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Understanding the nutritional chemistry of lupin (Lupinus spp.) seed to improve livestock production efficiency

Published online by Cambridge University Press:  14 December 2007

Robert J. van Barneveld*
Affiliation:
Barneveld Nutrition Pty Ltd and the BECAN Consulting Group, PO Box 42, Lyndoch, SA 5351, Australia
*
Corresponding author: Dr Robert J. van Barneveld, fax +61 8 8524 6577, email [email protected]
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Abstract

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In their raw, unprocessed form, lupins have many desirable characteristics for feeding both ruminants and single-stomached animals. An emphasis on these desirable characteristics when formulating diets, combined with an advanced knowledge of how components of lupins can influence nutritional value, will ensure they make a cost-effective contribution to livestock diets. The main lupin species used in livestock diets include Lupinus albus, L. angustifolius and L. luteus. Supplementation of ruminant diets with lupins has been shown to have many positive effects in terms of growth and reproductive efficiency, comparable with supplements of cereal grain. The true value of lupins in ruminants, however, can only be determined following a better definition of animal requirements and a closer match of ration specifications. Pigs can effectively utilize L. angustifolius and L. luteus, but detailed research has yet to reveal the reason for poor utilization of diets containing L. albus. Poultry can tolerate high levels of lupins in their diets but levels are often restricted to avoid problems associated with excess moisture in the excreta. Variable responses to enzymes have been observed when attempting to rectify this problem. Lupins have unique carbohydrate properties characterized by negligible levels of starch, high levels of soluble and insoluble NSP, and high levels of raffinose oligosaccharides, all of which can affect the utilization of energy and the digestion of other nutrients in the diet. In addition to carbohydrates, an understanding of lupin protein, lipid and mineral composition together with a knowledge of potential anti-nutritional compounds is required if the use of this legume is to be optimized.

Type
Research Article
Copyright
Copyright © CABI Publishing 1999

References

Adsule, RN & Kadam, SS (1989) Proteins. In Handbook of World Food Legumes: Nutritional Chemistry, Processing Technology and Utilization—Volume 1, pp. 7598 [Salunkhe, DK and Kadam, SS, editors]. Boca Raton, FL: CRC Press Inc.Google Scholar
Aguilera, JF,Molina, E & Prieto, C (1985) Digestibility and energy value of sweet lupin seed (Lupinus albus var multolupa) in pigs. Animal Feed Science and Technology 12, 171178.Google Scholar
Alloui, O, Smulikowska, S, Chibowska, M & Pastuszewska, B (1994) The nutritive value of lupin seeds (L. luteus, L. angustifolius and L. albus) for broiler chickens as affected by variety and enzyme supplementation. Journal of Animal and Feed Sciences 3, 215227.Google Scholar
Annison, G, Choct, M & Hughes, RJ (1994) AME determination and its application to lupins. Proceedings of the Australian Poultry Science Symposium, pp. 9295. Sydney, New South Wales: University of Sydney.Google Scholar
Annison, G, Hughes, RJ & Choct, M (1996) Effects of enzyme supplementation on the nutritive value of dehulled lupins. British Poultry Science 37, 157172.CrossRefGoogle Scholar
Antoniewicz, A, Dumanska, K & Ombach, A (1992) Availability of phosphorus from field bean (Vicia faba) and lupin (Lupinus albus) seeds to broiler chickens. Journal of Animal and Feed Sciences 1, 127137.CrossRefGoogle Scholar
Arnold, GW & Charlick, AJ (1976) The use of sweet lupins in pastoral systems with breeding ewes. Proceedings of the Australian Society of Animal Production 13, 233236.Google Scholar
Arnold, GW, Charlick, AJ & Wallace, SR (1976) Comparisons of crops of lupins, peas and vetches for weaner sheep in summer in a Mediterranean environment. Proceedings of the Australian Society of Animal Production 11, 361364.Google Scholar
Arnold, GW & Wallace, SR (1977) The comparative nutritive value of weaner sheep of stubble and grain of pea, vetch and lupin crops. Australian Journal of Agricultural Research 28, 143154.CrossRefGoogle Scholar
Arnold, GW, Wallace, SR & de Boer, ES (1977) Effects of grain supplements on lamb birth weight and growth rate and on milk production in Merino ewes. Australian Journal of Experimental Agriculture and Animal Husbandry 17, 915919.Google Scholar
Bach Knudsen, KE (1997) Carbohydrate and lignin contents of plant materials used in animal feeding. Animal Feed Science and Technology 67, 319338.Google Scholar
Barker, DJ, May, PJ & Ridley, PER (1985) Urea, meat meal or lupins as nitrogen supplements to barley and hay diets for yearling cattle at two levels of body condition. Australian Journal of Experimental Agriculture 25, 257262.CrossRefGoogle Scholar
Barnett, CW & Batterham, ES (1981) Lupinus angustifolius (cv. Unicrop) as a protein and energy source for weaner pigs. Animal Feed Science and Technology 6, 2734.Google Scholar
Bartsch, BD, Twigger, CF & Valentine, SC (1986) Lupins, beans, peas and barley as alternative grains for dairy cows fed hay. Proceedings of the Australian Society of Animal Production 16 404.Google Scholar
Batterham, ES (1979) Lupinus albus cv. Ultra and Lupinus angustifolius cv. Unicrop as protein concentrates for growing pigs. Australian Journal of Agricultural Research 30, 369375.Google Scholar
Batterham, ES (1992) Availability and utilisation of amino acids for growing pigs. Nutrition Research Reviews 5, 118.Google Scholar
Batterham, ES, Murison, RD & Anderson, JM (1984) Availability of lysine in vegetable protein concentrates as determined by the slope-ratio assay with growing pigs and rats and by chemical techniques. British Journal of Nutrition 51, 8599.CrossRefGoogle Scholar
Bekric, B, Bozovic, I, Pavlovski, Z & Masic, B (1990) Lupin, field pea, horse bean and soya-bean in combination with maize as feed for 21 to 52 days old broilers. Options Mediterraneennes. Serie A, Seminaires Mediterraneens 7, 103106.Google Scholar
Bourdon, D, Perez, JM & Calmes, R (1980) Lupin (Lupinus albus) in the feeding of pigs. Energy and protein value and mode of utilization. Journees de la Recherche Porcine en France, 245263.Google Scholar
Brenes, A, Marquardt, RR, Guenter, W & Rotter, BA (1993) Effect of enzyme supplementation on the nutritional value of raw, autoclaved, and dehulled lupins (Lupinus albus) in chicken diets. Poultry Science 72, 22812293.Google Scholar
Bryden, WL, Gill, RJ & Balnave, D (1994) Feed enzyme supplement improves the apparent metabolisable energy of lupins for broiler chickens. In Proceedings of the Australian Poultry Science Symposium p. 115, Sydney, Victoria: University of Sydney.Google Scholar
Buraczewska, L, Pastuszewska, B, Smulikowska, S, Wasilewko, J, v d Poel, AFB, Huisman, J & Saini, HS (1993) Response of pigs, rats and chickens to dietary level of alkaloids of different lupin species. Recent Advances of Research in Antinutritional Factors in Legume Seeds pp. 371376 [van der Poel, AFB, Huisman, J and Saini, HS, editors]. Wageningen, The Netherlands: Wageningen Pers.Google Scholar
Butler, LG & McDonald, CL (1986) Growth response of young Merino wethers to ad libitum feeding of oat grain mixed with either lupin seed or a urea solution. Australian Journal of Experimental Agriculture 26, 643646.Google Scholar
Callow, CR (1993) Lupins in introductory rations for lot-fed steers. In Recent Advances In Animal Nutrition In Australia, p. 9B [Farrell, DJ, editor]. Armidale, New South Wales: University of New England.Google Scholar
Carre, B, Brillouet, JM & Thibault, JT (1985) Characterisation of polysaccharides from white lupin (Lupinus albus L.) cotyledons. Journal of Agricultural and Food Chemistry 33, 285292.Google Scholar
Carbon, BA, Arnold, GW & Wallace, SR (1972) The contribution of lupin seed to the performance of animals grazing Uniwhite lupins. Proceedings of the Australian Society of Animal Production 9, 281285.Google Scholar
Castanon, JIR & Perez Lanzac, J (1990) Substitution of fixed amounts of soyabean meal for field beans (Vicia faba), sweet lupins (Lupinus albus), cull peas (Pisum sativum) and vetches (Vicia sativa) in diets for high performance laying Leghorn hens. British Poultry Science 31, 173180.Google Scholar
Centeno, C, Yuste, P, Rubio, LA, Trevino, J & Brenes, A (1990) Influence of lupin (Lupinus albus) and flavomycin supplementation in broiler diets. Archivos de Zootecnia 39, 1524.Google Scholar
Chalupa, W & Sniffen, CJ (1993) Protein and amino acid nutrition of lactating dairy cattle-today and tomorrow. In Proceedings of the Fourteenth Western Nutrition Conference, pp. 8798. Calgary, Alberta: Western Nutrition Conference Organisers.Google Scholar
Cheung, PCK (1990) The carbohydrates of Lupinus angustifolius. A composite study of the seeds and structural elucidation of the kernel cell wall polysaccharides of Lupinus angustifolius. PhD Thesis, University of New South Wales.Google Scholar
Coffey, R (1994) International markets and marketing of lupins. In Proceedings of the First Australian Lupin Technical Symposium, pp. 235237 [Dracup, M and Palta, J, editors]. South Perth, Western Australia: Department of Agriculture.Google Scholar
Coon, CN, Leske, KL, Akavanichan, O & Cheng, TK (1990) Effect of oligosaccharide-free soybean meal on true metabolizable energy and fibre digestion in adult roosters. Poultry Science 69, 787793.CrossRefGoogle Scholar
Cottle, DJ (1988) Effects of defaunation of the rumen and supplementation with amino acids on the wool production of housed Saxon Merinos. 1. Lupins and extruded lupins. Australian Journal of Experimental Agriculture 28, 173178.Google Scholar
Cuadrado, C, Ayet, G, Burbano, C, Muzquiz, M, Camacho, L, Cavieres, E, Lovon, M, Osagie, A & Price, KR (1995) Occurrence of saponins and sapogenols in Andean crops. Journal of the Science of Food and Agriculture 67, 169172.Google Scholar
Curtis, KMS & Mavrantonis, B (1990) Intake of lupin seed and pasture by sheep fed lupins while grazing dry pasture. Proceedings of the Australian Society of Animal Production 18, 180183.Google Scholar
Dixon, RM & Hosking, BJ (1992) Nutritional value of grain legumes for ruminants. Nutrition Research Reviews 5, 1943.Google Scholar
Donovan, BC, McNiven, MA, van Lunen, TA, Anderson, DM & MacLeod, JA (1993) Replacement of soybean meal with dehydrated lupin seeds in pig diets. Animal Feed Science and Technology 43, 7785.Google Scholar
Dunshea, FR (1997) Influence of lupins on voluntary feed intake by pigs. In Understanding the Nutritional Value of Lupins, pp. 1418 [van Barneveld, RJ, principal investigator]. Pig Research and Development Corporation Final Report – DAS 33P. Canberra: Pig Research and Development Corporation.Google Scholar
Eder, K, Roth Maier, KE & Kirchgessner, M (1996) The effects of enzyme supplements and high amounts of white lupins on concentrations of lipids in serum and meat in fattening chickens. Archives of Animal Nutrition 49, 221228.Google Scholar
Edwards, AC (1994) Domestic markets for lupins. In Proceedings of the First Australian Lupin Technical Symposium, pp. 238243 [Dracup, M and Palta, J, editors]. South Perth, Western Australia: Department of Agriculture.Google Scholar
Edwards, AC & van Barneveld, RJ (1998) Lupins for livestock and fish. In Lupins as Crop Plants. Biology, Production and Utilization, pp. 385411 [Gladstones, JS, Atkins, CA and Hamblin, J, editors]. New York, NY: CAB International.Google Scholar
Fernandez, JA & Batterham, ES (1995) The nutritive value of lupin seed and dehulled lupin seed meals as protein sources for growing pigs as evaluated by different techniques. Animal Feed Science and Technology 53, 279296.Google Scholar
Fletcher, IC (1981) Effects of energy and protein intake on ovulation rate associated with feeding of lupin grain to Merino ewes. Australian Journal of Agricultural Research 32, 7987.Google Scholar
Fukamchi, K (1986) Usage of lupin as feed ingredient for cattle in Japan. Proceedings of the 4th International Lupin Conference, pp. 7783. Geraldton, Western Australia: Department of Agriculture.Google Scholar
Gabert, VM, Sauer, WC, Mosenthin, R, Schmitz, M & Ahrens, F (1995) The effect of oligosaccharides and lactitol on the ileal digestibilities of amino acids, monosaccharides and bacterial populations and metabolites in the small intestine of weanling pigs. Canadian Journal of Animal Science 75, 99107.Google Scholar
Gatel, F (1994) Protein quality of legume seeds for non-ruminant animals: a literature review. Animal Feed Science and Technology 45, 317348.Google Scholar
Godfrey, NW, Mercy, AR, Emms, Y & Payne, HG (1985) Tolerance of growing pigs to lupin alkaloids. Australian Journal of Experimental Agriculture 25, 791795.Google Scholar
Godfrey, NW & Payne, HG (1987) The value of dietary lupin kernel meal for pigs. In Manipulating Pig Production, p. 153 [Australasian Pig Science Association Committee, editors]. Werribee, Victoria: Australasian Pig Science Association.Google Scholar
Godfrey, SI, Rowe, JB, Speijers, EJ & Toon, W (1993) Lupins, barley, or barley plus virginiamycin as supplements for sheep at different feeding intervals. Australian Journal of Experimental Agriculture 33, 135140.Google Scholar
Gomes, FE & Kaushik, S (1990) Incorporation of lupin seed meal, colzapro or triticale as protein/energy substitutes in rainbow trout diets. In The Current Status of Fish Nutrition in Aquaculture. The Proceedings of the Third International Symposium on Feeding and Nutrition in Fish, pp. 315324 [Takeda, M and Watanabe, T, editors]. Toba, Japan.Google Scholar
Gouveia, A, Olivia-Teles, A, Gomes, E & Rema, P (1993) Effect of cooking/expansion of three legume seeds on growth and food utilization by rainbow trout. Fish Nutrition in Practice 61, 933938.Google Scholar
Gueguen, J (1983) Legume seed protein extraction, processing and end product characteristics. Quality Plant and Plant Foods in Human Nutrition 32, 267.Google Scholar
Guillaume, B, Otterby, DE, Linn, JG, Stern, MD & Johnson, DG (1987) Comparison of sweet white lupin seeds with soybean meal as a protein supplement for lactating dairy cows. Journal of Dairy Science 70, 23392348.Google Scholar
Hansen, RP & Czochanska, Z (1974) Composition of the lipids of lupin seed (Lupinus angustifolius L. var “Uniwhite”). Journal of the Science of Food and Agriculture 25, 409415.Google Scholar
Harris, DJ, Spadek, ZE & Baseden, S, (1986) Report on Chemical Evaluation of Lupinseed as a Feed Grain. Perth, Western Australia. Government Chemical Laboratories.Google Scholar
Hawthorne, WA (1982) Grain legumes as supplements for grazing steers. Proceedings of the Australian Society of Animal Production 14, 345348.Google Scholar
Hawthorne, WA (1984) Supplementing grazing steers with grain legumes. Proceedings of the Australian Society of Animal Production 15, 384387.Google Scholar
Hawthorne, WA & Stacey, RW (1984) The influence of the quantity and frequency of feeding a lupin supplement to grazing lambs. Proceedings of the Australian Society of Animal Production 15, 691.Google Scholar
Heartland Lysine Inc. (1992) True Digestibility of Essential Amino Acids for Poultry. Chicago, IL: Heartland Lysine Inc.Google Scholar
Hinch, GN & Thwaites, CJ (1990) Lupin supplementation in late pregnancy. Effects on ewe lactation and lamb growth. Proceedings of the Australian Society of Animal Production 18, 489.Google Scholar
de la Higueraz, M, Garcia-Gallego, M, Sanz, A, Cardenete, G, Suarez, MD & Moyano, FJ (1988) Evaluation of lupin seed meal as an alternative protein source in feeding of rainbow trout (Salmo gairdneri). Aquaculture 71, 3750.Google Scholar
Hodge, RW, Bogdanovic, B & Scott, B (1982) The performance of early weaned Merino lambs given rations of wheat and lupin grain. Proceedings of the Australian Society of Animal Production 14, 643.Google Scholar
Hodge, RW, Bogdanovic, B & Sweatman, D (1981) Wool production of merino sheep fed daily or twice weekly on oats or lupins. Australian Journal of Experimental Agriculture and Animal Husbandry 23, 1923.Google Scholar
Hough, GM & Jacobs, JL (1994) The use of lupins as a feed for dairy and beef cattle. In Proceedings of the First Australian Lupin Technical Symposium, pp. 5866 [Dracup, M and Palta, J, editors) South Perth, Western Australia: Department of Agriculture.Google Scholar
Hughes, RJ, van Barneveld, RJ & Choct, M, (1998) Factors Influencing the Nutritive Value of Lupins for Broiler Chickens. Chicken Meat Research Development Committee Final Report Project no. DAS 10CM. Canberra: Rural Industries Research and Development Corporation.Google Scholar
Hughes, SG (1988) Assessment of lupin flour as a diet ingredient for rainbow trout (Salmo gairdneri). Aquaculture 71, 379385.Google Scholar
Hughes, S (1991) Use of lupin flour as a replacement for full-fat soy in diets for rainbow trout (Oncorhynchus mykiss). Aquaculture 93, 5762.Google Scholar
Hynd, PI, Valentine, SC & Bartsch, BD (1985) Rumen protozoa numbers in dairy cows fed barley or lupins. Proceedings of the Australian Society of Animal Production 10, 147.Google Scholar
Irish, G, Barbour, GW, Classen, HL, Tyler, RT & Bedford, MR (1995) Removal of the α-galactosides of sucrose from soybean meal using either ethanol extraction or exogenous α-galactosidase and broiler performance. Poultry Science 74, 14841494.Google Scholar
Jacyno, E, Czarnecki, R, Lubowicki, R & Delecka, A (1992 a) Nutritive value of seeds of yellow lupin (Lupinus lutens), pea (Pisum sativum) and horse bean (Vicia faba) in feeding growing sows. World Review of Animal Production 27, 8688.Google Scholar
Jacyno, E, Czarnecki, R, Owsianny, J, Wejksza, D & Palusinski, J (1992 b) The effect of seeds of yellow lupin and pea as a source of protein in feeding pigs on their growth rate. World Review of Animal Production 27, 1214.Google Scholar
Jenkins, GI, Waters, SP, Hoxey, MJ & Petterson, DS (1994) Lupin seed (Lupinus angustifolius) as an alternative to soybean meal in the diet of juvenile snapper (Pagrus auratus). The nutritive value of lupins for pigs and poultry. In Proceedings of the First Australian Lupin Technical Symposium, pp. 7478 [Dracup, M and Palta, J, editors]. South Perth, Western Australia: Department of Agriculture.Google Scholar
Johnson, IT, Gee, JM, Price, K, Curl, C & Fenwick, GR (1986) Influence of saponins on gut permeability and active nutrient transport in vitro. Journal of Nutrition 116, 22702277.Google Scholar
Johnson, R & Eason, P (1991) The effect of dietary combinations of grains legumes on the growth performance of broiler chickens. Proceedings of the Australian Poultry Science Symposium, pp. 6467. Sydney, New South Wales: University of Sydney.Google Scholar
Johnsson, ID, Obst, JM & Davies, R (1982) Observations on the use of lupin feeding or exogenous hormones to improve the reproductive performance of stud and commercial ewes in the south-east of South Australia. Wool Technology and Sheep Breeding 03/04, 2330.Google Scholar
Karunajeewa, H & Bartlett, BE (1985) The effects of replacing soyabean meal in broiler starter diets with white lupin seed meal of high manganese content. Nutrition Reports International 31, 5358.Google Scholar
Kelly, JD, Cheeke, PR & Patton, NM (1990) Evaluation of lupin (Lupinus albus) seed as a feedstuff for swine and rabbits. Journal of Applied Rabbit Research 13, 145150.Google Scholar
Kemm, EH, Minnaar, JP, Ras, MN & Davie, SJ (1987) Lupin seed meal (Lupinus albus cv Buttercup) as a source of protein for early weaned piglets. South African Journal of Animal Science 17, 3742.Google Scholar
Kenney, PA (1980) Intake and production of lambs fed rations of oats with varying amounts of lupins. Proceedings of the Australian Society of Animal Production 13, 253256.Google Scholar
Kenney, PA & Smith, RS (1985) Effects of including lupins with cereal grain rations on the production of lambing ewes during drought. Australian Journal of Experimental Agriculture 25, 529535.Google Scholar
King, RH (1981) Lupin-seed meal (Lupinus albus cv Hamburg) as a source of protein for growing pigs. Animal Feed Science and Technology 6, 285296.Google Scholar
King, RH (1990) Lupins. In Nontraditional Feed Sources for Use in Swine Production, pp. 237246 [Thacker, PA and Kirkwood, RN, editors). Boston, MA: Butterworth Publishers.Google Scholar
King, RH (1997) The digestible and productive energy value of Lupinus angustifolius and Lupinus albus for growing pigs. In Understanding the Nutritional Value of Lupins, pp. 1418 [van Barneveld, RJ, principal investigator]. Pig Research and Development Corporation Final Report – DAS 33P. Canberra: Pig Research and Development Corporation.Google Scholar
Landers, KF (1991) Lupin Production and Research in South-Eastern Australia. Technical Bulletin no. 44 pp. 117. Orange, New South Wales: New South Wales Agriculture and Fisheries.Google Scholar
Lemerle, C, Etheridge, MD & Trigg, TE (1985) Protein supplementation of dairy cattle on maize silage diets. Proceedings of the Nutrition Society of Australia 10, 158.Google Scholar
Leury, BJ, Murray, PJ & Rowe, JB (1990) Effect of nutrition on the response in ovulation rate in merino ewes following short term lupin supplementation and insulin administration. Australian Journal of Agricultural Research 41, 751759.Google Scholar
Lindsay, DR (1976) The usefulness to the animal producer of research findings in nutrition on reproduction. Proceedings of the Australian Society of Animal Production 11, 217224.Google Scholar
Macrae, R & Zand-Moghaddam, A (1978) The determination of the component oligosaccharides of lupin seeds by HPLC. Journal of the Science of Food and Agriculture 29, 10831086.Google Scholar
Margan, DE (1994) Energy and protein value of lupin seed as a production ration or as a supplement for sheep fed chaffed wheaten hay. Australian Journal of Experimental Agriculture 34, 331337.Google Scholar
Marquardt, RR (1993) Enhancement of the nutritive value of cereals (wheat, oats, barley and rye) and lupins for poultry by the inclusion of enzymes in the diet. Ninth Australian Poultry and Feed Convention, pp. 3140. Gold Coast, Queensland: Australian Stockfeed Manufacturers Association.Google Scholar
Mathers, JC, Thomas, RJ & Gray, NAM (1979) The nutritive value of feed proteins which escape degradation in the rumen. Proceedings of the Nutrition Society 38, 122A.Google Scholar
May, MG, Otterby, DE, Linn, JG, Hansen, WP, Johnson, DG & Putnam, DH (1993) Lupins (Lupinus albus) as a protein supplement for lactating Holstein dairy cows. Journal of Dairy Science 76, 26822691.Google Scholar
Miao, ZH (1998) The influence of domestication and environment on the value of lupins for ruminants. PhD Thesis, University of Adelaide.Google Scholar
Mironenko, AV, Troitskaya, TM, Shurkhai, SF & Domash, VI (1978) Vicilin and legumin like proteins of yellow lupin seeds. Prikl Biokhimiva Mikrobiol 14, 752760.Google Scholar
Moate, PJ, Rogers, GL & Robinson, IB (1984) Lupins or oats as supplements for cows fed pasture in early lactation. Proceedings of the Australian Society of Animal Production 15 721.Google Scholar
Morcombe, PW, Croker, KP & Allen, JG (1987) Liver damage and the liveweight changes in Merino wether weaners grazing mixed crops of oats and sweet narrow-leafed lupins. Australian Journal of Experimental Agriculture 27, 1925.CrossRefGoogle Scholar
Morcombe, PW & Ferguson, J (1990) Lupin, pea and wheat grain as supplements for young Merino sheep grazing wheat stubble. Proceedings of the Australian Society of Animal Production 18, 304307.Google Scholar
Morcombe, PW, Ryan, WJ & Allen, JG (1986) Sandplain lupins (Lupinus cosentinii) as a summer feed for yearling steers. Australian Journal of Experimental Agriculture 26, 1318.Google Scholar
Morrissy, NM (1992) Feed Development for Marron, Cherax tenuimanus, in Western Australia. In Proceedings of Aquaculture Nutrition Workshop, Salamander Bay, 15–17 April, 1991, pp. 7276 [Allan, GL and Dall, W, editors]. Salamander Bay, New South Wales, Australia: NSW Fisheries, Brackish Water Fish Culture Research Station.Google Scholar
Moyano, FJ, Cardenete, G & de la Higuera, M (1992) Nutritive value of diets containing a high percentage of vegetable proteins for trout, Oncorhynchus mykiss. Aquaculture and Living Resources 5, 2329.Google Scholar
Mullan, BP & van Barneveld, RJ (1997) Nutritional value of yellow lupins (Lupinus luteus) for growing pigs. In Understanding the Nutritional Value of Lupins, pp. 1418 [van Barneveld, RJ, principal investigator]. Pig Research and Development Corporation Final Report - DAS 33P. Canberra: Pig Research Development Corporation.Google Scholar
Mullan, BP, van Barneveld, RJ & Cowling, WA (1997) Yellow lupins (Lupinus luteus): A new feed grain for the pig industry. In Manipulating Pig Production VI. Proceedings of the Sixth Biennial Conference of the Australasian Pig Science Association (APSA), p. 237 [ Cranwell, PD, editor]. Canberra: Australasian Pig Science Association.Google Scholar
Murray, PJ (1994) The use of lupins as a feed for sheep. In Proceedings of the First Australian Lupin Technical Symposium, pp. 6773 [Dracup, M and Palta, J, editors]. South Perth, Western Australia: Department of Agriculture.Google Scholar
Noblet, J (1997) Digestive and metabolic utilisation of energy from L. angustifolius and L. albus fed to growing pigs and adult sows. In Understanding the Nutritional Value of Lupins, pp. 1418 [van Barneveld, RJ, principal investigator]. Pig Research and Development Corporation Final Report – DAS 33P. Canberra: Pig Research and Development Corporation.Google Scholar
Noblet, J, Fortune, H, Shi, XS & Dubois, S (1994) Prediction of net energy value of feeds for growing pigs. Journal of Animal Science 72 344354.CrossRefGoogle Scholar
Noblet, J, Mancuso, M, Bourdon, D & van Barneveld, R (1998) Valeur energetique du lupin (Lupinus angustifolius) pour le porc en croissance et la truie adulte (The energy value of the lupin (Lupinus angustifolius) for the growing pig and adult sow). Journees Rechereches Porcine en France 30, 239243.Google Scholar
Nottle, MB, Hynd, PI, Setchell, BP & Seamark, RF (1985) Lupin feeding and fertility rate in the Merino ewe. Proceedings of the Australian Society of Reproductive Biology 17, 23.Google Scholar
Ørskov, RE & McDonald, I (1979) The estimation of protein degradability in the rumen from incubation measurements weighted according to rate of passage. Journal of Agricultural Science 92, 499503.Google Scholar
Pearson, G & Carr, JR (1976) Lupin-seed meal (Lupinus angustifolius cv. Uniwhite) as a protein supplement to barley based diets for growing pigs. Animal Feed Science and Technology 1, 631642.Google Scholar
Pearson, G & Carr, JR (1977) A comparison between meals prepared from the seeds of different varieties of lupin as protein supplements to barley-based diets for growing pigs. Animal Feed Science and Technology 2, 4958.Google Scholar
Perez-Escamilla, R, Vohra, P & Klasing, K (1988) Lupins (Lupinus albus var. Ultra) as a replacement for soybean meal in diets for growing chickens and turkey poults. Nutrition Reports International 38, 583593.Google Scholar
Petterson, DS (1998) Composition and food uses of legumes. In Lupins as Crop Plants. Biology, Production and Utilization [Gladstones, JS, Atkins, CA and Hamblin, J, editors]. New York: CAB International (In the Press).Google Scholar
Petterson, DS, Sipsas, S & Mackintosh, JB (1997) The Chemical Composition and Nutritive Value of Australian Pulses, 2nd ed. Canberra: Grains Research and Development Corporation.Google Scholar
Ravindran, V, Hew, LI & Bryden, WL (1998) Digestible Amino Acids in Poultry Feedstuffs. Rural Research and Development Corporation Publication no. 98/9, p. 34. Canberra: Rural Industries Research and Development Corporation.Google Scholar
Reddy, NR, Pierson, MD, Sathe, SK & Salunkhe, DK (1983) Chemical, nutritional and physiological aspects of dry bean carbohydrates: a review. Food Chemistry 13, 2568.Google Scholar
Rhone, Poulenc. Animal Nutrition (1989) Nutrition Guide: Feed Formulation with Digestible Amino Acids, 1st ed. Antony Cedex, France: Rhone Poulenc Animal Nutrition.Google Scholar
Robertson, JA & Hinch, GN (1990) The effect of lupin feeding on embryo mortality. Proceedings of the Australian Society of Animal Production 18, 544.Google Scholar
Robiana, L, Izquierdo, MS, Moyano, FJ, Socorro, J, Vergara, JM, Montero, D & Fernandez-Palacios, H (1995) Soybean and lupin seed meals as protein sources in diets for gilthead seabream (Sparus aurata): Nutritional and histological implications. Aquaculture 130, 219233.Google Scholar
Rojas, CG & Carrasco, LD (1987) Lupin grain levels in steer rations. Agricultura Tecnica 47, 6770.Google Scholar
Roth Maier, DA & Kirchgessner, M (1994 a) White lupins (Lupinus albus L.) as a replacement for soybean meal in diets for fattening chickens. Archiv fur Geflugelkunde 58, 111114.Google Scholar
Roth Maier, KE & Kirchgessner, M (1994 b) High proportions of white lupins (Lupinus albus L.) and enzyme supplements to fattening chickens. Archiv fur Geflugelkunde 58, 245248.Google Scholar
Roth Maier, KE & Kirchgessner, M (1995) Feeding of high proportions of freshly harvested or stored white lupins (Lupinus albus L.) and enzyme supplements to fattening chickens. Archiv fur Geflugelkunde 59, 108111.Google Scholar
Rowe, J, Murray, P, Croker, K & Johns, M (1983) In Reproduction in Farm Animals, pp. 133139 [Oldham, CM, Paterson, AM and Pearce, DT, editors]. Perth, Western Australia: Australian Society of Animal Production.Google Scholar
Ruiz, RG, Price, KR, Fenwick, GR, Arthur, AE & Petterson, D (1993) The saponin content and composition of sweet lupin seed. In Recent Advances of Research in Antinutritional Factors in Legume Seeds, pp. 147150 [van der Poel, AFB, Huisman, J and Saini, HS, editors]. Wageningen, The Netherlands: Wageningen Pers.Google Scholar
Rulquin, H & Verite, R (1993) Amino acid nutrition of dairy cows: Productive effects and animal requirements. In Recent Advances In Animal Nutrition. Proceedings of the 27th University of Nottingham Feed Manufacturers Conference, pp. 5577 [Garnsworthy, PC and Cole, DJA, editors]. Nottingham: Nottingham University Press.Google Scholar
Sathe, SK & Salunkhe, DK (1981) Functional properties of the Great Northern bean (Phaseolus vulgaris L.) proteins: sorption, buffer, ultraviolet, dielectric and adhesive properties. Journal of Food Science, 46, 19101913.Google Scholar
Satterlee, ID, Bembers, M & Kendrick, JG (1975) Functional properties of Great Northern bean (Phaseolus vulgaris L.) protein isolates. Journal of Food Science 40, 8184.CrossRefGoogle Scholar
Schams-Schargh, VM, Zollitsch, W, Knaus, W & Lettner, F (1994) The use of lupins in poultry diets. Bodenkultur 45, 163175.Google Scholar
Schiemann, R, Nehring, K, Hoffmann, L, Jentsch, W & Chudy, A (1971) Energetische futterbewertung und energienormen (Food energy evaluation and energy standardization). Berlin: VEB Deutscher Landwirtschafts–Verlag.Google Scholar
Schoeneberger, H, Gross, R, Cremer, HD & Elmadfa, I (1983) The protein quality of lupins (Lupinus mutabilis) alone and in combination with other protein sources. Quality Plants and Plant Foods in Human Nutrition 32, 133143.Google Scholar
Searle, TW & Graham, NMcC (1980) The short-term response in nitrogen balance of sheep fed lupin supplement. Proceedings of the Australian Society of Animal Production 13, 456.Google Scholar
Sinclair, SE & Gooden, JM (1989) Effects of barley and lupin supplementation on milk composition and plasma metabolites in lactating ewes. In Recent Advances In Animal Nutrition In Australia, p. 17A [ Farrell, DJ, editor]. Armidale, New South Wales: University of New England.Google Scholar
Stahly, TS (1984) Use of fats in diets for growing pigs. In Fats in Animal Nutrition, pp. 313331 [ Wiseman, J, editor]. London: Butterworths.Google Scholar
Standing Committee on Agriculture (1987) Feeding Standards for Australian Livestock. Pigs. East Melbourne, Victoria: CSIRO.Google Scholar
Steggerda, FR, Shimizu, T, Anderson, J & Pearl, SL (1970) Soybean factors relating to gas production by intestinal bacteria. Journal of Food Science 35, 634639.Google Scholar
Taverner, MR (1975) Sweet lupin seed meal as a protein source for growing pigs. Animal Production 20, 413419.Google Scholar
Taverner, MR, Curic, DM & Rayner, CJ (1983) A comparison of the extent and site of energy and protein digestion of wheat, lupin and meat and bone meal by pigs. Journal of the Science of Food and Agriculture 34, 122128.CrossRefGoogle Scholar
Teleni, E, King, WR, Rowe, JB & McDowell, GH (1989 a) Lupins and energy yielding nutrients in ewes. I. Glucose and acetate biokinetics in metabolic hormones in sheep fed a supplement of lupin grain. Australian Journal of Agricultural Research 40, 913924.Google Scholar
Teleni, E, Rowe, JB, Croker, KP, Murray, PJ & King, WR (1989 b) Lupins and energy yielding nutrients in ewes. II. Responses in ovulation rate in ewes to increased availability of glucose, acetate and amino acids. Reproduction, Fertility and Development 1, 117125.Google Scholar
Thank, VH & Shibasaki, K (1976) Major protein of soybean seed. A straightforward fractionation and their characterisation. Journal of Agricultural and Food Chemistry 24, 11171124.Google Scholar
Thompson, AN & Curtis, KMS (1990) The effects of lupin or oat grain supplements on liveweight change staple strength and position of break for sheep grazing dry annual pastures. Proceedings of the Australian Society of Animal Production 18, 400403.Google Scholar
Trugo, LC & Almeida, DCF (1988) Oligosaccharide contents of seeds of cultivated lupins. Journal of the Science of Food and Agriculture 45, 2124.Google Scholar
Tsvetnenko, Y, Santelices, M & Evan, LH (1995) Effect of dietary protein levels and beta-carotene on growth of marron Cherax tenuimanus in an intensive culture system. Freshwater Crayfish 10, 611622.Google Scholar
Tukur, HM, Branco Pardal, P, Formal, M, Toullec, R, Lalles, JP & Guilloyeau, P (1995) Digestibility, blood levels of nutrients and skin responses of calves fed soyabean and lupin proteins. Reproduction, Nutrition and Development 35, 2744.Google Scholar
Valentine, SC & Bartsch, BD (1987) Fermentation of hammermilled barley, lupin, pea and faba bean grain in the rumen of dairy cows. Animal Feed Science and Technology 16, 261271.Google Scholar
Valentine, SC & Bartsch, BD (1989) Milk production by dairy cows fed hammermilled lupin grain, hammermilled oaten grain or whole oaten grain as supplements to pasture. Australian Journal of Experimental Agriculture 29, 309313.Google Scholar
Valentine, SC & Bartsch, BD (1990) Milk production by dairy cows fed legume grains or barley grain with or without urea as supplements to a cereal hay based diet. Australian Journal of Experimental Agriculture 30, 710.CrossRefGoogle Scholar
van Barneveld, RJ (1997 a) The availability of lysine in L. angustifolius (ground whole seed and kernel) and L. albus (ground whole seed and kernel) relative to soybean meal in wheat based diets fed to growing pigs. In Understanding the Nutritional Value of Lupins, pp. 1418 [van Barneveld, RJ, principal investigator]. Pig Research and Development Corporation Final Report – DAS 33P. Canberra: Pig Research and Development Corporation.Google Scholar
van Barneveld, RJ (1997 b) Apparent ileal digestibility of amino acids in the ground whole seed and kernels of L. augustifolius cv Gungurru and L. albus cv Kiev mutant. In Understanding the Nutritional Value of Lupins, pp. 1418 [van Barneveld, RJ, principal investigator]. Pig Research and Development Corporation Final Report – DAS 33P. Canberra: Pig Research and Development Corporation.Google Scholar
van Barneveld, RJ (1997 c) Chemical composition of the ground whole seed kernels and hulls of L. angustifolius cv Gungurru and L. albus cv Kiev mutant. In Understanding the Nutritional Value of Lupins, pp. 1017 [van Barneveld, RJ, principal investigator]. Pig Research and Development Corporation Final Report – DAS 33P. Canberra: Pig Research and Development Corporation.Google Scholar
van Barneveld, RJ, Baker, J, Szarvas, SR & Choct, M (1995) Effect of lupin kernels on the ileal and faecal digestibility of energy by pigs. In Manipulating Pig Production V. Proceedings of the Fifth Biennial Conference of the Australasian Pig Science Association (APSA), p. 30 [Hennessy, DP and Cranwell, PD, editors]. Canberra: Australasian Pig Science Association.Google Scholar
van Barneveld, RJ, Campbell, RG, King, RH, Dinshea, FR & Mullan, BP (1997 a) The availability of lysine from Lupinus angustifolius and Lupinus albus fed to growing pigs and determined using a modified slope-ratio analysis. Proceedings of the Nutrition Society of Australia 21, 117.Google Scholar
van Barneveld, RJ, Edwards, AC & Huisman, J (1997 b) Chemical and physical factors influencing the nutritional value and subsequent utilisation of food legumes by livestock. Proceedings of the Third International Food Legume Research Conference, 1997, Adelaide, Australia. (In the Press).Google Scholar
van Barneveld, RJ & Hughes, RJ (1994) The nutritive value of lupins for pigs and poultry. In Proceedings of the First Australian Lupin Technical Symposium, pp. 4957 [Dracup, M and Palta, J, editors]. South Perth, Western Australia: Department of Agriculture.Google Scholar
van Barneveld, RJ, Olsen, LE & Choct, M (1996) Effect of lupin oligosaccharides on energy digestion in growing pigs. Proceedings of the Nutrition Society of Australia 20, 114.Google Scholar
van Barneveld, RJ, Olsen, LE & Choct, M (1997 c) Lupin oligosaccharides depress the apparent ileal digestion of amino acids by growing pigs. In Manipulating Pig Production V. Proceedings of the Fifth Biennial Conference of the Australasian Pig Science Association (APSA), p. 30 [Hennessy, DP and Cranwell, PD, editors]. Canberra: Australasian Pig Science Association.Google Scholar
van Kempen, GJM & Jansman, AJM (1994) Use of EC produced oil seeds in animal feeds. In Recent Advances in Animal Nutrition, pp. 3156 [Garnsworthy, PC and Cole, DJA, editors]. London: Butterworths.Google Scholar
Viola, S, Arieli, Y & Zohar, G (1988) Unusual feedstuffs (tapioca and lupin) as ingredients for carp and tilapia feeds in intensive culture. Israel Journal of Aquaculture and Bamidgeh 40, 2934.Google Scholar
Vogt, H (1991) Studies on using pulse seeds in feed mixtures for laying hens. Zeszyty Naukowe Akademii Rolniczej we Wroclawiu, Weterynaria 48, 5966.Google Scholar
Wigan, GC, Batterham, ES & Farrell, DJ (1994) Nutritive value of Lupinus angustifolius (cv Gungurru) for growing pigs. In Proceedings of the Fifth Biennial Pig Industry Seminar, WAI, pp. 3846. Wollongbar, New South Wales: NSW Agriculture, Wollongbar Agricultural Institute.Google Scholar
Zettl, VA, Lettner, F & Wetscherek, W (1995) Use of white sweet lupin seed (Lupinus albus cv Amiga) in diets for pig fattening. Bodenkultur 46, 165175.Google Scholar
Zuo, Y, Fahey, GC, Merchen, NR & Bajjalieh, NL (1996) Digestion responses to low oligosaccharide soybean meal by ileally-cannulated dogs. Journal of Animal Science 74, 24412449.Google Scholar