Summary
The potato tuber moth, Phthorimaea operculella (Zeller) is an important pest of potatoes in the field and in stores in warm environments throughout the world. In this study genetic resistance to potato tuber moth was identified in clones of Solanum sparsipilum (coded MBN) originally developed for resistance to bacterial wilt and root-knot nematode. Resistance to this pest in S. sucrense and S. tarijense as well as S. sparsipilum was exploited in wide crosses with diploid and tetraploid cultivated potatoes, and haploids derived from S. tuberosum; hybrid progenies were produced. Crosses between resistant S. pinnatisectum or S. commersonii and cultivated potatoes failed completely, although S. commersonii did hybridise with two bridging species S. lignicaule and S. capsicibaccatum which are slightly compatible with cultivated potatoes. Resistance to potato tuber moth was transferred to all progenies except those in which S. tarijense was the resistant parent. The development of potatoes resistant to potato tuber moth is discussed in the context of population breeding for the lowland tropics.
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References
Astley, D. & J.G.Hawkes, 1979. The nature of the bolivian weed potato species Solanum sucrense Hawkes. Euphytica 28: 685–696.
Chavez, R., 1984. The use of wide crosses in potato breeding. Ph.D. thesis, Univ. Birmingham.
Chavez, R., M.T.Jackson, P.E.Schmiediche & J.Franco, 1987a. The importance of wild potato species resistant to the potato cyst nematode, Globodera pallida, pathotypes Pa4 and Pa5, in potato breeding. I. Resistance studies. Euphytica 37: 9–14.
Chavez, R., M.T.Jackson, P.E.Schmiediche & J.Franco, 1987b. The importance of wild potato species resistant to the potato cyst nematode, Globodera pallida, pathotypes Pa4 and Pa5, in potato breeding. II. The crossability of resistant species. Euphytica 37: 15–22.
Couto, F.A.A., L.C.Sikka & S.P.R.Weerasinghe, 1983. The potato in the lower tropics. In: W.J.Hooker (Ed.), Research for the potato in the year 2000. International Potato Center, Lima, Peru.
Cribb, P.J. & J.G.Hawkes, 1986. Experimental evidence for the origin of Solanum tuberosum subspecies andigena. In: W.G.D'Arcy (Ed.), Solanaceae: biology and systematics. Columbia Univ. Press, New York.
Foot, M.A., 1976. Susceptibility of twenty potato cultivars to the potato tuber moth at Pukekohe: a preliminaryassessment. New Zealand J. Exp. Agric. 4: 239–242.
Haines, C.P., 1977. The potato tuber moth, Phthorimaea operculella (Zeller): a bibliography of recent literature and a review of its biology and control on potatoes in the field and in store. Rep. Trop. Prod. Inst. G112.
Hawkes, J.G., 1978. Biosystematics of the potato. In: P.M.Harris (Ed.), The potato crop. Chapman & Hall, London.
International Potato Center, 1984. Potatoes for the developing world. Lima, Peru.
Marks, G.E., 1954. An aceto-carmine glycerol jelly for use in pollen fertility counts. Stain Technol. 53: 277.
McLean, J.G. & F.R.Stevenson, 1952. Methods of obtaining seed on Russet Burbank and similar flowering varieties of potatoes. Am. Potato J. 29: 206–211.
Mendoza, H., 1980a. Thrust II philosophy, organisation and program development. In: O.T. Page (Ed.), Utilization of the genetic resources of the potato III. Report of a planning conference held at the International Potato Center, Lima, Peru from November 10–14, 1980.
Mendoza, H., 1980b. Development of lowland tropic populations. In: O.T. Page (Ed.), Utilization of the genetic resources of the potato III. Report of a planning conference held at the International Potato Center, Lima, Peru from November 10–14, 1980.
Osman, S.F., S.F.Herb, T.J.Fitzpatrick & P.Schmiediche, 1978. Glycoalkaloid composition of wild and cultivated tuberbearing Solanum species of potential value in potato breeding programs. J. Agric. Food Chem. 26: 1246–1248.
Quinn, A.A., D.W.S.Mok & S.J.Peloquin, 1974. Distribution and significance of diplandroids among the diploid Solanums. Am. Potato J. 51: 16–21.
Raman, K.V., 1980. Potato tuber moth. Technical Bulletin 3. International Potato Center, Lima, Peru.
Raman, K.V. & M.Palacios, 1982. Screening potato for resistance to potato tuberworms. J. Econ. Entomol. 75: 47–49.
Raman, K.V. & M.Palacios, 1983. Approaches to integrated control of Phthorimaea operculella. In: W.J.Hooker (Ed.), Research for the potato in the year 2000. International Potato Center, Lima, Peru.
Sankaran, T. & D.J.Girling, 1980. The current status of biological control of the potato tuber moth. Biocontrol News and Information 1: 207–211.
Schmiediche, P.E., 1977. Biosystematic studies on the cultivated potato species Solanum x juzepczukii Buk. and Solanum curtilobum Juz. et Buk. Ph. D. thesis, Univ. Birmingham.
Shelion, A.M. & J.A.Wyman, 1980. Post-harvest potato tuberworm population levels in cull volunteer potatoes and means of control. J. Econ. Entomol. 73: 8–11.
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Chavez, R., Schmiediche, P.E., Jackson, M.T. et al. The breeding potential of wild potato species resistant to the potato tuber moth, Phthorimaea operculella (Zeller). Euphytica 39, 123–132 (1988). https://doi.org/10.1007/BF00039864
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DOI: https://doi.org/10.1007/BF00039864
Key words
- Solanum spp. wild potato species
- Phthorimaea operculella
- potato tuber moth
- interspecific hybridisation
- resistance studies