Integrated seaweed cultivation on an abalone farm in South Africa

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• 作者：Deborah V. Robertson-Andersson (1) (7)
  Michelle Potgieter (1)
  Joakim Hansen (2)
  John J. Bolton (1)
  Max Troell (3) (4)
  Robert J. Anderson (5)
  Christina Halling (2)
  Trevor Probyn (6)
  
• 关键词：Integrated ; Abalone ; Seaweed ; Aquaculture ; Ulva ; Recirculation
• 刊名：Journal of Applied Phycology
• 出版年：2008
• 出版时间：October 2008
• 年：2008
• 卷：20
• 期：5
• 页码：579-595
• 全文大小：434KB
• 参考文献：1. Anderson RJ (2003) Seaweed. In: Research highlights 2001-002. Department of Environmental Affairs and Tourism and Marine and Coastal Management Cape Town, pp 31-2
  2. Anderson RJ, Smit AJ, Bolton JJ (1998) Differential grazing effects by isopods on / Gracilaria gracilis and epiphytic / Ceramium diaphanum in suspended raft culture. Aquaculture 169:99-09 CrossRef
  3. Bang ND, Andrews WRH (1974) Direct current measurements of a shelf edge frontal jet in the southern Benguela system. J Mar Res 32:405-17
  4. Bj?rns?ter BO, Wheeler PA (1990) Effect of nitrogen and phosphorus supply on growth and tissue composition of / Ulva fenestrata and / Enteromorpha intestinalis (Ulvales, Chlorophyta). J Phycol 26:603-11 CrossRef
  5. Bower CE, Bidwell JP (1978) Ionization of ammonia in seawater: effects of temperature, pH and salinity. J Fish Res Board Can 35:1012-016
  6. Boyd AJ; Tromp BBS, Horstman DA (1985) The hydrology off the South African south western coast between Cape Point and Danger Point in 1975. S Afr J Mar Sci 3:145-68
  7. Brandt M (2006) A re-circulating integrated abalone/seaweed culture system in South Africa: effects on particulate and sediment load. MFS Dissertation, Stockholm University, Stockholm
  8. Brawley SH, Fei XG (1987) Studies of meisoherbivory in aquaria and an un-barricaded mariculture farm on the Chinese coast. J Phycol 23:614-23
  9. Britz PJ (1996) Effect of dietary protein level on growth performance of South African abalone, / Haliotis midae, fed fishmeal-based semi-purified diets. Aquaculture 140:55-1 CrossRef
  10. Britz PJ, Hecht T, Mangold S (1997) Effect of temperature on growth, feed consumption and nutritional indices of / Haliotis midae fed a formulated diet. Aquaculture 152:191-03 CrossRef
  11. Brzeski V, Newkirk G (1997) Integrated coastal food production systems -a review of current literature. Ocean Coast Manage 34:66-1 CrossRef
  12. Buschmann A, Troell M, Kautsky N (2001) Integrated algal farming: a review. Cah Biol Mar 43:615-55
  13. Castro-Gonzales MI, Perez-Gil Romo F, Perez-Estrella S, Carillo-Dominguez SD (1996) Chemical composition of the green alga / Ulva lactuca. Ciencas Marinas 22:205-13
  14. Chalmers R (2002) An investigation into the feeding biology and factors influencing the population dynamics of / Terebrasabella heterouncinata (Polychaeta: Sabellidae), a problematic tube welling polychaete in farmed abalone in South Africa. M.Sc. Dissertation, Rhodes University, Grahamstown
  15. Chapman P, Shannon LV (1985) The Benguela ecosystem part II: Chemistry and related processes. Oceanogr Mar Biol Ann Rev 23:183-51
  16. Chen S, Timmons MB, Aneshansley DJ, Bisogni JJ (1993) Suspended solids characteristics from re-circulating aquacultural systems and design implications. Aquaculture 112:143-55 CrossRef
  17. Chopin T, Buschmann AH, Halling C, Troell M, Kautsky N, Neori A, Kraemer GP, Zertuche-González JA, Yarish C, Neefus C (2001) Integrating seaweeds into marine aquaculture systems: a key towards sustainability. J Phycol 37:975-86 CrossRef
  18. DeBoer JA (1981) Nutrients. In: Lobban CS, Wynne MJ (eds) The biology of seaweeds. Botanical monographs Vol. 17. Blackwell, Oxford, pp 356-92
  19. Duke CS, Lapointe BE, Ramus J (1986) Effects of irradiance on growth, RuBPCase activity and chemical composition of / Ulva species (Chlorophyta). J Phycol 22:362-70 CrossRef
  20. Duke CS, Litaker W, Ramus J (1987) Seasonal variation in RuBPCase activity and N allocation in the Chlorophyte seaweeds / Ulva curvata (Kutz.) and / Codium decorticatum (Woodw) Howe. J Exp Mar Biol Ecol 112:145-64 CrossRef
  21. Duke CS, Litaker W, Ramus J (1989a) Effects of the temperature, nitrogen supply and tissue nitrogen on ammonium uptake rates of the Chlorophyte seaweeds / Ulva curvata and / Codium decorticatum. J Phycol 25:113-20 CrossRef
  22. Duke CS, Litaker W, Ramus J (1989b) Effect of temperature on nitrogen limited growth rate and chemical composition of / Ulva curvata (Ulvales, Chlorophyta). Mar Biol 100:143-50 CrossRef
  23. Evans GC (1972) The quantitative analysis of plant growth. Studies in Ecology. Blackwell, Oxford
  24. FAO (2004) The state of the world fisheries and aquaculture 2004. Rome, FAO.
  25. Fleming AE, Van Barneveld RJ, Hone PW (1996) The development of artificial diets for abalone: a review and future directions. Aquaculture 140:5-3 CrossRef
  26. Fleurence J, Le Coeur C, Mabeau S, Maurice M, Landrein A (1995) Comparison of different extractive procedures for proteins from the edible seaweeds / Ulva rigida and / Ulva rotundata. J Appl Phycol 7:577-82 CrossRef
  27. Flodin JMT (2005) Bacterial water quality in South African abalone ( / Haliotis midae) tank culture: effects on bacterial levels from seaweed integration and feed choice. MFS Dissertation. Stockholm University, Stockholm
  28. Fourie AM (1994) Tank culturing of / Gracilaria verrucosa for use as a food source for abalone. MSc Dissertation. University of Port Elizabeth, Port Elizabeth
  29. Goldburg R, Triplett T (1997) Murky Waters: Environmental Effects of Aquaculture in the United States. Environmental Defense Fund, Washington, DC
  30. Grasshoff K, Ehrhardt M, Kremling K (1976) Methods of seawater analysis. Weinheim, Germany
  31. Hahn KO (1989) CRC Handbook of culture of abalone and other marine gastropods. CRC Press, Boca Raton
  32. Hansen J (2005) Densities of mobile macrofauna and control of the herbivorous Keyhole limpet / Fissurella mutabilis in an integrated abalone-seaweed tank-culture in South Africa. MFS Dissertation, Stockholm University, Stockholm
  33. Hansen J, Robertson-Andersson DV, Troell M (2006) Control of the herbivorous gastropod / Fissurella mutabilis (Sow.) in a land-based integrated abalone-seaweed culture. Aquaculture 255:384-88 CrossRef
  34. Hampson S (1998) Evaluation of effluent water from an abalone mariculture system as a culture medium for two strains of / Gracilaria gracilis. M.Sc. Dissertation. University of Port Elizabeth, Port Elizabeth
  35. Harris JO, Maguire GB, Edwards SJ, Johns DR (1999) Low dissolved oxygen reduces growth rate and oxygen consumption rate of juvenile greenlip abalone, / Haliotis lae igata Donovan. Aquaculture 174:265-78 CrossRef
  36. Hutchings L, Andrews WRH (1980) Upwelling in the southern Benguela Current, South Africa. Prog Oceanog 9:l-1
  37. Jury MR (1988) A climatological mechanism for wind-driven upwelling near Walker Bay and Danger Point, South Africa. S Afr J Mar Sci 6:175-81
  38. Klamermans P, Malta J - E, Verschuure JM, Schrijvers L, Lentz LF, Lien AT (2002) Effects of grazing by isopods & amphipods on growth of / Ulva spp. (Chlorophyta). Aquat Ecol 36:425-33 CrossRef
  39. Lapointe BE, Tenore KR (1981) Experimental outdoor studies with / U. fasciata Delile, I: interaction of light and nitrogen on nitrogen uptake, growth and biochemical composition. J Exp Mar Biol Ecol 53:135-52 CrossRef
  40. Largier JL, Chapman P, Peterson WT, Swarts VP (1992) The western Agulhas bank: circulation, stratification and ecology. S Afr J Mar Sci 12:319-39
  41. Lindstr?m A (2006) A re-circulating integrated abalone/seaweed culture system in South Africa: effects on water quality. MFS Dissertation. Stockholm University, Stockholm
  42. Lobban CS, Harrrison PJ (Eds) (1994) Seaweed ecology and physiology. Cambridge University Press, Cambridge
  43. Lobban CS, Harrrison PJ, Duncan MJ (1985) The Physiological Ecology of Seaweeds. Cambridge University Press, Cambridge
  44. Mai K, Wu G, Zhu W (2001) Abalone, / Haliotis discus hannai Ino, can synthesize Myo-Insitol de novo to meet physiological needs. J Nutrition 131:2898-903
  45. Miller D (2001) Outdoor cultivation of / Gracilaria in pond and raceway systems at Jacobsbaai Sea Products (Pty) Ltd., South Africa. Honours Dissertation, University of Cape Town, Cape Town
  46. Mitchell-Innes BA, Walker DR (1991) Short term variability during an anchor station study in the Southern Benguela upwelling system: phytoplankton production and biomass in relation to species changes. Prog Oceanog 28:65-9 CrossRef
  47. Morgan D (2000) The potential for / Gracilaria polyculture at Jacobs Bay Sea Products Pty. Honours Dissertation. University of Cape Town, Cape Town
  48. Mouton A (2004) Veterinary health reports for Abalone farms details of methods used and results determination. AFASA report afa03074
  49. Murphy J, Riley JP (1962) A modified single-solution method for the determination of phosphate in natural waters. Analytical Chim Acta 27:31-6 CrossRef
  50. Naidoo K, Maneveldt G, Ruck K, Bolton JJ (2006) A comparison of various seaweed-based diets and formulated feed on growth rate of abalone in a land-based aquaculture system. J Appl Phycol 18:437-43 CrossRef
  51. Neori,A, Cohen I, Gordin H (1991) / Ulva lactuca biofilters for marine fish pond effluents. II. Growth rate, yield and C:N ratio. Bot Mar 34:483-89 CrossRef
  52. Neori A, Krom M, Ellner S, Boyd C, Popper D, Rabinovitch R, Davison P, Dvir O, Zuber D, Ucko M, Angel D, Gordin H (1996) Seaweed biofilters as regulators of water quality in integrated fish-seaweed culture units. Aquaculture 141:183-99 CrossRef
  53. Neori A, Ragg NLC, Shpigel M (1998) The integrated culture of seaweed, abalone, fish and clams in modular intensive land-based systems: II. Performance and nitrogen partitioning within an abalone ( / Haliotis tuberculata) and macroalgae culture system. Aquac Eng 17:215-39 CrossRef
  54. Neori A, Msuya FE, Shauli L, Schuenhoff A, Kopel F, Shpigel M (2003) A novel three stage seaweed ( / Ulva lactuca) biofilter design for integrated mariculature. J Appl Phycol 15:543-53 CrossRef
  55. Neori A, Chopin T, Troell M, Buschmann AH, Kraemer GP, Halling C, Shpigel M, Yarish C (2004) Integrated aquaculture: rationale, evolution and state of the art emphasizing seaweed biofiltration in modern aquaculture. Aquaculture 231:361-91 CrossRef
  56. Nisizawa K, Noda H, Kikuchi R, Watanabe T (1987) The main seaweed foods in Japan. Hydrobiologica 151/152:5-9 CrossRef
  57. Njobeni A (2006) The cultivation of / Gracilaria gracilis (Rhodophyta) in an integrated aquaculture system, for the production of abalone feed and the bioremediation of aquaculture effluent. MSc Dissertation, University of Cape Town, Cape Town
  58. Nydahl F (1976) On the optimum concentrations for reduction of nitrate to nitrite by cadmium. Talanta 23:349-57 CrossRef
  59. Potgieter M (2005) A comparison of suspended particle size and sediment loading produced by artificial and seaweed diets in integrated flow-trough and re-circulating aquaculture systems on a commercial South African abalone farm. MSc Dissertation, University of Cape Town, Cape Town
  60. Probyn TA, Mitchell-Innes BA, Brown PC, Hutchings L, Carter RA (1994) A review of primary production and related processes on the Agulhas Bank. S A J Sci 90:166-73
  61. Robertson-Andersson DV (2002) The Brown Strangler. 50th Newsletter of the Phycological Society of Southern Africa, Cape Town. 11-2.
  62. Robertson-Andersson DV (2003) The cultivation of / Ulva lactuca (Chlorophyta) in an integrated aquaculture system, for the production of abalone feed and the bioremediation of aquaculture effluent. MSc Dissertation, University of Cape Town, South Africa
  63. Robertson-Andersson DV (2007) Biological and economical feasibility studies of using seaweeds / Ulva lactuca (chlorophyta) in recirculation systems in abalone farming. PhD Dissertation, University of Cape Town, South Africa
  64. Robertson-Andersson DV, Wilson D (2004) Nitrogen and thallus colour. 58th Newsletter of the Phycological Society of Southern Africa, Cape Town. 15-7.
  65. Sales J, Britz PJ (2001) Review; Research on abalone ( / Haliotis midae L.) cultivation in South Africa. Aquaculture Res 32:863-74 CrossRef
  66. Schuenhoff A, Shpigel M, Lupatsch I, Ashkenazi A, Msuya FE, Neori A (2003) A semi-recirculating, integrated system for the culture of fish and seaweed. Aquaculture 221:167-81 CrossRef
  67. Shacklock PF, Doyle RW (1983) Control of epiphytes in seaweed cultures using grazers. Aquaculture 31:141-51 CrossRef
  68. Shipton TA (1999) The protein requirements of the South African abalone, / Haliotis midae. PhD Dissertation, Rhodes University, Grahamstown
  69. Simmons R (1990) Abalone farming: how should the stock be fed? In: Cook P (ed) Proceedings of a workshop convened by The Mariculture Association of Southern Africa. The Mariculture Association of Southern Africa, Cape Town, pp 33-2
  70. Simpson BJA (1994) An investigation of diet management strategies for the culture of the South African abalone, / Haliotis midae. MSc Dissertation, University of Cape Town, Cape Town
  71. Simpson BJA, Cook PA (1998) Rotation diets: a method of improving growth of cultured abalone using natural algal diets. J Shellfish Res 17:635-40
  72. Smit AJ (1997) Optimising / Gracilaria verrucosa production in a laboratory based culture system. MSc Dissertation, University of Port Elizabeth
  73. Smit AJ, Fourie AM, Robertson BL, Du Preez DR (2003) Control of the herbivorous isopod / Paridotea reticulata in / Gracilaria gracilis tank cultures. Aquaculture 217:385-93 CrossRef
  74. Smith DG, Young EG (1954) Amino acids of marine algae. J Biochem 217:845-53
  75. Solorzano L (1969) Determination of ammonium in natural waters by the phenol-hypochlorite method. Limnol Oceanogr 14:799-01 CrossRef
  76. Steyn PP (2000) A comparative study of the production and suitability of two / Ulva species as abalone fodder in a commercial mariculture system. M. Sc. Dissertation. University of Port Elizabeth, South Africa
  77. Troell M, Kautsky N, Folke C (1999a) Applicability of integrated coastal aquaculture systems. Ocean Coast Manag 42:63-9 CrossRef
  78. Troell M, R?nnback P, Halling C, Kautsky N, Buschmann A (1999b) Ecological engineering in aquaculture: use of seaweeds for removing nutrients from intensive mariculture. J Appl Phycol 11:89-7 CrossRef
  79. Troell M, Halling C, Neori A, Chopin T, Buschmann AH, Kautsky N, Yarish C (2003) Integrated mariculture: asking the right questions. Aquaculture 226:69-0 CrossRef
  80. Troell M, Robertson-Andersson DV, Anderson RJ, Bolton JJ, Maneveldt G, Halling C, Probyn T et al (2006). Abalone farming in South Africa: perspectives on kelp resources, abalone feed, potential for on-farm seaweed production and socio-economic benefits. Aquaculture 257:266-81 CrossRef
  81. Wilkinson S (2001) An investigation of protein variation in / Ulva lactuca and / Ulva rigida under high nitrogen culture conditions. Honours Dissertation, University of Cape Town, Cape Town
  82. Wong KH, Cheung PCK (2001) Nutritional evaluation of some subtropical red and green seaweeds. Part II. In vitro protein digestibility & amino acid profiles of protein concentrates. Food Chem 72:11-7 CrossRef
  
• 作者单位：Deborah V. Robertson-Andersson (1) (7)
  Michelle Potgieter (1)
  Joakim Hansen (2)
  John J. Bolton (1)
  Max Troell (3) (4)
  Robert J. Anderson (5)
  Christina Halling (2)
  Trevor Probyn (6)
  
  1. Botany Department, University of Cape Town, Rondebosch, 7701, South Africa
  7. Biodiversity and Conservation Biology, University of the Western Cape, Bellville, 7535, South Africa
  2. Department of Systems Ecology, Stockholm University, SE 106 91, Stockholm, Sweden
  3. Department of Systems Ecology, Stockholm Resilience Centre, Stockholm University, SE-106 91, Stockholm, Sweden
  4. The Beijer International Institute of Ecological Economics, The Royal Swedish Academy of Sciences, Box 50005, S-104 05, Stockholm, Sweden
  5. Seaweed Unit, Marine and Coastal Management, Pvt Bag X2, Roggebaai, South Africa
  6. Aquaculture Unit, Marine and Coastal Management, Pvt Bag X2, Roggebaai, South Africa
  

文摘

Land-based abalone aquaculture in South Africa, based on the local species Haliotis midae, started in the early 1990s and has grown rapidly in the last decade, with 13 commercial farms now producing over 850?t per annum. Over 6,000?t per annum of kelp Ecklonia maxima are now harvested for this purpose, and some kelp beds are reaching maximum sustainable limits. Research into seaweed aquaculture as feed (Ulva and some Gracilaria) for abalone started in the late 1990s on the southeast coast (where there are no kelp beds) using abalone waste water. A growing body of evidence suggests that a mixed diet of kelp plus other seaweeds can give growth rates at least as good as compound feed, and can improve abalone quality and reduce parasite loads. A pilot scale Ulva lactuca and abalone integrated recirculation unit using 25% recirculation was designed and built on the south west coast of South Africa using one 12,000-L abalone tank containing 13,200 15?±-.5?g abalone, connected to two 3,000-L seaweed tanks containing an initial starting biomass of 10?kg of seaweed, replicated 3 times. In an 18-month period, there were no significant differences in abalone health or growth rates, sediment build up and composition, mobile macro fauna densities and species between the recirculation or the flow-through units. Transfer of oxygen generated by the seaweeds to the abalone tanks was poor, resulting in the recirculated abalone tanks having lower (33%) dissolved oxygen concentrations than a comparable flow-through abalone unit. Seaweed nutrient content and specific growth rates in the units were comparable to seaweeds cultivated in fertilized effluent (SGR--.2?±-.4%.day?; Yield--.2?±-.19?kg.m2.day?). Indications were that at this low recirculation ratio the seaweeds in the units were nutrient limited and that there were no negative effects to the abalone being cultivated in such a recirculation unit at this recirculation ratio.