Abstract
The greatest part of the genetic variability of maize has been caused or maintained by the introgression of wild germplasm, especially of the taxa closest to the cultivated species: the teosintes. There exists good documentation regarding the existence of F1 Hybrids and advanced generations, derived from the same, produced by natural Hybridizations between maize and teosintes. This has been proved in maize cultivation fields in many Mexican and Guatemalan locations, where this wild species grows. (Wilkes 1967, 1977; Randolph 1976; Smith et al. 1982).
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References
Albretch B, Dudley JW (1987) Evaluation of four maize populations containing different proportions of exotic germplasm. Crop Sci 27: 480–486
Beadle GW (1980) The ancestry of corn. Sci Am 242: 112–119
Bird R McK (1982) Systematic of Zea and the selection of experimental material. In: Sheridan WF (ed) Maize for biological research. Plant molecular biology association, Charlottesville
Bird R McK (1984) South American maize in Central America. Paper presented at Pre-Columbian Plant Migration Symposium. In: Stone D (ed) 44th Int Congr Americanists. Manchester Harvard Univ Press, pp 43–65
Cohen JI, Galinat WC (1984) Potential use of alien germplasm for maize improvement. Crop Sci 24: 1011–1015
Crossa J (1989) Theoretical considerations for the introgression of exotic germplasm into adapted maize populations. Maydica 34: 53–62
Crossa J, Gardner CO (1987) Introgression of an exotic germplasm for improving and adapted maize population. Crop Sci 190–198
Magoja JL (1978) Reciprocal crosses between Euchlaena perennis Hitch, and Zea mays L. Maize Genet Coop News Lett 52: 37
Magoja JL (1980) La primera generaeión (F1) de un hibrido entre teosinte perenne y una linea muy precoz de maiz. Comun Direc Inv UNLZ Año 3, 10
Magoja JL (1991) Perennial teosinte introgressed population of maize: behavior of half sib families and S1 derived lines. Maize Genet Coop News Lett 65: 37–39
Magoja JL, Benito GN (1981) Inheritance of some characters in maize-perennial teosinte hybrids. Maize Genet Coop News Lett 55: 58–60
Magoja JL, Benito GN (1982a) Heterosis en hibridos entre teosinte perenne y maiz. Rev Fac Agron (UBA) 3: 237–245
Magoja JL, Benito GN (1982b) Herencia del ciclo evolutivo en hibridos entre teosinte perenne y una linea muy precoz de maiz. Rev Univ Nac Lomas de Zamora 1 (1): 57–64
Magoja JL, Benito CN (1983a) Perennial teosinte-Gaspé hybrids: inheritance of prolificity. Maize Genet Coop News Lett 57: 66–68
Magoja JL, Benito GN (1983b) Perennial teosinte-Gaspé hybrids: inheritance of the number of leaves. Maize Genet Coop News Lett 57: 65–66
Magoja JL, Nivio AA (1981) Influence of perennial teosinte germplasm on polypeptidic pattern of maize endosperm proteins. Maize Genet Coop News Lett 55: 58–60
Magoja JL, Pischedda G (1986) Introgression of teosinte germplasm in maize: a method to improve heterosis and variability. Maize Genet Coop News Lett 60: 82–83
Magoja JL, Palacios IG, Bertoia LM, Streitenberger ME (1985) Evolution of Zea. Maize Genet Coop News Lett 59: 61–68
Magoja JL, Bertoia LM, Palacios IG, Streitenberger ME (1986) Variation within Zea: numerical analysis of fruit traits. Maize Genet Coop News Lett 60: 79–81
Magoja JL, Palacios IG, Aulicino MB, Bertoia LM, Streitenberger ME (1987) Variation within Zea: numerical analysis of 43 traits. Maize Genet Coop News Lett 61: 67–69
Magoja JL, Palacios IG, Pischedda G, Lopez C (1988) Avances en el mejoramiento del maiz mediante la utilización de germoplasma silvestre. IV Congr Nacional de Maiz, Pergamino, Argentina, 8-11/ 11/88, Genet y Fitotec: 1–10
Mangelsdorf PC (1961) Introgression in maize. Euphytica 10: 157–168
Mock JJ, Pearce RB (1975) An ideotype of maize. Eyphytica 24: 613–623
Palacios IG (1982) Nuclear DNA content in F, hybrids between perennial teosinte and maize (Gaspé). Maize Genet Coop News Lett 56: 102–103
Palacios IG, Magoja JL (1983) Herencia del número de ramificaciones de la panoja en hibridos entre teosinte perenne y maiz. Rev Fac Agron Univ Nac La Plata 59: 81–89
Pischedda G, Magoja JL (1985) Perennial teosinte-Gaspé hybrids: selection for maizoid characters. Maize Genet Coop News Lett 59: 70–71
Pischedda G, Magoja JL (1987a) Potential use of diploperennial teosinte germplasm for maize improvement. Maize Genet Coop News Lett 61: 65
Pischedda G, Magoja JL (1987b) Potential use of perennial teosinte germplasm for maize improvement. Maize Genet Coop News Lett 61: 66
Pischedda G, Magoja JL (1988) Perennial teosinte introgressed population of maize: variation within S1 derived lines. Maize Genet Coop News Lett 62: 83–84
Randolph EF (1976) Contribution of wild relatives of maize to the evolutionary history of domesticated maize: a synthesis of divergent hypotheses. Econ Bot 30: 321–345
Sehgal SM (1963) Effects of teosinte and Tripsacum introgression in maize. The Bussey Inst, Harvard Univ Cambridge
Smith JSC, Goodman MM, Kato TA (1982) Variation within teosinte. II. Numerical analysis of chromosome knob data. Econ Bot 36: 100–112
Wilkes HG (1967) Teosinte: the closest relative of maize. The Bussey Inst, Harvard Univ Cambridge
Wilkes HG (1977) Hybridization of maize and teosinte in Mexico and Guatemala and the improvement of maize. Econ Bot 31: 254–293
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© 1994 Springer-Verlag Berlin Heidelberg
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Magoja, J.L., Pischedda, G. (1994). Maize × Teosinte Hybridization. In: Bajaj, Y.P.S. (eds) Maize. Biotechnology in Agriculture and Forestry, vol 25. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-57968-4_6
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DOI: https://doi.org/10.1007/978-3-642-57968-4_6
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