[Abdalla A.L., Sutton J.D., Phipps R.H., Humphries D.J. (1999). Digestion in the rumen of lactating dairy cows given mixtures of urea-treated whole-crop wheat and grass silage. Anim. Sci., 69: 203–212.]Search in Google Scholar
[AOAC (1990). Official Methods of Analysis. Washington, D.C, USA, Association of Official Analytical Chemists, 15th ed., 1298 pp.]Search in Google Scholar
[Aronen I. (1990). Barley protein and rapeseed meal as protein supplements for growing cattle. Acta Agric. Scand., 40: 297–307.10.1080/00015129009438564]Open DOISearch in Google Scholar
[Aronen I., Toivonen V., Ketoja E., Öfversten J. (1992). Beef production as influenced by stage of maturity of grass for silage and level and type of supplementary concentrates. Agric. Sci. Finl., 1: 441–460.]Search in Google Scholar
[England P., Gill M. (1985). The effect of fishmeal and sucrose supplementation on the voluntary intake of grass silage and live-weight gain of young cattle. Anim. Prod., 40: 259–265.]Search in Google Scholar
[Gill M., England P. (1984). Effect of degradability of protein supplements on voluntary intake and nitrogen retention in young cattle fed grass silage. Anim. Prod., 39: 31–36.]Search in Google Scholar
[Givens D.I., Moss A.R., Adamson A.H. (1993). The digestion and energy value of whole crop wheat treated with urea. Anim. Feed Sci. Tech., 43: 51−64.]Search in Google Scholar
[Huhtanen P., Nousiainen J., Rinne M. (2006). Recent developments in forage evaluation with special reference to practical applications. Agric. Food Sci., 15: 293–323.10.2137/145960606779216317]Open DOISearch in Google Scholar
[Huhtanen P., Rinne M., Nousiainen J. (2007). Evaluation of the factors affecting silage intake of dairy cows; a revision of the relative silage dry matter intake index. Animal, 1: 758–770.]Search in Google Scholar
[Huhtanen P., Rinne M., Nousiainen J. (2008). Evaluation of the concentrate factors affecting silage intake of dairy cows: a development of the relative total diet intake index. Animal, 2: 942–953.]Search in Google Scholar
[Huida L., Väätäinen H., Lampila M. (1986). Comparison of dry matter contents in grass silage as determined by oven drying and gas chromatographic water analysis. Ann. Agric. Fenn., 25: 215–230.]Search in Google Scholar
[Huuskonen A. (2009). The effect of cereal type (barley versus oats) and rapeseed meal supplementation on the performance of growing and finishing dairy bulls offered grass silage-based diets. Livest. Sci., 122: 53–62.]Search in Google Scholar
[Huuskonen A. (2011). Effects of barley grain compared to commercial concentrate or rapeseed meal supplementation on performance of growing dairy bulls offered grass silage-based diet. Agric. Food Sci., 20: 191–205.10.2137/145960611797471507]Open DOISearch in Google Scholar
[Huuskonen A. (2013). Performance of growing and finishing dairy bulls offered diets based on whole-crop barley silage with or without protein supplementation relative to a grass silage-based diet. Agric Food Sci., 22: 424–434.]Search in Google Scholar
[Huuskonen A., Joki-Tokola E. (2010). Performance of growing dairy bulls offered diets based on silages made of whole-crop barley, whole-crop wheat, hairy vetch and grass. Agric. Food Sci., 19: 116–126.10.2137/145960610791542325]Open DOISearch in Google Scholar
[Huuskonen A., Huhtanen P. (2015). The development of a model to predict BW gain of growing cattle fed grass silage-based diets. Animal, 9: 1329–1340.]Search in Google Scholar
[Huuskonen A., Huhtanen P., Joki-Tokola E. (2013). The development of a model to predict feed intake by growing cattle. Livest. Sci., 158: 74–83.]Search in Google Scholar
[Huuskonen A., Huhtanen P., Joki-Tokola E. (2014 a). Evaluation of protein supplementation for growing cattle fed grass silage-based diets: a meta-analysis. Animal, 8: 1653–1662.10.1017/S1751731114001517]Search in Google Scholar
[Huuskonen A., Pesonen M., Joki-Tokola E. (2014 b). Effects of supplementary concentrate level and separate or total mixed ration feeding on performance of growing dairy bulls. Agric. Food Sci., 23: 257–265.10.23986/afsci.46460]Search in Google Scholar
[Huuskonen A., Pesonen M., Honkavaara M. (2016). Performance and meat quality of Nordic Red and Aberdeen Angus bulls offered faba bean or field pea based whole crop legume-cereal silages. Agric. Food Sci., 25: 1–12.]Search in Google Scholar
[Jaakkola S., Saarisalo E., Hekkilä T. (2009). Formic acid treated whole crop barley and wheat silages in dairy cow diets: effects of crop maturity, proportion in the diet, and level and type of concentrate supplementation. Agric. Food Sci., 18: 234–256.10.2137/145960609790059569]Open DOISearch in Google Scholar
[Keady T.W.J. (2005). Ensiled maize and whole crop wheat forages for beef and dairy cattle: effects on animal performance. In: Silage production and utilization technology, Park R.S., Stronge M.D. (eds). Proc. XIVth International Silage Conference, Belfast, Northern Ireland, pp. 65–82.]Search in Google Scholar
[Keady T.W.J., Hanrahan J.P., Marley C.L., Scollan N.D. (2013). Production and utilization of ensiled forages by beef cattle, dairy cows, pregnant ewes and finishing lambs: a review. Agric Food Sci., 22: 70–92.]Search in Google Scholar
[Kristensen V.F. (1992). The production and feeding of whole-crop cereals and legumes in Denmark. In: Whole-crop cereals, Stark B.A., Wilkinson J.M. (eds). Chalcombe Publications, Kent, UK, pp. 21−37.]Search in Google Scholar
[Luke (2017). Feed tables and nutrient requirements. [cited 30.3.2017]. Available at: http://www.luke.fi/feedtables]Search in Google Scholar
[Ministry of Agriculture, Fisheries and Food (MAFF) (1984). Energy Allowances and Feeding Systems for Ruminants. ADAS Reference book 433. London, United Kingdom, Ministryof Agriculture, Fisheries and Food, Her Majesty’s Stationery Office, 85pp.]Search in Google Scholar
[Moisio T., Heikonen M. (1989). A titration method for silage assessment. Anim. Feed Sci. Technol., 22: 341–353.]Search in Google Scholar
[Nadeau E. (2007). Effects of plant species, stage of maturity and additive on the feeding value of whole-crop cereal silage. J. Sci. Food Agr., 87: 789−801.]Search in Google Scholar
[Ondersteijn C.J.M., Beldman A.C.G., Daatselaar C.H.G., Giesen G.W.J., Huir-ne R.B.M. (2002). The Dutch Mineral Accounting System and the European Nitrate Directive: Implications for N and P management and farm performance. Agr. Ecosyst. Environ., 92: 283–296.10.1016/S0167-8809(01)00288-2]Open DOISearch in Google Scholar
[Pesonen M., Honkavaara M., Kämäräinen H., Tolonen T., Jaakkola M., Virta-nen V., Huuskonen A. (2013). Effects of concentrate level and rapeseed meal supplementation on performance, carcass characteristics, meat quality and valuable cuts of Hereford and Charolais bulls offered grass silage-barley-based rations. Agric. Food Sci., 22: 151–167.]Search in Google Scholar
[Pesonen M., Joki-Tokola E., Huuskonen A. (2014). Effects of concentrate proportion and protein supplementation on performance of growing and finishing crossbred bulls fed a whole-crop barley silage-based diet. Anim. Prod., 54: 1399–1404.]Search in Google Scholar
[Rustas B.-O. (2009). Whole-crop cereals for growing cattle. Effects of maturity stage and chopping on intake and utilisation. Doctoral Thesis. Swedish University of Agricultural Sciences, Skara, Sweden, 60 pp.]Search in Google Scholar
[Sinclair L.A., Wilkinson R.G., Ferguson D.M.R. (2003). Effects of crop maturity and cutting height on the nutritive value of fermented whole crop wheat and milk production in dairy cows. Livest. Prod. Sci., 81: 257–269.10.1016/S0301-6226(02)00261-0]Open DOISearch in Google Scholar
[Steen R.W.J. (1988). The effect of supplementing silage-based diets with soya bean and fish meals for finishing beef cattle. Anim. Prod., 46: 43–51.]Search in Google Scholar
[Steen R.W.J. (1989). A comparison of soya-bean, sunflower and fish meals as protein supplements for yearling cattle offered grass silage-based diets. Anim. Prod., 48: 81–89.]Search in Google Scholar
[Steen R.W.J. (1992). A comparison of soya-bean meal, fish meal and maize gluten feed as protein sources for calves offered grass silage ad libitum. Anim. Prod., 54: 333–339.]Search in Google Scholar
[Van Keulen J., Young B.A. (1977). Evaluation of acid-insoluble ash as a marker in ruminant digestibility studies. J. Anim. Sci., 44: 282–287.]Search in Google Scholar
[Wallsten J. (2008). Whole-crop cereals in dairy production. Digestibility, feed intake and milk production. Doctoral Thesis. Swedish University of Agricultural Sciences, Umeå, Sweden, 45 pp.]Search in Google Scholar
[Wallsten J., Nadeau E., Bertilsson B., Martinsson K. (2009). Voluntary intake and diet selection by dairy heifers fed ensiled whole-crop barley and oats harvested at different stages of maturity. Livest. Sci., 122: 94–98.]Search in Google Scholar
[Walsh K., O’Kiely P., Moloney A.P., Boland T.M. (2008). Intake, performance and carcass characteristics of beef cattle offered diets based on whole-crop wheat or forage maize relative to grass silage or ad libitum concentrates. Livest. Sci., 116: 223–236.]Search in Google Scholar
[Zadoks J.C., Chang T.T., Konzak C.F. (1974). A decimal code for the growth stages of cereals. Weed Res., 14: 415–421.10.1111/j.1365-3180.1974.tb01084.x]Open DOISearch in Google Scholar
