Abstract
Macroscopic marine algae, popularly known as seaweeds, form one of the important living resources of the ocean. Seaweeds form an important renewable resource in the marine environment and have been a part of human civilization from time immemorial. Reports on the uses of seaweeds have been cited as early as 2,500 years ago. Seaweed utilization for a variety of purposes has led to the gradual realization that some of their constituents are more superior and valuable in comparison to their counterparts on land. Seaweeds synthesize a wide range of chemicals, some of which are the only natural resources of agar, carrageenan, and alginate. These have been used as food for human beings, feed for animals, natural biofertilizers for plants and source of various chemicals like pharmaceutical values without any side effects, production of biodiesel and wastewater management, etc. In this chapter, utilization of seaweeds has been obviously discussed which are proving and playing a crucial role in sustainable development to became a promising source for human welfare.
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References
Ackefors H, Enell M (1990) Discharge of nutrients from Swedish fish farming to adjacent sea areas. Ambio 19:29–35
Anandhan S, Sorna kumari H (2011) Biorestraining potentials of marine macroalgae collected from Rameshwaram, Tamil Nadu. J Res Biol 1:385–392
Ara J, Sultana V, Qasim Rahmad VU (2002) Hypolipidaemic activity of seaweed from Karachi coast. Phytother Res 16:479–483
Balakrishnan C, Venkataraman Kumar P, Mohan VR (2007) Studies on the effect of crude seaweed extract on seedling growth and biochemical parameters in Penninsetum typhoides (Burn. F.) Stapf C.E. Hubbard. Seaweed Res Util 29(1&2):89–96
Barcelo A, Claustre J, Moro F, Chayvaille JA, Cuber JC, Plaisancie P (2000) Mucin secretion is modulated by luminal factors in the isolated vascularly perfused rat colon. Gut 46:218–224
Benemann JR, Oswald WJ (1996) Systems and economic analysis of microalgae ponds for conversion of CO2 to biomass. Final report. US DOE-NETL no: DOE/PC/93204-T5, Pittsburgh Energy Technology Center, USA. http://www.osti.gov/bridge/servlets/purl/493389-FXQyZ2/webviewable/493389.pdf
Beveridge MCM (1996) Cage aquaculture, 2nd edn. Oxford, Fishing News Books Ltd, Oxford
Bhatia S, Sharma A, Sharma K, Kavale M, Chaugule BB, Dhalwal K, Namdeo AG, Mahadik KR (2003) Seaweed cultivation and utilization. National Academy of Agricultural Science, New Delhi
Bixler HJ (1996) Recent developments in manufacturing and marketing carrageenan. In: Lindstrom SC, Chapman DJ (eds) Fifteenth international seaweed symposium. Hydrobiologia 326/327:35–57
Bourne JK Jr (2007) Biofuels: green dreams. Natl Geogr Mag 2007:41–59
Boyd WC, Reguera RM (1949) Hemagglutinating substances in various plants. J Immunol 62:333–339
Campbell MN (2008) Biodiesel: algae as a renewable source for liquid fuel. Guelph Eng J 1:2–7
Carlsson AS, van Beilen JB, Möller R, Clayton D (2007) Micro- and macro-algae: utility for industrial applications. http://www.epobio.net/pdfs/0709AquaticReport.pdf. Accessed June 2008
Carvalho AP, Meireles LA, Malcata FX (2006) Microalgal reactors: a review of enclosed system designs and performances. Biotechnol Prog 22:1490–1506
Challen SB, Hemingway JC (1965) Growth of higher plants in response to feeding with seaweed extracts. In: Proceedings of the 5th international seaweed symposium
Chapman VJ (1970) Seaweeds and their uses. Chapman & Hall, London, p 334
Chen H, Sun P, Song Q (1995) Lectins, a powerful defensive weapon of aquatic animals. J Oceanogr Huanghai Bohai Seas 13:61–71
Chennubhotla VSK, Kaliaperumal N, Kalimuthu S (1981) Seaweed recipes and other practical uses of seaweeds. Seaf Export J 13:9–16
Chennubhotla VSK, Umamaheshwararao M, Rao KS (2013) Commercial importance of marine macroalgae. Seaweed Res Util 35:118–128
Chisti Y (2007) Biodiesel from microalgae. Biotechnol Adv 25:294–306
Chisti Y (2008) Biodiesel from microalgae beats bioethanol. Trends Biotechnol 26:126–131
Chopin T (2007) Closing remarks of the new president of the International Seaweed Association. In: The 19th international seaweed symposium, March 26–31, Kobe-Japan, pp 1–2
Chopin T, Buschmann AH, Halling C, Troell M, Kautsky N, Neori A, Kraemer GP, Zertuche-Gonzalez JA, Yarish C, Neefus C (2001) Integrating seaweeds into marine aquaculture systems: a key toward sustainability. J Phycol 37:975–986
Collén J, Davison IR (1997) In vivo measurement of active oxygen production in the brown alga Fucus evanescens using 2’,7’-dichlorohydrofluorescein diacetate. J Phycol 33:643–648
Collén J, Davison IR (1999) Reactive oxygen production and damage in intertidal Fucus spp. (Phaeophyceae). J Phycol 35:54–61
Collén J, Davison IR (2001) Seasonality and thermal acclimation of reactive oxygen metabolism in Fucus vesiculosus (Phaeophyceae). J Phycol 37:474–481
Cruz-Suárez LE, Leon A, Peña-Rodriquez A, Rodrique-Peña G, Moll B, Ricque-Marie D (2010) Shrimp/ Ulva co-culture: a sustainable alternative to diminish the need for artificial feed and improve shrimp quality. Aquaculture 301:64–68
Dave MJ, Garg SK, Iyengar ERR (1977) Assessment of the possibility of seaweeds to be utilized as supplementary animal feed. Salt Res India 13:33–40
Davis TA, Volesky B, Mucci A (2003) A review of the biochemistry of heavy metal biosorption by brown algae. Water Res 37:4311–4330
del Rio MJ, Ramazanov Z, Garcia-Reina G (1996) Ulva rigida (Ulvales, Chlorophyta) tank culture as biofilters for dissolved inorganic nitrogen from fishpond effluents. In: Lindstrom SC, Chapman DJ (eds) Fifteenth international seaweed symposium. Hydrobiologia 326/327:61–66
Demirbas A (2008) Production of biodiesel from algae oils. Energy Sources A 31:163–168
Demirbas AH (2009) Inexpensive oil and fats feedstocks for production of biodiesel. Energy Educ Sci Technol A 23:1–13
Dhargalkar VK (1986) Effect of treated sewage on growth of marine algae. Indian J Mar Sci 15:33–36
Dhargalkar VK, Kavlekar D (2004) Seaweeds – a field manual. In: Verlecar XN, Kavlekar D (eds) National Institute of Oceanography, Dona Paula, Goa, India
Dumelod BD, Ramirez RP, Tiangson CL, Barrios EB, Panlasigui LN (1999) Carbohydrate availability of arroz caldo with λ-carrageenan. Int J Food Sci Nutr 50:283–289
Duruibe JO, Ogwuegbu MOC, Egwurugwu JN (2007) Heavy metal pollution and human biotoxic effects. Int J Phys Sci 2:112–118
Epstein E (1972) Mineral nutrition of plants: principles and perspectives. Wiley, New York, pp 412
Fosmire GJ (1990) Zinc toxicity. Am J Clin Nutr 51:225–227
Graboski MS, McCormick RL (1998) Combustion of fat and vegetable oil derived fuels in diesel engines. Prog Energy Combust Sci 24:125–164
Gray KA, Zhao L, Emptage M (2006) Bioethanol. Curr Opin Chem Biol 10:141–146
Griffin RL, Rogers DJ, Spencer-Phillips PT, Swain L (1995) Lectin from Codium fragile ssp. tomentosoides conjugated to colloidal gold: a new histochemical reagent. Braz J Biomed Sci 52:225–227
Grobbelaar JU (2000) Physiological and technological considerations for optimising mass algal cultures. J Appl Phycol 12:201–206
Haag AL (2007) Algae bloom again. Nature 447:520–521
Haglund K, Pedersén M (1993) Outdoor pond cultivation of the subtropical marine red alga Gracilaria tenuistipitata in brackish water in Sweden. Growth, nutrient uptake, co-cultivation with rainbow trout and epiphyte control. J Appl Phycol 5:271–284
Harley CDG, Anderson KM, Demes KW, Jorve JP, Kordas RL, Coyle TA, Graham MH (2012) Effects of climate change on global seaweed communities. J Phycol 48:1064–1078
Hong Y-K, Park I-S, Jung Y-H, Song S-H, Hong S-Y (1998) Effect of the seaweed Porphyra yezoensis extract on triton WR-1339 induced hypercholesterolemia in mouse. J Korean Fish Soc 31:508–515
Hori K, Miyazawa K, Fusetani N, Hashimoto K, Ito K (1986) Hypnins, low-molecular weight peptide agglutinins isolated from a marine red alga, Hypnea japonica. Biochim Biophys Acta 873:228–236
Immanuel R, Subramanian SK (1999) Effect of fresh extracts and seaweed liquid fertilizers on some cereals and millets. Seaweed Res Util 21:91–94
Iwashima M, Okamato K, Konno F, Iguchi KJ (1999) Nat Prod 62:352–354
Kaliaperumal N, Chennubhotla VSK, Kalimuthu S (1987) Seaweed resource of India. Seaweed Res Util 41:51–99
Kalimuthu S, Chennubhotla VSK, Kaliaperumal, N (1987) Economic important seaweeds of India. Seaweed research and utilization in India. CMFRI Bull 41:99 pp. Tamil Nadu, India,
Kavitha K, Rengasamy R (2002) Potential of Gracilaria verrucosa and Ulva reticulata in investigated aquaculture practice. Seaweed Res Util 24:173–176
Knothe G (2005) Dependence of biodiesel fuel properties on the structure of fatty acid alkyl esters. Fuel Process Technol 86:1059–1070
Lee J-C, Hou M-F, Huang H-W, Chang F-R, Yeh C-C, Tang J-Y, Chang H-W (2013) Marine algal natural products with anti-oxidative, anti-inflammatory, and anti-cancer properties. Cancer Cell Int 13:55
Lingakumar K, Jeyaprakash R, Manimuthu C, Haribaskar A (2002) Gracilaria edulis- an effective alternative source as a growth regulator for Zea mays and Phaseolus mungo. Seaweed Res Util 24:117–123
Ludwig HF, Oswald WJ, Gotaas HB, Lynch V (1951) Algae symbiosis in oxidation ponds. I. Growth characteristics of Euglena gracilis cultured in sewage. Sewage Ind Wastes 23:1337–1355
Madlener JC (1977) The sea-vegetable book. Carlkson N. Potter, Inc., New York, p 288
Matsubara K, Matsuura Y, Hori K, Miyazawa K (2000) An anticoagulant proteoglycan from the marine green alga, Codium pugniformis. J Appl Phycol 12:9–14
McHugh DJ (1987) Production, and utilization of products from commercial seaweeds. FAO fisheries technical paper no. 288, pp 189
McHugh DJ (2003) A guide to the seaweed industry. FAO fisheries technical paper 441, Rome, Italy
Mizukoshi S, Kato F, Matsuoka H, Nakamura K, Noda H (1995) Immunosuppressive effects of marine algae on experimental murine models. Nippon Suisan Gakkaishi 61:889–894
Mohanty D, Adhikary SP, Chattopadhyay GN (2013) Seaweed liquid fertilizer (SLF) and its role in agriculture productivity. Ecoscan 3:147–155
Neori A, Chopin T, Troell M, Buschmann AH, Kraemer G, Halling C, Shpigel M, Yarish C (2004) Integrated aquaculture: rationale, evolution and state of the art emphasizing seaweed biofiltration in modern mariculture. Aquaculture 231:361–391
Nishide E, Uchida H (2003) Effects of Ulva powder on the ingestion and excretion of cholesterol in rats. In: Chapman ARO, Anderson RJ, Vreeland VJ, Davison IR (eds) Proceedings of the 17th international seaweed symposium. Oxford University Press, Oxford, pp 165–168
Nolan KR (2003) Copper toxicity syndrome. J Orthomol Psychiat 12:270–282
Novaczek I (2001) A guide to the common edible and medicinal sea plants of the pacific island. University of the South Pacific, Fiji, pp 40
Ohno M (1997) Cultivation of the green algae, Monostroma and Enteromorpha and Enteromorpha “Aonori”. In: Ohno M, Crtichley A (eds) Seaweed cultivation and marine ranching. International Fisheries Training Center (JICA), Yokosuka, pp 7–15
Ohta T, Sasaki S, Oohori T, Yoshikawa S, Kurihara H (2002) α-Glucosidase inhibitory activity of a 70 % methanol extract from Ezoishige (Pelvetia babingtonii de Toni) and its effect on the elevation of blood glucose level in rats. Biosci Biotechnol Biochem 66:1552–1554
Oza RM, Zaidi SH (2001) A revised checklist of Indian marine algae. Central Salt and Marine Chemical Research Institute, Bhavnagar, p 296
Panlasigui LN, Baello OQ, Dimatangal JM, Dumelod BD (2003) Bllod cholesterol and lipid-lowering effects of carrageenan on human volunteers. Asia Pac J Clin Nutr 12:209–214
Paul PFM, Wise WS (1971) The principle of gas extraction. Mills and Boon, London, p 72, M&B monograph CE/5
Payri C, N’Yeurt ADR, Orempuller J (2000) Algues de Polynesie Francaise. Imprime a Singapore. Au Vent des IIes, 320 pp (in French)
Pulz O (2001) Photobioreactors: production systems for phototrophic microorganisms. Appl Microbiol Biotechnol 57:287–293
Qasim SZ, Sen Gupta R (1988) Some problems of coastal pollution in India. Mar Pollut Bull 19:100–106
Richardson JW, Outlaw JL, Allison M (2009) Economics of micro algae oil. In: 13th ICABR conference on the emerging bio-economy, Ravello, Italy, 17–20 June 2009
Rimber Ir Indy (2007) Why is seaweed so important? M.Sc thesis, Faculty of Fisheries and Marine Sciences, Sam Ratulangi University, Jln. Kampus Bahu, Manado 95115, Indonesia
Rocha HAO, Franco CRC, Trindade ES, Carvalho LCM, Veiga SS, Leite EL, Dietrich CP, Nader HB (2001) A fucan from the brown seaweed Spatoglossum schröederi inhibits Chinese hamster ovary cell adhesion to several extracellular matrix proteins. Braz J Med Biol Res 34:621–626
Rogers DJ, Hori K (1993) Marine algal lectins: new developments. Hydrobiologia 260(261):589–593
Ryther JH, DeBoer JA, Lapointe BE (1979) Cultivation of seaweeds for hydrocolloids, waste treatment and biomass for energy conversion. Proc Int Seaweed Symp 9:1–16
Schneider D (2006) Grow your own?: Would the widespread adoption of biomass-derived transportation fuels really help the environment. Am Sci 94:408–409
Scott A, Bryner M (2006) Alternative fuels: rolling out next-generation technologies. Chem Week 20–27:17–21
Shanmugam M, Mody KH, Ramavat BK, Murthy ASK, Siddhanta AK (2002) Screening of Codiacean algae (Chlorophyta) of the Indian coasts for blood anticoagulant activity. Indian J Mar Sci 31:33–38
Sharif Hossain ABM, Salleh A, Boyce AN, Chowdhury P, Naqiuddin M (2008) Biodiesel fuel production from algae as renewable energy. Am J Biochem Biotechnol 4:250–254
Sharma GM, Sahni MK (1993) Marine proteins and clinical chemistry. In: Attaway DH, Zaborsky OR (eds) Marine biotechnology. Vol 1. Pharmaceutical and bioactive natural products, vol 1. Plenum Press, New York, pp 153–180
Sheehan J, Dunahay T, Benemann J, Roessler P (1998) A look back at the U.S. Department of Energy’s aquatic species program – biodiesel from algae. National Renewable Energy Laboratory (NREL), Golden, Report: NREL/TP-580-24190
Spinelli F, Fiori G, Noferini M, Sprocatti M, Costa G (2010) Perspectives on the use of a seaweed extract to moderate the negative effects of alternate bearing in apple trees. J Hortic Sci Biotechnol ISAFRUIT 131–137
Suh IS, Lee C-G (2003) Photobioreactor engineering: design and performance. Biotechnol Bioproc Eng 8:313–321
Tanaka J, Nakamura T (2004) Japanese Seaweeds. Technical Report, Tokyo, pp 248 (in Japanese)
Thirumaran G, Arumugam M, Arumugam R, Anantharaman P (2009) Effect of seaweed liquid fertilizer on growth and pigment concentration of Cyamopsis tetragonoloba (L) Taub. Am Eur J Agron 2:50–56
Toma T (1997) Cultivation of the brown alga, Cladosiphon okamuranus “Okinawa-mozuku”. In: Ohno M, Crtichley A (eds) Seaweed cultivation and marine ranching. International Fisheries Training Center (JICA), Yokosuka, pp 51–56
Torzillo G, Pushparaj B, Masojidek J, Vonshak A (2003) Biological constraints in algal biotechnology. Biotechnol Bioprocess Eng 8:338–348
Trono G (1997) Eucheuma and Kappaphycus: taxonomy and cultivation. In: Ohno M, Crtichley A (eds) Seaweed cultivation and marine ranching. International Fisheries Training Center (JICA), Yokosuka, pp 75–88
Trono G, Toma T (1997) Cultivation of the green alga Caulerpa lentillifera. In: Ohno M, Critchley AT (eds) Seaweed cultivation and marine ranching. International Fisheries Training Center (JICA), Yokosuka, pp 17–23
Tsezos M, Volesky B (1981) Biosorption of uranium and thorium. Biotechnol Bioeng 23:583–604
Tsutsui I, Huybh QN, Nguyen HD, Arai S, Yoshida T (2005) The common marine plants of southern Vietnam. Japan Seaweed Association, Tosa, p 250
Vandermeulen H, Gordin H (1990) Ammonium uptake using Ulva (Chlorophyta) in intensive fish pond system: mass culture and treatment of effluent. J Appl Phycol 2:363–374
Vieira RHSF, Volesky B (2000) Biosorption: a solution to pollution? Int Microbiol 3:17–24
Wu AM, Wu JH, Watkins WM, Chen CP, Song SC, Chen YY (1998) Differential binding of human blood group Sd(a+) and Sd(a−) Tamm-Horsfall glycoproteins with Dolichos biflorus and Vicia villosa-B4 agglutinins. FEBS Lett 429:323–326
Xu H, Miao X, Wu Q (2006) High quality biodiesel production from a microalga Chlorella protothecoides by heterotrophic growth in fermenters. J Biotechnol 126:499–507
Zemke-White WL, Ohno M (1999) World seaweed utilisation: an end-of-century summary. J Appl Phycol 11:369–376
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Nedumaran, T., Arulbalachandran, D. (2015). Seaweeds: A Promising Source for Sustainable Development. In: Thangavel, P., Sridevi, G. (eds) Environmental Sustainability. Springer, New Delhi. https://doi.org/10.1007/978-81-322-2056-5_4
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