Abstract
Despite a raising interest on turfs in Italy, all theavailable varieties of this kind in the Country are of foreign origin, and areoften poorly adapted to the prevailing climatic conditions. This prompted tobegin a collection activity of indigenous turfgrass species, with the ultimategoal of identifying promising materials for future breeding based on localgenetic resources. The collection was carried out in three areas of Italy, viz.the northern Po Plain, the coastal region of Liguria, and the island of Sardiniathat are characterised, respectively, by subcontinental, warm temperate, andtypical Mediterranean climate. Altogether, 141 sites were visited, yielding 226accessions belonging to eight species of potential interest for turfs:Poa pratensis, Poa trivialis,Festuca rubra, Festuca arundinacea,Lolium perenne, Agrostis stolonifera,Agrostis tenuis, and Cynodon dactylon,this last being a warm-season grass. Poa pratensis andCynodon dactylon were mostly collected in northern Italyand Sardinia, respectively, whereas Festuca arundinacea andLolium perenne were rather ubiquitous. The collection sitesranged from 0 to 1040 m asl, but sites over 750 m wereonly visited in the inner part of Sardinia. All the accessions, collected aswhole plants, were transplanted at Lodi, northern Italy, where they are beingevaluated. Their preliminary evaluation for traits of importance for turf use,such as sward colour and overall quality, highlighted the great variation andthe occurrence of interesting accessions in all species. Other characters wererecorded, bearing specific importance in individual species, and in all casespromising accessions were identified. The germplasm of Festucarubra, Festuca arundinacea, and Loliumperenne proved highly infected by endophytic (symbiotic) fungi of thegenus Neotyphodium.
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References
Arrigoni P.V. 1968. Fitoclimatologia della Sardegna. Webbia 23: 1–100.
Bouton J.H., Gates R.N., Belesky D.P. and Owsley M. 1993. Yield and persistence of tall fescue in south-eastern coastal plain after removal of its endophyte. Agron. J. 85: 52–55.
Croce P., Mocioni M. and Beard J.B. 1999. Agrostis cultivar characterizations for closely mowed putting greens in a Mediterranean climate. In: Falcinelli M. and Rosellini D. (eds), Herbage seed as a key factor for improving production and environmental th quality. Proc. 4 Int. Herbage Seed Conference. Univ. of Perugia, Italy, pp. 304–308.
Hill N.S., Belesky D.P. and Stringer W.C. 1991. Competitiveness of tall fescue as influenced by Acremonium coenophialum. Crop Sci. 31: 185–190.
Latch G.C.M., Potter L.R. and Tyler B.R. 1987. Incidence of endophytes in seeds from collections of Lolium and Festuca species. Ann. Appl. Biol. 111: 59–64.
Malinowski D., Leuchtmann A., Schmidt D. and Nosberger J. 1997. Symbiosis with Neotyphodium uncinatum endophyte may in crease the competitive ability of meadow fescue. Agron. J. 89: 833–839.
Ministero delle Politiche Agricole e Forestali 2000. Elenco delle varieta di specie agrarie iscritte nel registro. Finsiel, Roma, Italy
Oliveira J.A. and Castro V. 1988. Incidence of Neotyphodium endophytes in Spanish perennial ryegrass (Lolium perenne). Plant Genet. Res. Newsl. 113: 1–3.
Panella A. 1980. Observation on differently adapted grasses for turf rd in Central Italy. In: Beard J.B. (ed.), Proc. 3 Int. Turfgrass Res. Conference. Munich, Germany, pp. 413–417.
Panella A. 1981. Tappeti erbosi. Impianto―manutenzione―im pieghi. Edagricole, Bologna, Italy.
Pfannmoller M., Eggestein S. and Schoberlein W. 1997. Occurrence of endophytes in European cultivars, seed lots, and ecotypes of Festuca's species. In: Bacon C.W. and Hill N.S. (eds), Neotyphodium/Grass Interactions. Plenum Press, New York, London, pp. 77–80.
Pinna M. 1977. Climatologia. UTET, Torino, Italy.
Ravel C., Charbonnel C. and Charmet G. 1994. A survey of Acremonium-endophytes in wild perennial ryegrass collected in France. In: Reheul D. and Ghesquiere A. (eds), Proc. 19 Eucarpia Fodder Crops Sect. Meeting. Brugge, Belgium, pp. 111–113.
Riccioni L. and Piano E. 1994. Occurrence and nature of endophytic fungi in natural populations of tall fescue from Sardinia. In: Reheul D. and Ghesquiere A. (eds), Proc. 19 Eucarpia Fodder Crops Sect. Meeting. Brugge, Belgium, pp. 107–109.
Shelby R.A. and Darlymple L.W. 1987. Incidence and distribution of the tall fescue endophyte in the United States. Plant Dis. 71: 783–786.
Steel G.D. and Torrie J.H. 1960. Principles and procedures of statistics. McGraw-Hill Book Comp. Inc., New York.
van Heeswijck R. and McDonald G. 1992. Acremonium endophytes in perennial ryegrass and other pasture grasses in Australia and New Zealand. Aust. J. Agric. Res. 43: 1683–1709.
Veronesi F. and Falcinelli M. 1988. Evaluation of an Italian germplasm collection of Festuca arundinacea through a multi-variate analysis. Euphytica 38: 211–220.
Veronesi F. and Panella A. 1985. Adaptability of different turf species and varieties for golf courses in Italy. In: Lemaire F. th (ed.), Proc. 5 Int. Turfgrass Res. Conference. Avignon, France, pp. 245–254.
Veronesi F., Falcinelli M. and Panella A. 1991. Le principali specie microterme utilizzabili nell'impianto di tappeti erbosi a uso tecnico, sportivo e ricreativo in Italia: 1. Insediamento, densità e colore. Riv. di Agron. 25: 69–75.
Volterrani M., Pardini G., Magni S. and Bonari E. 1999. Comparative study on turfgrass cultivars of Festuca arundinacea Schreb., Lolium perenne L. and Poa pratensis L. in the coastal environment of Tuscany. In: Falcinelli M. and Rosellini D. (eds), Herbage seed as a key factor for improving production and th environmental quality. Proc. 4 Int. Herbage Seed Conference. Univ. of Perugia, Italy, pp. 309–313.
Waldron B.L., Ehlke N.J., Wyse D.L. and Vellekson D.J. 1998. Genetic variation and predicted gain from selection for winter hardiness and turf quality in a perennial ryegrass topcross population. Crop Sci. 38: 817–822.
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Romani, M., Piano, E. & Pecetti, L. Collection and preliminary evaluation of native turfgrass accessions in Italy. Genetic Resources and Crop Evolution 49, 341–349 (2002). https://doi.org/10.1023/A:1020655815121
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DOI: https://doi.org/10.1023/A:1020655815121