Epiphytism and fouling in Gracilaria cultivation: an overview (original) (raw)
Anderson RJ, Levitt GJ, Dawes CP, Simons RH (1992) Experimental growth of Gracilaria in Saldanha Bay, South Africa. In Mshigeni KE, Bolton J, Critchley A, Kiangi G (eds), Proceedings of the First International Workshop on Sustainable Seaweed Resource Development in Sub-Saharan Africa. K E Mshigeni, Windhoek, Namibia: 19–36. Google Scholar
Axelsson L, Uusitalo J (1988) Carbon acquisition strategies for marine macroalgae I. Utilization of proton exchanges visualized during photosynthesis in a closed system. Mar. Biol. 97: 295–300. ArticleCAS Google Scholar
Bird CJ (1995) A review of recent taxonomic concepts and developments in the Gracilariaceae (Rhodophyta). J. appl. Phycol. 7: 255–267. Google Scholar
Bird CJ, Kain JM (1995) Recommended names of included species of Gracilariaceae. J. appl. Phycol. 7: 335–338. Google Scholar
Bird KT, Habig C, DeBusk T (1982) Nitrogen allocation and storage patterns in Gracilaria tikvahiae. J. Phycol. 18: 344–348. ArticleCAS Google Scholar
Bravo A, Buschmann AH, Valenzuela ME, Uribe M, Vergara PA, Buitano MS (1992) Evaluation of artificial intertidal enclosures for Gracilaria farming in southern Chile. Aquacult. Engng 11: 203–216. Article Google Scholar
Brawley SH, Fei XG (1987) Studies of mesoherbivory in aquaria and in an unbarricaded mariculture farm on the Chinese coast. J. Phycol. 23: 614–623. Article Google Scholar
Brinkhuis BH, Levine HG, Schlenk HG, 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: 107–146. Google Scholar
Buschmann AH, Gómez P (1993) Interaction mechanisms between Gracilaria chilensis (Rhodophyta) and epiphytes In Chapman ARO, Brown MT, Lahaye M (eds), Fourteenth International Seaweed Symposium. Developments in Hydrobiology 85. Kluwer Academic Publishers, Dordrecht. Reprinted from Hydrobiologia 260/261: 345–351. Google Scholar
Buschmann AH, Kuschel FA (1988) Cultivo intermareal de Gracilaria sp. colonizacion de espores e interaction con Ulva lactuca. Biota 4: 107–113. Google Scholar
Buschmann AH, Kuschel FA, Vergara PA, Schulz JA (1992) Intertidal Gracilaria farming in southern Chile: differences of the algal provenience. Aquat. Bot. 42: 327–337. Article Google Scholar
Buschmann AH, Mora OA, Gómez P, Böttger M, Buitano S, Retamales C, Vergara PA, Gutierrez A (1994a) Gracilaria chilensis outdoor cultivation in Chile: use of land-based salmon culture effleents. Aquacult. Engng 13: 283–300. Article Google Scholar
Buschmann AH, Schutz J, Vergara PA (1994b) Herbibory and epiphytism in a Gracilaria intertidal bed in southern Chile. In Koop K (ed.), Ecology of Marine Aquaculture. International Foundation for Science, Stockholm: 48–58. Google Scholar
Cancino JM, Munoz M, Orellana MC (1987) Effects of epifauna on algal growth and quality of the agar produced by Gracilaria verrucosa (Hudson) Papenfuss. In Ragan MA, Bird CJ (eds), Twelfth International Seaweed Symposium. Developments in Hydrobiology 41. Dr W. Junk Publishers, Dordrecht. Reprinted from Hydrobiologia 151/152: 233–237. Google Scholar
Chiang YM (1981) Cultivation of Gracilaria (Rhodophycophyta, Gigartinales) in Taiwan. In Levring T (ed.), Proceedings of the Tenth International Seaweed Symposium. Walter de Gruyter, Berlin: 569–574. Google Scholar
Chiang YM (1992) Seaweed cultivation in Taiwan. In Mshigeni KE, Bolton J, Critchley A, Kiangi G (eds), Proceedings of the First International Workshop on Sustainable Seaweed Resource Development in Sub-Saharan Africa. K E Mshigeni, Windhoek, Namibia: 61–67. Google Scholar
Dawes CJ (1987) The biology of commercially important tropical marine algae. In Bird KT, Benson PH (eds), Seaweed Cultivation for Renewable Resources. Developments in Aquaculture and Fisheries Science, 16. Elsevier, Amsterdam: 155–190. Google Scholar
Dawes CP (1992) Rope cultivation of Gracilaria in Namibia: prospects. In Mshigeni KE, Bolton J, Critchley A, Kiangi G (eds), Proceedings of the First International Workshop on Sustainable Seaweed Resource Development in Sub-Saharan Africa. K E Mshigeni, Windhoek, Namibia: 99–109. Google Scholar
Doty MS (1980) Outplanting Eucheuma species and Gracilaria species in the tropics. In Abbott IA, Foster MS, Eklund L (eds), Pacific Seaweed Aquaculture. California Sea Grant College Program, La Jolla: 19–22. Google Scholar
Edding M, Macchiauello J, Black H (1987) Culture of Gracilaria sp. in outdoor tanks: productivity. In Ragan MA, Bird CJ (eds), Twelfth International Seaweed Symposium. Developments in Hydrobiology 41. Dr W. Junk Publishers, Dordrecht. Reprinted from Hydrobiologia 151/152: 369–373. Google Scholar
Edelstein T, Bird CJ, McLachlan J (1976) Studies on Gracilaria 2. Growth under greenhouse conditions. Can. J. Bot. 54: 2275–2290. Article Google Scholar
Enright CT (1979) Competitive interaction between Chondrus crispus (Florideophyceae) and Ulva lactuca (Chlorophyceae) in Chondrus aquaculture. In Jensen A, Stein JR (eds), Proceedings of the Ninth International Seaweed Symposium. Science Press, Princeton: 209–218. Google Scholar
Fletcher RL (1981) Marine algae as fouling organisms. In Proceedings of the Third Economic and Medicinal Plants Research Association Symposium. University Botanic Gardens, Cambridge: 193–215. Google Scholar
Fletcher RL (1988) Brief review of the role of marine algae in biodeterioration. Int. Biodeterior. 24: 141–152. Article Google Scholar
Fletcher RL (1995) The occurrence of ‘Green Tides’: a review. In Schramm W, Nienhuis P (eds), Marine Benthic Vegetation in Europe: Recent Changes and the Effects of Eutrophication (in press).
Friedlander M (1991) Growth rate, epiphyte biomass and agar yield of Gracilaria conferta in an annual outdoor experiment. I. Irradiance and nitrogen. Bioresource Technology 38: 203–208. Article Google Scholar
Friedlander M (1992) Gracilaria conferta and its epiphytes: the effect of culture conditions on growth. Bot. mar. 35: 423–428. Google Scholar
Friedlander M, Ben-Amotz A (1991) The effect of outdoor culture conditions on growth and epiphytes of Gracilaria conferta. Aquat. Bot. 39: 315–333. Article Google Scholar
Friedlander M, Galai N, Farbstein H (1990) A model of seaweed growth in an outdoor culture in Israel. In Lindstrom SC, Gabrielson PW (eds), Thirteenth International Seaweed Symposium. Developments in Hydrobiology 58. Kluwer Academic Publishers, Dordrecht. Reprinted from Hydrobiologia 204/205: 367–373. Google Scholar
Friedlander M, Krom MD, Ben Amotz A (1991) The effect of light and ammonium on growth, epiphytes and chemical constituents of Gracilaria conferta in outdoor cultures. Bot. mar. 34: 161–166. ArticleCAS Google Scholar
Friedlander M, Shalev R, Ganor T, Strimling S, Ben-Amotz A, Klar H Wax Y (1987) Seasonal fluctuations of growth rate and chemical composition of Gracilaria cf. conferta in outdoor culture in Israel. In Ragan MA, Bird CJ (eds) Twelfth International Seaweed Symposium. Developments in Hydrobiology 41. Dr J W. Junk Publishers, Dordrecht. Reprinted from Hydrobiologia 151/152: 501–507. Google Scholar
Fujita RM (1985) The role of nitrogen status in regulating transient ammonium uptake and nitrogen storage by macroalgae. J. exp. mar. Biol. Ecol. 92: 283–301. ArticleCAS Google Scholar
Guiry MD, Ottway B (1981) Maricultural studies on Gracilaria foliifera, an agar producing seaweed. In Proceedings of the Third Economic and Medicinal Plants Research Association Symposium. University Botanic Gardens, Cambridge: 85–95. Google Scholar
Haglund K (1992) Photosynthesis and growth of some marine algae, with emphasis on the rhodophyte Gracilaria tenuistipitata Acta Univ. Ups., Comprehensive Summaries of Uppsala Dissertations from the Faculty of Science 377. Uppsala, Sweden, 48 pp.
Haglund K, Pedersén M (1988) Spray cultivation of seaweeds in recirculating brackish water. Aquaculture 72: 181–189. Article Google Scholar
Haglund K, Pedersén M (1993) Outdoor pond cultivation of the marine red alga Gracilaria tenuistipitata in brackish water in Sweden. Growth, nutrient uptake, cocultivation with rainbow trout and epiphyte control. J. appl. Phycol. 5: 271–284. Article Google Scholar
Hanisak MD (1987) Cultivation of Gracilaria and other macroalgae in Florida for energy production. In Bird KT, Benson PH (eds), Seaweed Cultivation for Renewable Resources. Developments in Aquaculture and Fisheries Science, 16. Elsevier, Amsterdam: 191–218. Google Scholar
Hansen JE (1984) Strain selection and physiology in the development of Gracilaria mariculture. In Bird CJ, Ragan MA (eds), Eleventh International Seaweed Symposium. Developments in Hydrobiologia, 22. Dr W. Junk Publishers, Dordrecht. Reprinted from Hydrobiologia 116/117: 89–94. Google Scholar
Hansen JE, Packard JE, Doyle WT (1981) Mariculture of red seaweeds. California Sea Grant College Program, La Jolla: 42 pp. Google Scholar
Harlin MM (1978) Nitrate uptake by Enteromorpha spp. (Chlorophyceae): applications to aquaculture systems. Aquaculture 15: 373–376. Article Google Scholar
Kuschel FA, Buschmann AH (1991) Abundance effects and management of epiphytism in intertidal cultures of Gracilaria (Rhodophyta) in southern Chile. Aquaculture 92: 7–19. Article Google Scholar
Lapointe BE, Ryther JH (1978) Some aspects of the growth and yield of Gracilaria tikvahiae in culture. Aquaculture 15: 185–193. Article Google Scholar
Levy I, Beer S, Friedlander M (1990) Growth, photosynthesis and agar in wild-type strain of Gracilaria verrucosa and G. conferto (Gracilariales, Rhodophyta), as a strain selection experiment. In Lindstrom SC, Gabrielson PW (eds), Thirteenth International Seaweed Symposium. Developments in Hydrobiology 58. Kluwer Academic Publishers, Dordrecht. Reprinted from Hydrobiologia 204/205: 381–387. Google Scholar
Lignell A, Ekman P, Pedersén M (1987) Cultivation technique for marine seaweeds allowing controlled and optimized conditions in the laboratory and on pilot scale. Bot. mar. 30: 417–424. Google Scholar
Li RZ, Chong RY, Meng ZC (1984) A preliminary study of raft cultivation of Gracilaria verrucosa and Gracilaria sjoestedtii In Bird CJ, Ragan MA (eds), Eleventh International Seaweed Symposium. Developments in Hydrobiology 22. Dr W. Junk Publishers, Dordrecht. Reprinted from Hydrobiologia 116/117: 252–254. Google Scholar
Lipkin Y (1985) Outdoor cultivation of sea vegetables. Plant and Soil 89: 159–183. Article Google Scholar
Maggs CA, Hommersand MH (1993) Seaweeds of the British Isles. Vol. 1. Rhodophyta. Part 3A Ceramiales. HMSO Publications, London: 444 pp.
Moss BL (1982) The control of epiphytes by Halidrys siliquosa (L.) Lyngb. (Phaeophyta, Cystoseiraceae). Phycologia 21: 149–153. Google Scholar
Nelson SG, Tsutsui RN, Best BR (1980) A preliminary evaluation of the mariculture potential of Gracilaria (Rhodophyta) in micronesia: growth and ammonium uptake. In Abbott IA, Foster MS, Eklund L (eds), Pacific Seaweed Aquaculture. California Sea Grant College Program, La Jolla: 72–79. Google Scholar
Oliveira EC (1992) Seaweed exploitation and cultivation in Brazil. In Mshigeni KE, Bolton J, Critchley A, Kiangi G (eds), Proceedings of the First International Workshop on Sustainable Seaweed Resource Development in Sub-Saharan Africa. K E Mshigeni, Windhoek, Namibia: 283–294. Google Scholar
Pickering TD, Gordon ME, Tong LJ (1993) Effect of nutrient pulse concentration and frequency on growth of Gracilaria chilensis plants and levels of epiphytic algae. J. appl. Phycol. 5: 525–533. Article Google Scholar
Pizarro A, Barrales H (1986) Field assessment of two methods for planting the agar containing seaweed, Gracilaria, in northern Chile. Aquaculture 59: 31–43. Article Google Scholar
Pizarro A, Santelices B (1993) Environmental variation and large-scale Gracilaria production. In Chapman ARO, Brown MT, Lahaye M (eds), Fourteenth International Seaweed Symposium. Developments in Hydrobiology 85. Kluwer Academic Publishers, Dordrecht. Reprinted from Hydrobiologia 260/261: 357–363. Google Scholar
Pringle JD, James D, Tseng CK (1989) Overview of a workshop on production and utilization of commercial seaweeds-Qingdao, China, 1987. J. appl. Phycol. 1: 83–90. Article Google Scholar
Ren GZ, Wang JC, Chen MQ (1984) Cultivation of Gracilaria by means of low rafts. In Bird CJ, Ragan MA (eds), Eleventh International Seaweed Symposium. Developments in Hydrobiology 22. Dr W. Junk Publishers, Dordrecht. Reprinted from Hydrobiologia 116/117: 72–76. Google Scholar
Rincones RE, Rubio JN, Racca EC (1992) Gracilaria pilot farming in Venezuela. In Mshigeni KE, Bolton J, Critchley A, Kiangi G (eds), Proceedings of the First International Workshop on Sustainable Seaweed Resource Development in Sub-Saharan Africa. K E Mshigeni, Windhoek, Namibia: 309–318. Google Scholar
Rueness J, Fredriksen S (1989) Culture studies of agarophytes with special reference to Gelidium species at their northern limit of distribution. In Kain JM, Andrews JW McGregor BJ (eds), Outdoor Seaweed Cultivation, Proceedings of the Second Workshop of COST 48 Subgroup 1. European Economic Community, Brussels: 55–58. Google Scholar
Ryther JH (1977) Preliminary results with a pilot-plan waste recycling-marine aquaculture system. In D'Itri FM (ed.) Wastewater Renovation and Reuse. Maral Dekker Inc., New York: 89–132. Google Scholar
Ryther JH, Corwin N, De Busk TA, Williams LD (1981) Nitrogen uptake and storage by the red alga Gracilaria tikvahiae. Aquaculture 26: 107–116. ArticleCAS Google Scholar
Santelices B, Doty MS (1989) A review of Gracilaria farming. Aquaculture 78: 95–133. Article Google Scholar
Santilices B, Ugarte R (1990) Ecological differences among Chilean populations of commercial Gracilaria. J. appl. Phycol. 2: 17–26. Article Google Scholar
Santelices B, Varela D (1993) Exudates from Gracilaria chilensi stimulate settlement of epiphytic ulvoids. In Chapman ARO, Brown MT, Lahaye M (eds), Fourteenth International Seaweed Symposium. Developments in Hydrobiology 85. Kluwer Academic Publishers, Dordrecht. Reprinted from Hydrobiologia 260/261: 327–333. Google Scholar
Shang YC (1976) Economic aspects of Gracilaria culture in Taiwan. Aquaculture 8: 1–7. Article Google Scholar
Sieburth JM, Conover JT (1965) Sargassum tannin, an antibiotic which retards fouling. Nature, Lond. 208: 52–53. Article Google Scholar
Smith AH (1986) A guide to seamoss cultivation in the West Indies. Report, Caribbean Conservation Association, St. Michael, Barbados: 20 pp. Google Scholar
Smith AH, Nichols K, McLachlan J (1984) Cultivation of seamoss Gracilaria in St Lucia, West Indies. In Bird CJ, Ragan MA (eds), Eleventh International Seaweed Symposium. Developments in Hydrobiology 22. Dr W. Junk Publishers, Dordrecht. Reprinted from Hydrobiologia 116/117: 249–251. Google Scholar
Svirski E, Beer S, Friedlander M (1993) Gracilaria conferta and its epiphytes: interrelationship between the red seaweed and Ulva cf. lactuca. In Chapman ARO, Brown MT, Lahaye M (eds), Fourteenth International Seaweed Symposium. Developments in Hydrobiology 85. Kluwer Academic Publishers, Dordrecht. Reprinted from Hydrobiologia 260/261: 391–396. Google Scholar
Ugarte R, Santelices B (1992) Experimental tank cultivation of Gracilaria chilensis in central Chile. Aquaculture 101: 7–16. Article Google Scholar
Wallentinus I (1984) Comparisons of uptake rates for Baltic macroaglae with different thallus morphologies. Mar. Biol. 80: 215–225. ArticleCAS Google Scholar
Wheeler WN, Neushul M, Harger BWW (1981) Development of a coastal marine farm and its associated problems. In Levring T (ed.), Proceedings of the Tenth International Seaweed Symposium. Walter de Gruyter, Berlin: 631–636. Google Scholar
Yoneshigue-Braga Y. Baeta Neves MHC (1981) Preliminary studies on mass culture of Gracilaria using different nutrient media. In Levring T (ed.), Proceedings of the Tenth International Seaweed Symposium. Walter de Gruyter, Berlin: 643–648. Google Scholar