Abstract
Early scientific studies conducted at the turn of the twentieth century failed to support the inclusion of seaweeds into animal rations at high inclusion rates. At that time, based on proximate analysis and energy availability studies, dried seaweeds or kelp meal largely fell out of favor as a recommended animal feed source. Nevertheless, kelp meal was still regarded by some as having properties which improved animal health and productivity which were not conveniently explained by conventional feed analysis. In the 1970s, research leads to the discovery that chelated micromineral sources were more efficient for the delivery of microelements than conventional inorganic sources. This prompted renewed interest in seaweeds as rich sources of over 60+ microelements. However, it was only in the early 2000s, when detailed analysis of the complex structure of the polysaccharides associated with seaweeds was tied to their prebiotic actions, that a clear explanation for the basis of productivity and health enhancement was attained. Further analysis indicated that other constituents in various brown seaweeds such as phlorotannins and antioxidants also contributed to the observed bioactivities. Of all of the brown seaweeds cited in studies, the one most scientifically documented is Ascophyllum nodosum, and of all of these sources, Tasco®, a sundried, high-quality macroalgal product, produced by Acadian Seaplants has been the most studied. The latest studies of Tasco® suggest prebiotic potencies at least five times that of the reference prebiotic inulin with additional performance-enhancing benefits in animal rations that rival antibiotic inclusions.
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References
Abowei JFN, Tawari CC (2011) A review of the biology, culture, exploitation and utilization potentials seaweed resources: case study in Nigeria. Res J Appl Sci Eng Technol 3:290–303
ACRES (2013) http://www.acresusa.com. Accessed 16 Apr 2013
Adams CA (1999) Nutricines: food components in health and nutrition. Nottingham University Press, Trowbridge
Allen VG, Pond KR, Saker KE, Fontenot JP, Bagley CP, Ivy RL, Evans RR, Schmidt RE, Fike JH, Zhang X, Ayad JY, Brown CO, Miller MF, Montgomery JL, Mahan J, Wester DB, Melton C (2001a) Tasco: influence of a brown seaweed on antioxidants in forages and livestock—a review. J Anim Sci 79:E21–E31
Allen VG, Pond KR, Saker KE, Fontenot JP, Bagley CP, Ivy RL, Evans RR, Brown CP, Miller MF, Montgomery JL, Dettle TM, Webster DB (2001b) Tasco-forage: III. Influence of a seaweed extract on performance, monocyte immune cell response, and carcass characteristics in feedlot-finished steers. J Anim Sci 79:1032–1040
Baardseth EM (1970) Synopsis of biological data on knobbed wrack Ascophyllum nodosum (Linnaeus) Le Jolis. Food and Agriculture Organization of the United Nations, Rome
Bach SJ, Wang Y, McAllister TA (2008) Effect of feeding sun-dried seaweed (Ascophyllum nodosum) on shedding of Escherichia coli O157:H7 by feedlot cattle and on growth performance of lambs. Anim Feed Sci Tech 142:17–32
Beams RM (1990) Seaweeds. In: Thacker PA, Kirkwood RN (eds) Non-traditional feed sources for use in swine production. Butterworth, Stoneham, pp 407–417
Black WAP (1955a) The preservation of seaweed by ensiling and bactericides. J Sci Food Agr 6:14–23
Black WAP (1955b) Seaweeds in animal foodstuffs. I. Availability and composition. Agriculture 62:12–15
Braden KW, Blanton JR, Allen VG, Pond KR, Miller MF (2004) Ascophyllum nodosum supplementation: a pre-harvest intervention for reducing Escherichia coli O157:H7 and Salmonella spp. in feedlot steers. J Food Protect 67:1824–1828
Braden KW, Blanton JR, Montgomery JL, van Santen E, Allen VG, Miller MF (2007) Tasco supplementation: effects on carcass characteristics, sensory attributes, and retail display shelf-life. J Anim Sci 85:754–768
Chapman VJ (1964) The algae. Macmillan, New York
Chapman VJ (1970) Seaweeds as animal fodder and manure. In: Seaweeds and their uses, 2nd edn. Camelot, London, pp 63–85
Chapman VJ, Chapman DJ (1980) Seaweeds and their uses. Chapman & Hall, London, pp 1–34
Driscoll CA, Macdonald DW, O’Brien SJ (2009) From wild animals to domestic pets, an evolutionary view of domestication. PNAS 106(Suppl1):9971–9978
Fike JH, Allen VG, Schmidt RE, Zhang X, Fontenot JP, Bagley CP, Ivy RL, Evans RR, Coelho RW, Wester DB (2001) Tasco-forage: 1. Influence of a seaweed extract on antioxidant activity in tall fescue and in ruminants. J Anim Sci 79:1011–1021
Gibson GR, Roberfroid MB (1995) Dietary modulation of the human colonic microbiota: introducing the concept of prebiotics. J Nutr 125:1401–1412
Hallsson SV (1964) The uses of seaweed in Iceland. In: Proc of the fourth international seaweed symposium, Biarritz, France. Macmillan, New York, pp 398–405
Hellebust JA, Craigie JS (1978) Handbook of phycological methods: physiological and biochemical methods. Cambridge University Press, Cambridge
Hillison J (1996) The origins of agriscience: or where did all that scientific agriculture come from? J Agr Edu 37:8–13
Holdt SL, Kraan S (2011) Bioactive compounds in seaweed: functional food applications and legislation. J Appl Phycol 23:543–597
Jeejeebhoy KN (1999) The role of chromium in nutrition and therapeutics and as a potential toxin. Nutr Rev 57:329–335
Jensen A (1971) The nutritive value of seaweed meal for domestic animals. In: Proc. of the seventh international seaweeds symposium, Sapporo, Japan. University of Tokyo Press, Tokyo, pp 7–14
Kellogg DW, Anschutz K, Pennington J (2006) Report of research trial with Tasco at Rose Ark dairy in Arkansas during summer 2005. Ark Anim Sci Dep Rep 2006:100–104
Leupp JL, Caton JS, Soto-Navarro SA, Lardy GP (2005) Effects of cooked molasses blocks and fermentation extract or brown seaweed meal inclusion on intake, digestion and microbial efficiency in steers fed low-quality hay. J Anim Sci 83:2938–2945
Lunde G (1970) Analysis of trace elements in seaweed. J Sci Fd Agric 21:416–418
McKinnon W, Vass E (1989) The best of the past: traditional, sustainable agriculture in Prince Edward Island. http://www.upei.ca/iis/rep_ag_1. Accessed 18 Mar 2013
Montgomery JL, Allen VG, Pond KR, Miller MF, Wester DB, Brown CP, Evans R, Bagley CP, Ivy RL, Fontenot JP (2001) Tasco-forage: IV. Influence of a seaweed extract applied to tall fescue pastures on sensory characteristics, shelf-life, and vitamin E status in feedlot-finished steers. J Anim Sci 79:884–894
Morrison FB (1974) Feeds and feeding, abridged: the essentials of the feeding, care and management of farm animals, including poultry. Vail-Ballou, Binghamton
Nagayama K, Iwamura Y, Shibata T, Hirayama I, Nakamura T (2002) Bactericidal activity of phlorotannins from the brown alga Ecklonia kurome. J Antimicrob Chemother 50:889–893
Nakayasu S, Soegima R, Yamagouchi K, Oda T (2009) Biological activities of fucose-containing polysaccharide ascophyllan isolated from the brown alga Ascophyllum nodosum. Biosci Biotechnol Biochem 73:961–964
Naylor J (1976) Production, trade and utilization of seaweeds and seaweed products. FAO Fish Tech Pap (159). http://fao.org/docrep/005/AC860E/AC860E00.htm. Accessed 18 Mar 2013
Nebb H, Jensen A (1966) Seaweed meal as a source of minerals and vitamins in rations for dairy cows and bacon pigs. In: Proceedings of the fifth international seaweed symposium, Halifax, Nova Scotia. Pergamon, Oxford, pp 387–393
Newton L (1951) Animal and human nutrition from seaweed resources in Europe: uses and potential. In: Seaweed utilization. Sampson Low, London, pp 31–57
NRC (2001) Nutrient requirements of dairy cattle, 7th edn. National Academy Press, Washington, DC
Ramnani P, Chitarrari R, Tuohy K, Grant J, Hotchkiss S, Philp K, Campbell R, Gill C, Rowland I (2012) In vitro fermentation and prebiotic potential of novel low molecular weight polysaccharides derived from agar and alginate seaweeds. Anaerobe 18:1–6
Roberfroid M (2007) Prebiotics: the concept revisited. In: Effects of probiotics and prebiotics on health maintenance—critical evaluation of the evidence. J Nutr 137:830S–837S
Rodriguez-Cabezas ME, Camuesco D, Arribas B, Garrido-Mesa N, Comalada M, Bailon E, Cueto-Sola M, Utrilla P, Guerra-Hernandez E, Perez-Roca C, Galvez J, Zarzuelo A (2010) The combination of fructooligosaccharides and resistant starch shows prebiotic additive effects in rats. Clin Nutr 29:832–839
Saker KE, Allen VG, Fontenot JP, Bagley CP, Ivy RL, Evans RR, Wester DB (2001) Tasco-forage: II. Monocyte immune cell response and performance of beef steers grazing tall fescue treated with a seaweed extract. J Anim Sci 79:1022–1031
Ugarte RA, Sharp G (2001) A new approach to seaweed management in Eastern Canada: the case of Ascophyllum nodosum. Cah Biol Mar 42:63–70
Ugarte RA, Sharp G, Moore B (2006) Changes in the brown seaweed Ascophyllum nodosum (L.) Le Jol. Plant morphology and biomass produced by cutter rake harvests in southern New Brunswick, Canada. J Appl Phycol 18:351–359
Ushakova NA, Kotenkova EV, Kozlova AA, Nifatov AV (2006) A study of the mechanism of probiotic effect of Bacillus subtilis strain 8130. Appl Biochem Microbiol 42:252–257
Wang Y, Han F, Hu B, Li J, Yu W (2006) In vivo prebiotic properties of alginate oligosaccharides prepared through enzymatic hydrolysis of alginate. Nutr Res 26:597–603
Wang Y, Xu Z, Bach SJ, McAllister (2008) Effects of phlorotannins from Ascophyllum nodosum (brown seaweed) on in vitro ruminal digestion of mixed forage or barley grain. Anim Feed Sci Technol 145:375–395
Wang Y, Xu Z, Bach SJ, McAllister TA (2009) Sensitivity of Escherichia coli to seaweed (Ascophyllum nodosum) phlorotannins and terrestrial tannins. Asian-Aust J Anim Sci 22:238–245
Wang Y, Jin L, Ominski KH, He M, Xu Z, Krause DO, Acharya SN, Wittenberg KM, Liu XL, Stanford K, McAllister TA (2013) Screening of condensed tannins from Canadian prairie forages for anti-Escherichia coli O157:H7 with an emphasis on purple prairie clover (Dalea purpurea Vent). J Food Protect 76:560–567
Williams JE, Spiers DE, Thompson-Golden LN, Hackman TJ, Ellersleck MR, Wax L, Colling DP, Corners JB, Lancaster PA (2009) Effects of Tasco in alleviation of heat stress in beef cattle. Prof Anim Sci 25:109–117
Wiseman M (2012) Evaluation of Tasco as a candidate prebiotic in broiler chickens. Dalhousie University, NSAC, Halifax
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Evans, F.D., Critchley, A.T. Seaweeds for animal production use. J Appl Phycol 26, 891–899 (2014). https://doi.org/10.1007/s10811-013-0162-9
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DOI: https://doi.org/10.1007/s10811-013-0162-9