Abstract
Worldwide, there has been much interest in the development and commercialization of human functional products from seaweeds. Novel seaweed compounds with potential applications as bioactive ingredients in natural health products are being isolated in a number of active research programs on this topic. The majority of these research programs do not include cultivation as a critically important component in scaling the discoveries up to commercialization (i.e., economies of scale realized). Many of these seaweeds of interest with potential as functional human products are diminutive in size, sparse in density, and seasonal in occurrence and bioactive efficacy, making commercialization by resource management and harvesting economically challenging and the application of traditional ocean-based production methods risky. Human functional products will require sustainable production coupled with quality assurance and standardized, consistent efficacy. Since humans are the consumers of these types of functional seaweed products, traceability and security of supply are of the utmost importance to successful commercialization. On-land cultivation is essential for commercial success in the development of human functional products from seaweeds at industrial scales. On-land cultivation allows the highest levels of control over quality, efficacy, traceability, and security. On-land cultivation represents the most environmentally acceptable method for the production of biomass from natural resources that could not be economically or sustainably developed any other way. However, on-land cultivation has many associated barriers to development, including high costs associated with capital, operations, maintenance, and cultivar development, and these demands limit industrial scale development of seaweed functional products for human consumption.
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References
Agriculture and Agri-Food Canada (2009) Consumer trends: functional foods. Retrieved from http://www.gov.mb.ca/agriculture/statistics/pdf/marketanalysis%20report_functionalfoods-en.pdf
Bagchi D (2004) Nutraceutical and functional food industries: aspects on safety and regulatory requirements. Toxicol Lett 150:1–2
Bagchi D (2006) Nutraceuticals and functional foods regulations in the United States and around the world. Toxicology 221:1–3
Bertolini M, Bevilacqua M, Massini R (2006) FMECA approach to product traceability in the food industry. Food Control 17:137–145
Bixler H (1996) Recent developments in manufacturing and marketing carrageenan. Hydrobiologia 326/327:35–57
Bixler H, Porse H (2011) A decade of change in the seaweed hydrocolloids industry. J Appl Phycol 23:321–335
Bocanegra A, Bastida S, Benedi J, Rodenas S, Sanchez-Muniz FJ (2009) Characteristics and nutritional and cardiovascular-health properties of seaweeds. J Med Food 12:236–258
Bolton JJ, Roberton-Andersson DV, Shuuluka D, Kandjengo L (2009) Growing Ulva (Chlorophyta) in integrated systems as a commercial crop for abalone feed in South Africa: a SWOT analysis. J Appl Phycol 21:575–583
Brinkhuis BD, Levine HG, Schlenk CG, Tobin S (1987) Laminaria cultivation in the Far East and North America. In: Bird KT, Benson PH (eds) Seaweed cultivation for renewable resources. Developments in aquaculture and fisheries science. 16. Elsevier, Amsterdam: pp 107-146.
Chopin T, Buschmann AH, Hallin C, Troell M, Kautsky N, Neori A, Kraemer GP, Zertuche-Gonzalez YC, Neefus C (2001) Integrating seaweeds into marine aquaculture systems: a key toward sustainability. J Phycol 37:975–986
Drew KM (1949) Conchocelis-phase in the life-history of Porphyra umbilicalis (L.) Kutz. Nature 164:748–749
Duda M, O’Shea K, Stanley W (2009) Omega-3 polyunsaturated fatty acid supplementation for the treatment of heart failure: mechanisms and clinical potential. Cardiovasc Res 84:33–41
Evani S (2009) Trends in the US functional foods, beverages and ingredients market. Retrieved from http://www.ats.agr.gc.ca/eve/5289-eng.pdf
FAO (2010) The state of world fisheries and aquaculture. FAO, Rome, p 197
Fletcher RL (1995) Epiphytism and fouling in Gracilaria cultivation: an overview. J Appl Phycol 7:325–333
Friedlander M (2007) Advances in cultivation of Gelidiales. J Appl Phycol 20:451–456
Friedlander M (2008) Israeli R&D activities in seaweed cultivation. Israel J Plant Sci 56:15–28
Gellenbeck K (2011) Utilization of algal materials for nutraceutical and cosmeceutical applications: what do manufacturers need to know? J Appl Phycol. DOI 10.1007/s10811-011-9722-z
GIA (2010). Global Industry Analysts: global functional foods and drinks market to exceed $130 billion by 2015. Retrieved from http://www.foodbusiness360.com/summary-view.aspx?id=7342
de Goes HG, Reis RP (2011) An initial comparison of tubular netting versus tie-tie methods of cultivation of Kappaphycus alvarezii (Rhodophyta, Solieriaceae) on the south coast of Rio de Janeiro State, Brazil. J Appl Phycol 23:607–613
Grajek W, Olejnik A, Sip A (2005) Probiotics, prebiotics and antioxidants as functional foods. Acta Biochimica Polonica 52:665–671
Granert C, Raud J, Waage A, Lindquist L (1999) Effects of polysaccharide fucoidin on cerebrospinal fluid interleukin-1 and tumor necrosis factor alpha in pneumococcal meningitis in the rabbit. Infect Immun 67:2071–2074
Hafting JT (1999) A novel technique for propagation of Porphyra yezoensis Ueda blades in suspension cultures via monospores. J Appl Phycol 11:361–367
Hasler CM (2000) The changing face of functional foods. J Amer Coll Nutr 19:499–506
Holdt SL, Kraan S (2011) Bioactive compounds in seaweed: functional food applications and legislation. J Appl Phycol 23:543–597
Horstmann U (1983) Cultivation of the green alga, Caulerpa racemosa, in tropical waters and some aspects of its physiological ecology. Aquaculture 32:361–371
Israel A, Gavrieli J, Glazer A, Friedlander M (2005) Utilization of flue gas from a power plant for tank cultivation of the red seaweed Gracilaria cornea. Aquaculture 249:311–316
Israel A, Levy I, Friedlander M (2006) Experimental tank cultivation of Porphyra in Israel. J Appl Phycol 18:235–240
Kalt W, McDonald JE, Donner H (2000) Anthocyanins, phenolics, and antioxidant capacity of processed lowbush blueberry products. J Food Chem Toxicol 65:390–393
Klimas M, Brethour C, Bucknell D (2008) International market trends analysis for the functional foods and natural health products industry in the United States, Australia, the United Kingdom and Japan. Retrieved from http://admin.nutrinetcanada-nnc.ca/useredits/Image/FFNHP%20International%20Final%20Report%20FINAL%20031708%20MK%20%20CCB(1).pdf
Lukovitz, K (2008) Functional food, beverage products present opportunities. Retrieved from http://www.mediapost.com/publications/?fa=Articles.showArticle&art_aid=93619
Manilal A, Sujith S, Kiran GS, Selvin J, Shakir C, Gandhimanthi R, Panikkar MVN (2009) Biopotentials of seaweeds collected from southwest coast of India. J Mar Sci Tech 17:67–73
Mata L, Silva J, Schuenhoff A, Santos R (2007) Is the tetrasporophyte of Asparagopsis armata (Bonnemaisoniales) limited by inorganic carbon in integrated aquaculture? J Phycol 43:1252–1258
McDonnell P, Figat S, O’Doherty JV (2009) The effect of dietary laminarin and fucoidan in the diet of the weanling piglet on performance, selected faecal microbial population and volatile fatty acid concentrations. Animal 4:579–585
Mumford TF (1988) Porphyra as food: cultivation and economics. In: Lembi CA, Waaland JR (eds) Algae and human affairs. Cambridge University Press, Cambridge, pp 88–117
Murata M, Nakazoe J (2001) Production and use of marine algae in Japan. Japan Ag Res Quarterly 35:281–290
Pereira, R., C. Yarish and A.T. Critchley (in press). Seaweed aquaculture for human foods, land-based. In: Robert A. Meyers (ed) Encyclopedia of sustainability science and technology. Springer (2011). DOI 10.1007/978-1-4419-0851-3
Plaza M, Cifuentes A, Ibanez E (2008) In the search of new functional food ingredients from algae. Trends Food Sci Technol 19:31–39
Plaza M, Santoyo S, Jaime L, Reina GG-B, Herroro M, Senorans FJ, Ibanez E (2010) Screening for bioactive compounds from algae. J Pharm Biomed Anal 51:450–455
Rhimou B, Hassane R, Jose M, Nathalie B (2010) The antibacterial potential of the seaweeds (Rhodophyceae) of the Strait of Gibraltar and the Mediterranean Coast of Morocco. African J Biotechnol 9:6365–6372
Sankaran JK, Mouly VS (2007) Managing innovation in an emerging sector: the case of marine-based nutraceuticals. R&D Management 37(4):329–344
Schilter B, Andersson C, Anton R, Constable A, Kleiner J, O’Brien J, Renwick AG, Korver O, Smit F, Walker R (2003) Guidance for the safety assessment of botanicals and botanical preparations for use in food and food supplements. Food Chem Toxicol 41:1625–1649
Sharp GJ, Ugarte R, Semple R (2006) The ecological impact of marine plant harvesting in the Canadian Maritimes, implications for coastal zone management. Scienceasia 32(1):77–86
Shibata T, Ishimaru K, Kawaguchi S, Yoshikawa H, Hama Y (2007) Antioxidant activities of pholortannins isolated from Japanese Laminariaceae. J Appl Phycol 20:705–711
Siro I, Kapolna E, Kapolna B, Lugasi A (2008) Functional food. Product development, marketing and consumer acceptance—a review. Appetite 51:456–467
Smit AJ (2004) Medicinal and pharmaceutical uses of seaweed natural products: a review. J Appl Phycol 16:245–262
Stengel DB, Connan S, Popper ZA (2011) Algal chemodiversity and bioactivity: sources of natural variability and implications for commercial application. Biotechnol. Adv. 29: 483-501
Teas J, Hurley TG, Hebert JR, Franke AA, Sepkovic DW, Kurzer MS (2009) Dietary seaweed modifies estrogen and phytoestrogen metabolism in healthy postmenopausal women. J Nutr 139:16–21
Titlyanov EA, Titlyanova TV (2010) Seaweed cultivation: methods and problems. Russian J Mar Biol 36:227–242
Tuohy M, Pappalarado G, Manning R, Dugal LF, Levy D (2009). Leveraging growth in the emerging functional foods industry: trends and market opportunities. Retrieved from http://download.pwc.com/ie/pubs/pwc_leveraging_growth_in_the_emerging.pdf
Vairappan CS, Chung CS, Hurtado AQ, Soya FE, Lhonneur GB, Critchley A (2008) Distribution and symptoms of epiphyte infection in major carrageenophyte-producing farms. J Appl Phycol 20:477–483
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Hafting, J.T., Critchley, A.T., Cornish, M.L. et al. On-land cultivation of functional seaweed products for human usage. J Appl Phycol 24, 385–392 (2012). https://doi.org/10.1007/s10811-011-9720-1
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DOI: https://doi.org/10.1007/s10811-011-9720-1