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British Poultry Science Volume 21, 1980 - Issue 1
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Original Articles

The nutritional value of algae for poultry. dried chlorella in broiler dietsFootnote1

Bianka Lipstein Division of Poultry Science, Agricultural Research Organization, The Volcani Center, Bet Dagan, Israel
&
S. Hurwitz Division of Poultry Science, Agricultural Research Organization, The Volcani Center, Bet Dagan, Israel
Pages 9-21 | Received 22 Feb 1979, Published online: 08 Nov 2007

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L. V. venkataraman, T. Somasekaran & E. W. Becker. (1994) Replacement value of blue‐green alga (spirulina platensis) for fishmeal and a vitamin‐mineral premix for broiler chicks. British Poultry Science 35:3, pages 373-381.
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V. Ravindran & R. Blair. (1992) Feed resources for poultry production in Asia and the Pacific. II. Plant protein sources. World's Poultry Science Journal 48:3, pages 205-231.
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A. R. Ei Boushy, G. J. Klaassen & E. H. Ketelaars. (1985) Biological Conversion of Poultry and Animal Waste to a Feedstuff for Poultry. World's Poultry Science Journal 41:2, pages 133-145.
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Bianka Lipstein & H. Talpaz. (1984) Sewage‐grown algae as a source of pigments for broilers. British Poultry Science 25:2, pages 159-165.
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Bianka Lipstein, S. Hurwitz & S. Bornstein. (1980) The nutritional value of algae for poultry. Dried chlorella in layer diets. British Poultry Science 21:1, pages 23-27.
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Articles from other publishers (21)

Yi-Chi Cheng & Sung Woo Kim. (2022) Use of Microorganisms as Nutritional and Functional Feedstuffs for Nursery Pigs and Broilers. Animals 12:22, pages 3141.
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Andres Schlageter-Tello, George C Fahey, Tarra Freel, Liz Koutsos, Phillip S Miller & William P Weiss. (2020) ASAS-NANP SYMPOSIUM: RUMINANT/NONRUMINANT FEED COMPOSITION: Challenges and opportunities associated with creating large feed composition tables. Journal of Animal Science 98:8.
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Caleb Acquah, Sean M. Tibbetts, Sharadwata Pan & Chibuike Udenigwe. 2020. Handbook of Microalgae-Based Processes and Products. Handbook of Microalgae-Based Processes and Products 493 531 .
Tim Hülsen, Gilda Carvalho, Felix Egger, Heidy Cruz, Willy Vertstraete, Damien J. Batstone & Ilje Pikaar. 2020. Wastewater Treatment Residues as Resources for Biorefinery Products and Biofuels. Wastewater Treatment Residues as Resources for Biorefinery Products and Biofuels 355 389 .
H. Furbeyre, J. van Milgen, T. Mener, M. Gloaguen & E. Labussière. (2017) Effects of dietary supplementation with freshwater microalgae on growth performance, nutrient digestibility and gut health in weaned piglets. Animal 11:2, pages 183-192.
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Jonggun Kim, Andrew Magnuson, Ling Tao, Matthew Barcus & Xin Gen Lei. (2016) Potential of combining flaxseed oil and microalgal biomass in producing eggs-enriched with n − 3 fatty acids for meeting human needs. Algal Research 17, pages 31-37.
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Václav Kotrbáček, Jaroslav Doubek & Jiří Doucha. (2015) The chlorococcalean alga Chlorella in animal nutrition: a review. Journal of Applied Phycology 27:6, pages 2173-2180.
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A. Saeid, K. Chojnacka, M. Korczyński, D. Korniewicz & Z. Dobrzański. (2013) Effect on supplementation of Spirulina maxima enriched with Cu on production performance, metabolical and physiological parameters in fattening pigs. Journal of Applied Phycology 25:5, pages 1607-1617.
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Michael A. Borowitzka. 2013. Algae for Biofuels and Energy. Algae for Biofuels and Energy 255 264 .
L. Zheng, S. T. Oh, J. Y. Jeon, B. H. Moon, H. S. Kwon, S. U. Lim, B. K. An & C. W. Kang. (2011) The Dietary Effects of Fermented Chlorella vulgaris (CBT) on Production Performance, Liver Lipids and Intestinal Microflora in Laying Hens. Asian-Australasian Journal of Animal Sciences 25:2, pages 261-266.
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Bonnie K. Lustigman & Lee H. Lee. 2003. Encyclopedia of Environmental Microbiology. Encyclopedia of Environmental Microbiology.
Adel R. Y. El Boushy & Antonius F. B. van der PoelAdel R. Y. El Boushy & Antonius F. B. van der Poel. 2000. Handbook of Poultry Feed from Waste. Handbook of Poultry Feed from Waste 31 74 .
Michael A. Borowitzka. 1998. Wastewater Treatment with Algae. Wastewater Treatment with Algae 203 226 .
M.A. Ali & S. Leeson. (1995) The nutritive value of some indigenous Asian poultry feed ingredients. Animal Feed Science and Technology 55:3-4, pages 227-237.
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A. R. Y. El Boushy & A. F. B. van der PoelA. R. Y. El Boushy & A. F. B. van der Poel. 1994. Poultry Feed from Waste. Poultry Feed from Waste 35 82 .
B. LIPSTEIN. 1989. Recent Developments in Poultry Nutrition. Recent Developments in Poultry Nutrition 145 169 .
B. LIPSTEIN. 1984. Recent Advances in Animal Nutrition–1984. Recent Advances in Animal Nutrition–1984 17 41 .
BIANKA LIPSTEIN & SHMUEL HURWITZ. (1983) The Nutritional Value of Sewage-Grown Samples of Chlorella and Micractinium in Broiler Diets. Poultry Science 62:7, pages 1254-1260.
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H. Brune. (2009) Zur Verträglichkeit der Einzelleralgen Spirulina maxima und Scenedesmus acutus als alleinige Eiweißquelle für Broiler1. Zeitschrift für Tierphysiologie Tierernährung und Futtermittelkunde 48:1-5, pages 143-154.
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BIANKA LIPSTEIN & SHMUEL HURWITZ. (1981) The Nutritional Value of Sewage-Grown, Alum-Flocculated Micractinium Algae in Broiler and Layer Diets. Poultry Science 60:12, pages 2628-2638.
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A. Hasdai & D. Ben Ghedalia. (2009) Sewage-grown algae as a source of supplementary nitrogen for ruminants. The Journal of Agricultural Science 97:3, pages 533-537.
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