Abstract
The effects of different diets on growth in the cultured South African abalone, Haliotis midae (Linnaeus), was investigated. Growth of juvenile Haliotis midae was monitored on a commercial abalone farm over a period of 9 months in an experiment consisting of 9 treatments with 4 replicates (n = 250 individuals per replicate). The treatments were: fresh kelp (Ecklonia maxima) blades (seaweed control); Abfeed® (formulated feed control); kelp + Abfeed® dried kelp pellets; dried kelp blades; dried kelp stipes; fresh kelp with the epiphyte Carpoblepharis flaccida; a mixed diet (Gracilaria gracilis, Ulva lactuca, and kelp) and a rotational diet (abalone were fed 1 of the 9 treatments for the first week and them kelp for the next 3 weeks). Results show that abalone grow well on all fresh seaweed combinations, but grow best on a mixed diet. The likely reason for the success of the mixed diet is that the red and green seaweed was farm grown, with an increased protein content. Dried kelp in any form produced poor growth. Abalone fed on the mixed diet grew at 0.066 mm day−1 shell length and 0.074 g day−1 body weight; this corresponds to 24.09 mm shell length and 27.01 g body weight increase per annum. Abalone fed on dried kelp grew at only 0.029 mm day−1 shell length and of 0.021 g day−1 body weight. Abalone grown on Abfeed® grew at 0.049 mm day−1 shell length and 0.046 g day−1 body weight which corresponds to 17.88 mm and 16.79 g increase per annum; this is better than the dried seaweed feeds, but poorer than the fresh seaweed combinations. This study shows that seaweed diets, particularly if the diets include seaweeds grown in animal aquaculture effluent, are good substitutes for the formulated feed generally used today.
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References
Barkai R, Griffiths CL (1986) Diet of the South African abalone Haliotis midae. South African Journal of Marine Science 4: 37–44.
Barkai R, Griffiths CL (1987) Consumption, absorption efficiency, respiration and excretion in the South African abalone Haliotis midae. South African Journal of Marine Science 5: 523–529.
Bautista-Teruel MN, Fermin AC, Koshio SS (2003) Diet development and evaluation for juvenile abalone, Haliotis asinine and plant protein sources. Aquaculture 219: 645–653.
Boarder SJ, Shpigel M (2001) Comparative growth performance of juvenile Haliotis roei fed on enriched Ulva rigida and various artificial diets. Journal of Shellfish Research 20: 653–657.
Britz PJ (1996a) Effects of dietary protein level on growth performance of South African abalone, Haliotis midae, fed on fishmeal based semi-purified diets. Aquaculture 140: 55–61.
Britz PJ, (1996b) The suitability of selected protein sources for inclusion in formulated diets for the South African abalone Haliotis midae. Aquaculture 140: 63–73.
Britz JP, Hecht T, Knauer J, Dixon MG (1994) The development of an artificial feed for abalone farming. South African Journal of Science 90: 7–8.
Day RW, Fleming AE (1992) The determinants and measurement of abalone growth. In Shepherd SA, Tegner MJ, Guzmán Del Próo SA (eds), Abalone of the World. Biology, Fisheries and Culture. Fishing News Books, Oxford, pp. 141–168.
Duncan A, Klekowski RZ (1975) Parameters of an energy budget. In Grodzinski W, Klekowski RZ, Duncan A (eds), Methods for Ecological Bioenergetics. IBP Handbook. Blackwell Scientific Publications, Oxford, pp. 97–148.
Fleming AE (1995) Growth, intake, feed conversion efficiency and chemosensory preference of the Australian abalone, Haliotis rubra. Aquaculture 132: 297–331.
Fleming AE, van Barneveld RJ, Hone PW (1996) The development of artificial diets for abalone: A review and future directions. Aquaculture 140: 5–53.
Genade AB, Hirst AL, Smit CJ (1988) Observations on the spawning, development and rearing of the South African abalone Haliotis midae Linn. South African Journal of Marine Science 6: 3–12.
Gerber WH (2004) Enhancing the competitive advantage of the South African cultivated abalone industry. M.Sc. thesis, University of Stellenbosch, South Africa.
Guzmán JM, Viana MT (1998) Growth of abalone Haliotis fulgens fed diets with and without fish meal, compared to a commercial diet. Aquaculture 165: 321–333.
Hahn KO (1989) Nutrition and growth of abalone. In Hahn KO (ed), Handbook of Culture of Abalone and Other Marine Gastropods. Florida, pp. 135–156.
Leighton DL (1974) The influence of temperature on larval and juvenile growth in three species of Southern California abalones. Fisheries Bulletin 72: 1137–1145.
Newman GG (1968) Growth of the South African abalone Haliotis midae. Republic of South Africa Department of Industries, Division of Sea Fisheries, Investigational Report 67: 1–24.
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. Aquacultural Engineering 17: 215–239.
Owen B, Disaivo LH, Ebert EE, Fonck E (1984) Culture of the California red abalone Haliotis rufescens Swanson (1822) in Chile. Veliger 27: 101–105.
Robertson-Andersson DV (2004) The cultivation of Ulva lactuca (Chlorophyta) in an intergrated aquaculture system, for the production of abalone feed and the bioremediation of aquaculture effluent. M.Sc. thesis, University of Cape Town, South Africa.
Robertson-Andersson DV, Leitao D, Bolton JJ, Anderson RJ, Njobeni A, Ruck K (2006) Can kelp extract (KELPAK® be useful in seaweed mariculture? Hydrobiologia, in press.
Sales J, Britz PJ (2001) Research on abalone (Haliotis midae L.) cultivation in South Africa. Aquaculture Research 32: 863–875.
Sales J, Janssens GP (2004) Use of feed ingredients in artificial diets for abalone: a brief update. Nutrition Abstracts and Reviews: Series B 74: 13N–21N.
Shepherd SA, Steinberg PD (1992) Food preference of three Australian abalone species with a review of the algal food of abalone. In Shepherd SA, Tegner MJ, Guzmán Del Próo SA (eds), Abalone of the World: Biology, Fisheries and Culture. Blackwell Scientific Publications, Oxford, pp. 169–181.
Simpson JA, Cook PA (1998) Rotation Diets: A method of improving growth of cultured abalone using natural algal diets. Journal of Shellfish Research 17: 635–640.
Shpigel M, Ragg NL, Lapatsch I, Neori A (1999) Protein content determines the nutritional value of the seaweed Ulva lactuca L. for the abalone Haliotis tuberculata L. and H. discus hannai Ino. Journal of Shellfish Research 18: 227–233.
Stegenga H, Bolton JJ, Anderson RJ (1997) Seaweeds of the South African West Coast. Contributions from the Bolus Herbarium, University of Cape Town, 18: 655 pp.
Stepto NK, Cook PA (1993) Feeding preferences of the juvenile South African abalone Haliotis midae (Linnaeus, 1758). Journal of Shellfish Research 15: 653–657.
Stuart MD, Brown MT (1994) Growth and diet of cultivated black-footed abalone, Haliotis iris (Martyn). Aquaculture 127: 329–337.
Tutshulte TC, Connell JH (1988) Feeding behaviour and algal food of three species of abalones (Haliotis) in southern California. Marine Ecology 49: 57–64.
Zar JH (1984) Biostatistical Analysis. 2nd edition. Prentice Hall, New Jersey, 718pp.
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Naidoo, K., Maneveldt, G., Ruck, K. et al. 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, 437–443 (2006). https://doi.org/10.1007/s10811-006-9045-7
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DOI: https://doi.org/10.1007/s10811-006-9045-7