/10.1007/BF02358724
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DOI: https://doi.org/10.1007/BF02358724