Summary
In the Mediterranean area the potato is a very important crop and can be cultivated throughout the year. However, tuber yields are generally much lower than those in Northern European countries. This is because the environmental and agro-economic conditions are different from those of Northern countries where most cultivars were developed. We feel that the objective for the “new Mediterranean potato” must be the availability of potato cultivars for each environment and for each planting season. Breeding programmes should focus on improving potato production within a specific agro-ecological Mediterranean area rather than improving crop production across areas. This paper reports aspects of potato breeding and physiology related to resistance to stress conditions in the Mediterranean area, with particular emphasis given to resistance to abiotic (heat, drought and frost) as well as biotic stresses. We also discuss the potential to produce seed tubers suitable for potato cultivation in the Mediterranean area.
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Anguiz, R.J. & H.A. Mendoza, 1997. General and specific combining abilities for resistance to bacterial wilt (Pseudomonas solanacearum E.F. Smith) in PVX and PVY immune autotetraploid potatoes.Fitopatologia 32: 71–80.
Boiteux, L.S., F.J.B. Reifschneider, M.E.N. Fonseca & J.A. Buso, 1995. Search of sources of early blight (Alternaria solani) field resistance not associated with vegetative late maturity in tetraploid potato germplasm.Euphytica 83: 63–70.
Brandolini, A., 1992. Genetical variation for resistance toAlternaria solani in an advanced population of potatoes.Annals of Applied Biology 120: 353–360.
Cardi, T., F. D'Ambrosio, D. Consoli, K.J. Puite & K.S. Ramulu, 1993. Production of somatic hybrids between frost tolerantSolanum commersonii andS. tuberosum: characterization of hybrid plants.Theoretical and Applied Genetics 87: 193–200.
Carputo, D., M. Speggiorin, P. Garreffa, A. Raio & L.M. Monti, 1996. Screening for resistance to tuber soft rot and blackleg in diploidSolanum species andS. tuberosum haploids.Journal of Genetics & Breeding 50: 221–226.
Carputo, D., A. Barone, T. Cardi, A. Sebastiano, L. Frusciante & S.J. Peloquin, 1977a. Endosperm Balance Number manipulation for direct germplasm introgression to potato from a sexually isolated relative (Solanum commersonii Dun.).Proceedings of the National Academy of Science of USA 94: 12013–12017.
Carputo, D., T. Cardi, M. Speggiorin, A. Zoina & L. Frusciante, 1997b. Resistance to blackleg and tuber soft rot in sexual and somatic interspecific hybrids with different genetic background.American Potato Journal 74: 161–172.
Carputo, D., T. Cardi, L. Frusciante, P. Sirianni, S. Vega & J.P. Palta, 1998. Transfer of resistance genes fromSolanum commersonii (2n=24, 1EBN) toS. tuberosum (2n=48, 4EBN) through ploidy and EBN manipulation.Proceedings of the International Symposium: Breeding Research on Potatoes, June 23rd–26th, 1998, Rostock, Germany, pp. 16–21.
Chen, T.H.H., M.J. Burke & L.V. Gusta, 1995. Freezing tolerance in plants: an overview. In: R.E. Lee, G.J. Warren & L.V. Gusta (Eds), Biological ice nucleation and its application. APS Press, pp.115–135.
Chen, H.H. & P.H. Li, 1980. Characteristics of cold acclimation and deacclimation in tuber-bearingSolanum species.Plant Physiology 65: 1146–1148.
Concibo, V.C., G.A. Secor & S.H. Jansky, 1994. Evaluation of resistance to Verticillium wilt in diploid, wild potato interspecific hybrids.Euphytica 76: 145–152.
Corsini, D. & J.J. Pavek, 1996. Agronomic performance of potato germplasm selected for high resistance to Verticillium wilt.American Potato Journal 73: 249–260.
Demagante, A.L., P.M. Harris & P. Vander Zaag, 1995. A promising method for screening drought tolerance in potato using apical cuttings.American Potato Journal 72: 577–588.
De,Maine, M.J., A.K. Lees & J.E. Bradshaw, 1998. Soft rot resistance combined with other tuber characters in long day-adaptedSolanum phureja.Potato Research 41: 69–72.
Grillo, S., A. Costa, M. Tucci, M.R. Amatruda, F. Consiglio, L. Vigh & A. Leone, 1996. Regulation of gene expression during cellular adaptation to water stress. In: S. Grillo & A. Leone (Eds), Physical Stresses in Plants. Genes and their products for tolerance. Springer-Verlag, Berlin, Germany, pp. 163–169.
Hanneman, R.E. Jr & J.B. Bamberg, 1986. Inventory of tuber-bearingSolanum species. University of Wisconsin Research Bullettin 533.
Havaux, M. & R. Lannoye, 1983. Drought resistance of hard wheat cultivars measured by a rapid chlorophyll fluorescence test.Journal of Agricultural Sciences 104: 501–505.
Howard, H.W., 1970. Genetics of potato. Springer-Verlag, New York.
Jadari, R., D. Sihachakr, L. Rossignol & G. Ducreux, 1992. Transfer of resistance toVerticillium dahliae Kleb. fromSolanum torvum S.W. into potato (Solanum tuberosum L.) by protoplast electrofusion.Euphytica 64: 39–47.
Jefferies, R.A. & D.K.L. MacKerron, 1987. Aspects of the physiological basis of cultivar differences in yield of potato under droughted and irrigated conditions.Potato Research 30: 201–217.
Karafyllidis, D.I., N. Stavropolulos & D. Georgakis, 1996. The effect of water stress on the yielding capacity of potato crops and subsequent performance of seed tubers.Potato Research 39: 153–163.
Leone, A., A. Costa, S. Grillo, M. Tucci, I. Horvath & L. Vigh, 1996. Acclimation to low water potential determines changes in membrane fatty acid composition and fluidity in potato cells.Plant, Cell and Environment 19: 1103–1109.
Levy, D., L. Livesku & D.E. van der Zaag, 1986. Double cropping of potatoes in a semi-arid environment: the association of ground cover with tuber yields.Potato Research 29: 437–449.
Loon, C.D. van, 1981. The effect of water stress on potato growth, development, and yield.American Potato Journal 58: 51–69.
Lorito, M., S.L. Woo, I.G. Fernandez, G. Colucci, G.E. Harman, J.A. Pintor-Toro, E. Filippone, S. Muccifora, C.B. Laurance, A. Zoina & F. Scala, 1998. Genes from mycoparasitic fungi as source for improving plant resistance to fungal pathogens.Proceedings of the National Academy of Science of USA 95: 7860–7865.
Love, S.L., B.K. Werner, H.I. Groza & A. Thompson-Johns, 1997. Performance of commercially available true potato seed hybrids grown from tubers.Hort Science 32: 728–732.
Lynch, D.R., L.M. Kawchuk, J. Hachey, P.S. Bains & R.J. Howard, 1997. Identification of a gene conferring high levels of resistance to Verticillium wilt inSolanum chacoense.Plant Disease 81: 1011–1014.
MacKerron, D.K.L. & R.A. Jefferies, 1988. The distributions of tuber sizes in droughted and irrigated crops of potato. I. Observations on the effect of water stress on graded yields from different cultivars.Potato Research 31: 269–278.
Mohan, S.K., J.R. Davis, D.L. Corsini, L.H. Sorensen & J.J. Pavek, 1990. Reaction of potato clones and accessions ofSolanum spp. toVerticillium dahliae Kleb. and its toxin.Potato Research 33: 449–458.
Ortiz, R., 1998. Potato breeding via ploidy manipulations.Plant Breeding Reviews 16: 15–86.
Ortiz, R., C. Martin, M. Iwanaga & H. Torres, 1993. Inheritance of early blight resistance in diploid potatoes.Euphytica 71: 15–19.
Palta, J.P., B.D. Whitaker & L.S. Weiss, 1993. Plasma membrane lipids associated with genetic variability in freezing tolerance and cold acclimation ofSolanum species.Plant Physiology 103: 793–803.
Ranalli, P., M. Bizarri, L. Borghi & M. Mari, 1994. Genotypic influence onin vitro induction, dormancy length, advancing age and agronomic performance of potato microtubers (Solanum tuberosum L.).Annals of Applied Biology 125: 161–172.
Ranalli P., M. Di Candilo, G. Ruaro & A. Marino, 1996. Drought effects on chlorophyll fluorescence and canopy temperature.Abstract of the 14th Triennial Conference of the European Association for Potato Research, Sorrento, Italy, May 2–7 1999, pp. 605–606.
Reynolds, M.P. & E.E. Ewing 1989. Heat tolerance in tuber-bearingSolanum species: a protocol for screening.American Potato Journal 66: 63–74.
Ross, H., 1986. Potato Breeding. Problems and perspectives. Verlag Paul Parey, Berlin and Hamburg, p. 132.
Rousselle-Bourgeois, F. & S. Priou, 1995. Screening tuber-bearingSolanum spp. for resistance to soft rot caused byErwinia carotovora subsp.atroseptica (van Hall) Dye.Potato Research 38: 111–118.
Rowe, P.R. & L. Siquera, 1970. Inheritance of resistance toPseudomonas solanacearum inSolanum phureja.Phytopathology 60: 1499–1501.
Schmiediche, P. 1988. Breeding for resistance toPseudomonas solanacearum. In: E.R. French (Ed.), Report of the Planning Conference on Bacterial Diseases of the Potato in 1987. International Potato Center, Lima, Peru, pp. 19–28.
Stone, J.M., J.P. Palta, J.B. Bamberg, L.S. Weiss & J.F. Harbage, 1993. Inheritance of freezing resistance in tuber-bearingSolanum species: Evidence for independent genetic control of nonacclimated freezing tolerance and cold acclimation capacity.Proceedings of the National Academy of Science of USA: 7869–7873.
Tawfik, A.A., M.D. Kleinhenz & J.P. Palta, 1996. Application of calcium and nitrogen for mitigating heat stress effects on potatoes.American Potato Journal 73: 261–273.
Tung, P.X., E.T. Rasco, P. Vander Zaag & P. Schmiediche, 1990. Resistance toPseudomonas solanacearum in the potato: I. Effects of sources of resistance and adaptation.Euphytica 45: 203–210.
Veilleux, R.E., M.M. Paz & D. Levy, 1997. Potato germplasm development for warm climates: genetic enhancement of tolerance to heat stress. Heat tolerant 4x-2x hybrids.Euphytica 98: 83–92.
Watanabe, K.N., M. Orrillo, S. Vega, A.M. Golmirzaie, S. Perez, J. Crusado & J.A. Watanabe, 1996. Generation and pest resistant, diploid potato germplasm with short-day adaptation from diverse genetic stocks.Breeding Science 46: 329–336.
Zaag, D.E. van der, 1984. Reliability and significance of a simple method of estimating the potential yield of the potato crop.Potato Research 27: 51–53.
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Frusciante, L., Barone, A., Carputo, D. et al. Breeding and physiological aspects of potato cultivation in the Mediterranean region. Potato Res 42, 265–277 (1999). https://doi.org/10.1007/BF02357857
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DOI: https://doi.org/10.1007/BF02357857