Abstract
Although agronomically interesting, selection of creeping-rootedness inlucerne, that is, the ability to form adventitious shoots on horizontal,spreading roots, remains difficult because of the complex and still unclear geneticcontrol of this character, coupled with the possible occurrence of external factorsthat affect unpredictably its expression. Two experiments were undertaken onprogenies of creeping-rooted plants, to verify previous findings and inferences,and test novel hypotheses, concerning the effect of various plant factors on theexpression of creeping-rootedness. The ultimate aim was to provide information onthe most appropriate germplasm, procedures, or indirect selection criteria, that wouldimprove the efficiency of breeding for this character. The factors here examinedincluded genotype, age, kind of progeny, vigour, spreading ability, and undergroundmorphology. Some genotypes appeared to be good donors of the character, whereasothers did not. The proportion of creeping-rooted plants increased in allcases with the plant age. Selfing consistently depressed the expression ofthe character compared with clonal propagation or crossing. It is suggestedthat the effect of age and selfing on the penetrance of creeping-rootedness ismediated through their effect on plant vigour. Both aerial and root vigour showedindeed an effect per se on the presence of the character. Beside thevigour, possible indirect selection criteria were identified in the frequenciesof swollen zones and latent stem primordia on horizontal roots. Proportion ofcreeping-rooted plants in progenies after one year of growth appeared as a simple anduseful criterion to predict future trends. Consistent with previous conclusions, theresults provided evidence that a combination of family and individualselection may enhance the character expression.
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References
Avendano, R.E. & R.L. Davis, 1966. Lateral root development in progenies of creeping and noncreeping-rooted Medicago sativa L. Crop Sci 6: 198–201.
Berdhal, J.D., A.C. Wilton & A.B. Frank, 1989. Survival and agronomic performance of 25 alfalfa cultivars and strains interseeded into rangeland. J Range Manage 42: 312–316.
Bray, R.A., 1969. Variation in and correlations between yield and creeping-rootedness in lucerne. Aust J Agric Res 20: 47–55.
Busbice, T.H. & C.H. Hanson, 1969. Selection for improving creeping-rooted characteristics in alfalfa. Crop Sci 9: 244–246.
Carlson, G.E., 1965. Photoperiodic control of adventitious stem initiation on roots. Crop Sci 5: 248–250.
Daday, H., 1962. Breeding for creeping root in lucerne (Medicago sativa L.). I. The initial response to selection. Aust J Agric Res 13: 813–820.
Daday, H., 1968. Heritability and genotypic and environmental correlations of creeping root and persistency in Medicago sativa L. Aust J Agric Res 19: 27–34.
Daday, H., A. Grassia & F.E. Binet, 1977. Non-additive gene effects for creeping-root in lucerne (Medicago sativa L.). Theor Appl Genet 50: 23–27.
Edye, L.A. & K.P. Haydock, 1967. Breeding creeping-rooted lucerne for the subtropics. Aust J Agric Res 18: 891–901.
Gray, E. & R.E. Anderson, 1971. Comparisons of three scales of measurement of creeping in alfalfa. Crop Sci 11: 129–131.
Heinrichs, D.H., 1954. Developing creeping-rooted alfalfa for pasture. Can J Agr Sci 34: 269–280.
Heinrichs, D.H., 1963. Creeping alfalfa. Adv Agron 15: 317–337.
Heinrichs, D.H. & F.H. Morley, 1962. Quantitative inheritance of creeping-root in alfalfa. Can J Genet Cytol 4: 79–89.
Jones, A. & C.H. Hanson, 1959. Recovery of the creeping-root habit in F2 progenies in alfalfa. Agron J 51: 716–718.
Morley, F.W.H. & D.H. Heinrichs, 1960. Breeding for creeping root in alfalfa (Medicago media Pers.) Can J Plant Sci 40: 424–433.
Murray, B., 1957. The ontogeny of adventitious stems on roots of creeping-rooted alfalfa. Can J Bot 35: 463–475.
Pecetti, L. & E. Piano, 2002. Penetrance of creeping-rootedness in clonal progenies of lucerne and observations on underground morphology of plants differing for this character. Euphytica 128: 35–45.
Piano, E., P. Valentini, L. Pecetti & M. Romani, 1996. Evaluation of a lucerne germplasm collection in relation to traits conferring grazing tolerance. Euphytica 89: 279–288.
Piano, E., M. Pinzauti, P. Annicchiarico, A. Felicioli, L. Pecetti & M. Romani, 1998. Impollinazione in ambiente confinato mediante apoidei solitari nel miglioramento genetico di leguminose foraggere [Pollination in enclosed environments with solitary bees in the breeding schemes of forage legumes]. Riv Sem El 44(2): 11–19.
Rodrigues, G.H.S. & S.E. Smith, 1989. Evaluation of screening procedures for breeding creeping-rooted alfalfa. Crop Sci 29: 228–230.
Rumbaugh, M.D. & M.W. Pedersen, 1979. Survival of alfalfa in five semi-arid range seedings. J Range Manage 32: 48–51.
Schoeman, A. & D.E.W. Schumann, 1969. Comparison of sensitivities of similar independent and non-independent experiments. Biometrika 56: 17–31.
Zhen-sheng, G. & H. Fu-zeng, 1994. Ontogenesis of creepingrooted character and change of endogenous hormones in alfalfa. In: R. Michaud & J.H. Elgin Jr. (Eds.), Proc. 34th North American Alfalfa Improvement Conference, Guelph, Ontario, Canada, p. 141.
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Pecetti, L., Piano, E. & Romani, M. Effect of various plant factors on the expression of creeping-rootedness in lucerne (Medicago sativa L. complex). Euphytica 135, 89–97 (2004). https://doi.org/10.1023/B:EUPH.0000009544.69753.be
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DOI: https://doi.org/10.1023/B:EUPH.0000009544.69753.be