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Effect of Location, Year and Variety on Winter Cereal Forage Yield and Quality in the Southern Plateau of the Spain
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 Title & Authors
Effect of Location, Year and Variety on Winter Cereal Forage Yield and Quality in the Southern Plateau of the Spain
Otal, J.; Quiles, A.; Quiles, A.; Perez-Sempere, J.I.; Ramirez, A.; Fuentes, F.; Hevia, M.L.;
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 Abstract
The objective of this research was to study the production and quality of forage at three different times of the year (April, June and July) of six winter cereals in the southern plateau of the Iberian Peninsula. The cereals studied were Triticale (xTriticosecale wittm) cv. "Tritano", Oat (Avena sativa L.) cv. "Prevision" and cv. "Saia; Rye (Secale cereale L.) cv. "Giganton", Barley (Hordeum vulgare L.) cv. "Cameo" and cv. "Albacete". The study was carried out in three different locations and over three successive years of harvesting. The three variables considered were location, year and cereal. The % dry matter (DM), % crude protein (CP), % acid detergent fiber (ADF), % neutral detergent fiber (NDF) and % ash content were determined for the three sampling periods and the quality was calculated in milk forage units (MFU/kg DM), the production in kg DM/ha, MFU/ha and kg CP/ha. In all three sampling periods the quality of the cereals was significantly influenced only by the year and by species. However, for production of dry matter (kg DM/ha), milk forage units (MFU/ha) and gross protein (kg CP/ha) all three variables were of significant influence as were their interactions. In the April sampling, the species which showed a significantly higher production () was rye (1,693 kg DM/ha), which, along with its forage quality (16.56% CP, 0.886 MFU/kg DM) meant that the same occurred in MFU/ha and kg CP/ha. Significant differences between species were also found for the June sampling. The most productive cereal was again rye with 2,656 kg DM/ha, although its sharp fall in forage quality meant that barley cv Albacete (2,513 kg DM/ha) returned the highest production in forage units (1,934 vs. 1,951 MFU/ha) and barley cv. Cameo (2,413 kg DM/ha) in gross protein production (242 vs. 264 kg CP/ha). The significantly highest cereal production for July was barley cv. Albacete (4,923 kg DM/ha, 9.11% CP 0.722 MFU/kg DM). As a consequence of the results, we conclude that from the viewpoint of nutritional quality and production, rye is the most suitable for use in early spring in whatever year and location. However, barley cv. "Albacete" is the most appropriate for utilisation in later spring or early summer.
 Keywords
Forage Production;Forage Quality;Winter Cereal;Oat;Rye;Barley;Triticale;
 Language
English
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 References
1.
AOAC. 1980. Official methods of analysis of the Association of Official Agricultural Chemists ed. Wiliams Harwite, (15th ed.) Wasington. E.E.U.U.

2.
Caballero, R. 2001. Typology of cereal-sheep farming systems in Castile-La Mancha (south-central Spain). Agricultural Systems 68(3):215-232. crossref(new window)

3.
Ciria, J., J. R. Allue, C. Gomara, C. Andres and M. I. Amela. 1996. Cultivo de centeno con fines pascicolas y forrajeros en tierras marginales de la provincia de Soria: I. Produccion y composicion quimica en distintos estados. Proc. XXXIV Reunion Científica de la SEEP, La Rioja. pp. 201-204.

4.
Coffey, K. P., W. K. Cobletz, T. G. Montgomery, J. D. Shockey, K. J. Briant, P. B. Francis, C. F. RosenKrans and S. A. Gunter. 2002. Growth performance of stoker calves backgrounded on sod-seed winter annuals or hay and grain. J. Anim. Sci. 80:926-932.

5.
Delogu, G., N. Faccini, P. Faccioli, F. Reggiani, M. Lendini, N. Berardo and M. Odoardi. 2002. Dry matter yield and quality evaluation at two phenological stages of forage triticale grown in the Po Valley and Sardinia, Italy. Field Crops Res. 74:207- 215. crossref(new window)

6.
Delogu, G., N. Faccini, P. Faccioli, F. Reggiani, M. Lendini, N. Berardo and M. Odoardi. 2002. Dry matter yield and quality evaluation at two phenological stages of forage triticale grown in the Po Valley and Sardinia, Italy. Field Crops Res. 74:207- 215. crossref(new window)

7.
Firdous, R. and A. H. Gilani. 2001. Changes in chemical composition of sorghum as influenced by growth stage and cultivar. Asian-Aust. J. Anim. Sci. 14(7):935-940.

8.
Flamant, J. C. and S. Casu. 1978. Breed differences in milk production potential and genetic improvement on milk production. In: Milk production in the ewe. EAAP publication 23:1-20.

9.
Francia, E., N. Pecchioni, O. Li Destri Nicosia, G. Paoletta, L. Taibi, V. Franco, M. Odoardi, A. M. Stanca and G. Delogu. 2006. Dual-purpose barley and oat in a Mediterranean environment. Field Crops Res. 99 (2-3):158-166. crossref(new window)

10.
Goering, H. K. and P. J. Van Soest. 1970. Forage fiber analyses (apparatus, reagents, procedures and some applications). Agricultural Handbook $N^{\circ}$ 379. ARS, USDA, Washington, D.C.

11.
Gomez, V. and F. Tarraga. 1991. Valoracion del centeno y la cebada como alimentos forrajeros aprovechados a diente en los secanos de Albacete. Proc. XVI Jornadas Científicas de la SEOC, Pamplona. pp. 218-223.

12.
Hadjipanayiotou, M., I. Antoniou, M. Theodoridou and A. Photiou. 1996. In situ degradability of forages cut at different stages of growth, Livest. Prod. Sci. 45:49-53. crossref(new window)

13.
Han, K. J. and D. A. Kim. 1996. Effect of cultivar, date and drying method on the quality of spring harvested oat hay. J. Kor. Soc. Grass. Sci. 16(2):161-168.

14.
I.N.R.A. 1988. Alimentation des bovins, ovins et caprins (Ed. R. Jarrige) INRA, Paris. p. 471.

15.
Jedel, P. E. and D. F. Salmon. 1995. Forage potential of spring and winter cereal mixtures in a short season growing area. Agronomy J. 87(4):731-736. crossref(new window)

16.
Joy, M. and I. Delgado. 1989. Posibilidades forrajeras de los cereales de invierno en un secano arido. ITEA- Produccion Animal. 82:13-21.

17.
Khan, Z. I., A. Hussain, A. M. Ashraf and L. R. McDowell. 2006. Mineral status of soils and forages in southwestern Punjab- Pakistan: Micro-minerals. Asian-Aust. J. Anim. Sci. 19(8):1139-1147.

18.
Khan, Z. I., M. Ashraf and A. Hussain. 2007. Evaluation of macro mineral contents of forages: Influence of pasture and seasonal variation. Asian-Aust. J. Anim. Sci. 20(6):908-913.

19.
Kim, J. G., E. S. Chung, S. Seo, J. S. Ham, W. S. Kang and D. A. Kim. 2001a . Effects of maturity at harvest and wilting days on quality of round baled rye silage. Asian-Aust. J. Anim. Sci. 14(9):1233-1237.

20.
Kim, J. D., C. H. Kwon and D. A. Kim. 2001b. Yield and quality of silage corn as affected by hybrid maturity, planting date and harvest stage. Asian-Aust. J. Anim. Sci. 14(12):1705-1711.

21.
Kim, J. D., C. H. Kwon, C. N. Shin, C. H. Kim and D. A. Kim. 2005. Effect of location, year and variety on forage yield and quality of winter rye. Asian-Aust. J. Anim. Sci. 18(7):997- 1002.

22.
Mahanta, S. K. and V. C. Pachauri. 2005. Nutritional evaluation of two promising varieties of forage sorghum in sheep fed as Silage. Asian-Aust. J. Anim. Sci. 18(12):1715-1720.

23.
M.A.P.A. 2004. Anuario de estadistica agraria de 2004. Ministerio Espanol de Agricultura Pesca y Alimentacion, Secretaria General Tecnica. p. 678.

24.
Mengel, K., B. Hutsch and Y. Kane. 2005. Nitrogen fertilizer application rates on cereal crops according to available mineral and organic soil nitrogen. European Journal of Agronomy 24(4):343-348.

25.
Options Mediterraneennes 1990. Tableaux de la valeur alimentaire pour les ruminants des fourrages et sous-produits d'origine mediterraneenne. CIHEAM. Serie B: $n^{\circ}$ 4.

26.
Moret, D., J. L. Arruea, M. V. Lopez and R. Gracia. 2007. Winter barley performance under different cropping and tillage systems in semiarid Aragon (NE Spain). European Journal of Agronomy 26(1):54-63. crossref(new window)

27.
Noro, G., S. Meredith, R. Serena and E. Andreatta. 2003. Gramineas anuais de invern para producao de forragen: Avalicao preliminar de cultivares. Agorciencia, Vol. VII $N^{\circ}$1 pp. 35-40.

28.
Shaoa, T., M. Shimojo, T. Wanga and Y. Masuda. 2005. Effect of additives on the fermentation quality and residual mono- and disaccharides compositions of forage oats (Avena sativa L.) and Italian ryegrass (Lolium multiflorum Lam.) silages. Asian- Aust. J. Anim. Sci. 18(11):1582-1587.

29.
Soil Survey Staff, 2003. Keys to soil taxonomy ninth edition. United States Department of Agriculture (USDA), Natural Resources Conservation Service (NRCS). p. 332.

30.
Steel, R. D. G. and J. H. Torrie. 1980. Principes and procedures of statistics. A biometrical approach. McGraw-Hill, New York.

31.
Tedla, A., H. Airaksinen and M. A. Mohamed Salem. 1992. Effect of seedbed methods and time of harvest on the yield and nutritive value of some forage crops grown on Vertisol at Debre Zeit, Ethiopia. Agricultural Science in Finland 1(5): 491-497.

32.
Zahiroddini, H., J. Baah and T. A. McAllister. 2006. Effects of microbial inoculants on the fermentation, nutrient retention, and aerobic stability of barley silage. Asian-Aust. J. Anim. Sci. 19(10):1429-1436.

33.
Zamora, V. M., A. J. Lozano, A. Lopez, M. H. Reyes, H. Diaz, J. M. Martinez and J. M. Fuentes. 2002. Clasificacion de triticales forrajeros por rendimiento de materia seca y calidad nutritiva en dos localidades de Coahuila. Tec. Pecu. Mex. 40 (3):229-242.