 |
 |
 |
 |
 |
 |
Sains Malaysiana 46(12)(2017): 2281–2289 http://dx.doi.org/10.17576/jsm-2017-4612-04
Green Water Meal as Protein and Carotenoid
Sources in Grow-out Diets for Pacific White Shrimp, Litopenaeus vannamei
(Tepung Air
Hijau sebagai Punca Protein
dan Karotenoid
di dalam Diet Tumbesaran Udang Putih Pasifik,
Litopenaeus vannamei)
ROSSITA SHAPAWI*, NAJAMUDDIN ABDUL BASRI
& SITTI RAEHANAH MUHD SHALEH
Borneo Marine Research Institute, Universiti Malaysia Sabah, Jalan UMS, 88400 Kota Kinabalu, Sabah Negeri di Bawah Bayu, Malaysia
Received: 15 June 2016/Accepted:
13 February 2017
ABSTRACT
The present study was
conducted to evaluate the potential of green water meal (GWM)
as an alternative dietary ingredient for juvenile Pacific white shrimp, Litopenaeus vannamei.
Five isoproteic and isolipidic diets were formulated with 0% (GWM0, control diet), 10% (GWM10),
20% (GWM20), 30% (GWM30) and 40% (GWM40)
of GWM replacing fishmeal protein and fed five times daily
to triplicate groups of shrimp with an average initial weight of 6.42±0.02 g.
In general, growth performance and feed utilization of shrimp fed with GWM10
did not show any significant differences with the control diet. Survival rate
was above 88% and not affected by the dietary treatments. The whole-body protein
and lipid of the shrimps decreased with the increasing GWM level
in the diets. The shrimps fed with the GWM-based diets (GWM10, GWM20, GWM30
and GWM40) presented more intense red/orange colour and contained higher total carotenoid concentration
compare with the control diet. The present findings suggested that GWM is
an excellent source of carotenoid for shrimp pigmentation and able to replace
fishmeal protein at up to 10% replacement level.
Keywords: Fishmeal
replacement; microalgae meal; Pacific white shrimp; pigmentation
ABSTRAK
Kajian ini telah dijalankan untuk menilai potensi tepung air hijau (GWM) sebagai sumber ramuan alternatif dalam pemakanan juvenil udang putih Pasifik, Litopenaeus vannamei. Lima diet isoproteik dan isolipidik telah dirumuskan dengan 0% (diet kawalan), 10% (GWM10), 20% (GWM20),
30% (GWM30) dan 40% (GWM40) GWM menggantikan protein daripada tepung ikan dan diberi makan lima kali sehari kepada tiga kumpulan udang dengan berat purata awal 6.42±0.02 g. Secara keseluruhannya, prestasi pertumbuhan dan penghadaman makanan untuk udang yang diberi makan dengan diet GWM10 tidak menunjukkan perbezaan yang signifikan dengan diet kawalan. Kadar kelangsungan hidup adalah lebih daripada 88% dan tidak dipengaruhi oleh diet pemakanan. Kandungan protein dan lipid udang menurun dengan tahap GWM yang semakin meningkat di dalam diet. Udang yang diberi makan dengan diet yang berasaskan GWM (GWM10, GWM20, GWM30 dan GWM40) menunjukkan warna merah/jingga yang terang dan mengandungi jumlah kandungan karotenoid yang lebih tinggi berbanding dengan diet kawalan. Hasil kajian ini menunjukkan bahawa GWM adalah sumber karotenoid yang sangat baik untuk pigmentasi udang dan boleh menggantikan protein daripada tepung ikan sehingga 10% tahap penggantian.
Kata kunci: Hidangan mikroalga; hidangan udang gantian; pigmentasi; udang putih pasifik
REFERENCES
Association of Official Analytical Chemists (AOAC). 1997. Official Methods of Analysis of AOAC International. 16th ed.
Arlington, Virginia: AOAC International.
Appler,
H.N. 1985. Evaluation of Hydrodictyon reticulatumas protein source in feeds for Oreochromis (Tilapia) niloticus and Tilapia zillii. Journal of
Fish Biology 27: 327-334.
Appler,
H.N. & Jauncey, K. 1983. The utilization of a filamentous green alga (Cladophora glomerata(L) Kutzin)
as a protein source in pelleted feeds for Sarotherodon (Tilapia) niloticus fingerlings. Aquaculture 30: 21-30.
Arredondo-Figueroa, J.L., Pedroza-Islas,
R., Ponce-Palafox, J.T. & Vernon-Carter, E.J. 2003. Pigmentation of pacific white shrimp (Litopenaeus vannamei, BOONE 1931) with esterified and saponified carotenoids from red chile (Capsicum annuum) in comparison to astaxanthin. Revista Mexicana de Ingeniería Química (Mexican Journal of Chemical Engineering) 2: 101-108.
Badwy,
T.M., Ibrahim, E.M. & Zeinhom, M.M. 2008. Partial replacement of fish meal with dried microalgae (Chlorella spp and Scenedesmus spp) in Nile tilapia (Oreochromis niloticus) diets. 8th
International Symposium on Tilapia in Aquaculture. pp. 801-811.
Basri,
A.B., Shaleh, S.R.M., Matanjun,
P., Noor, N.M. & Shapawi, R. 2014. The
potential of microalgae meal as an ingredient in the diets of early juvenile
Pacific white shrimp, Litopenaeus vannamei. Journal of
Applied Phycology. DOI 10.1007/ s10811-014-0383-6.
Bellinger,
E.G. & Sigee, D.C. 2010. Freshwater
Algae: Identification and Use as Bioindicators. New
Delhi: Wiley- Blackwell. p. 271.
Boonyaratpalin,
M., Thongrod, S., Supamattaya,
K., Britton, G. & Schlipalius, L.E. 2001. Effects of β-carotene source, Dunaliella salina, and astaxanthin on pigmentation, growth, survival and health of Penaeus monodon. Aquaculture Research 31: 182-190.
Brown,
M.R. & Jeffrey, S.W. 1992. Biochemical
composition of microalgae from the classes Chlorophyceae and Prasinophyceae. 1. Amino acids, sugars and
pigments. Journal of Experimental Marine Biology and Ecology 161:
91-113.
Brown, M.R., Jeffrey,
S.W., Volkman, J.K. & Dunstan, G.A. 1997. Nutritional properties of microalgae for mariculture. Aquaculture 151: 315-331.
Chatzifotis, S., Juan, I., Kyriazi, P., Divanach, P. & Pavlidis, M. 2011. Dietary carotenoids and skin melanin
content influence the colouration of farmed red porgy
(Pagrus pagrus). Aquaculture International 17: e90-e100.
Chookird,
D., Tantikitti, C., Pongdara,
A. & Srichanun, M. 2010. Effect of
hemoglobin powder substituted for fishmeal on growth performance, protein
digestibility, and trypsin gene expression in Litopenaeus vannamei. Songklanakarin Journal of Science and Technology 32(2): 119-127.
Cruz-Suárez,
L.E., Nieto-López, M., Guajardo-Barbosa, C.,
Tapia-Salazar, M., Scholz, U. & Ricque-Marie, D. 2007. Replacement of
fish meal with poultry by-product meal in practical diets for Litopenaeus vannamei,
and digestibility of the tested ingredients and diets. Aquaculture 272:
466-476.
FAO. 2012. The
State of World Fisheries and Aquaculture. Rome: Food and Agriculture
Organization of the United Nations. p. 209.
Forster, I.P., Dominy, W., Obaldo, L. & Tacon, A.G. 2003. Rendered meat and bone
meals as ingredients of diets for shrimp Litopenaeus vannamei(Boone, 1931). Aquaculture 219:
655-670.
Gouveia,
L., Gomes, E. & Empis, J. 1996. Potential use of a microalga (Chlorella vulgaris) in the
pigmentation of rainbow trout (Oncorhynchus mykiss) muscle. International Journal of Food Investigation and
Research 202: 75-79.
Gouveia,
L., Choubert, G., Gomes, E., Rema, P. & Empis, J. 1998. Use of Chlorella vulgaris as a
carotenoid source for salmonids: Effect of dietary lipid content on
pigmentation, digestibility and muscular retention. Aquaculture
International 6: 269- 279.
Gouveia,
L., Choubert, G., Pereira, N., Santinha,
J., Empis, J. & Gomes, E. 2002. Pigmentation of
gilthead seabream, Sparus aurata(L.1875), using Chlorella
vulgaris (Chlorophyta, Volvocales)
microalga. Aquaculture Research 33: 987-993.
Gouveia,
L., Rema, P., Pereira, O. & Empis, J. 2003. Colouring ornamental fish (Cyprinus carpioand Carassius auratus) with microalgal biomass. Aquaculture Nutrition 9(2): 123-129.
Goytortúa-Bores,
E., Civera-Cerecedo, R., Rocha-Meza, S. &
Green-Yee, A. 2006. Partial replacement of red crab (Pleuroncodes planipes)
meal for fish meal in practical diets for the white shrimp Litopenaeus vannamei. Aquaculture 256: 414-422.
Hanel,
R., Broekman, D., de Graaf,
S. & Schnack, D. 2007. Partial replacement of fishmeal by lyophylized powder of the microalgae Spirulina platensis in Pacific white shrimp
diets. The Open Marine Biology Journal 1(1): 1-5.
Hasan,
M.R. & Chakrabarti, R. 2009. Use of Algae
and Aquatic Macrophytes as Feed in Small Scale
Aquaculture: A Review. FAO Fisheries and Aquaculture
Technical Paper. No. 531. Rome: Food and
Agriculture Organization of the United Nations. p. 123.
Ju,
Z.Y., Forster, I., Conquest, L. & Dominy, W.
2008. Enhanced growth effects on shrimp (Litopenaeus vannamei) from inclusion of whole shrimp floc
fractions to a formulated diet. Aquaculture Nutrition 14: 533-543.
Ju,
Z.Y., Deng, D.F. & Dominy, W.G. 2012. A defatted microalgae (Haematococcus pluvialis) meal as a protein ingredient to
partially replace fishmeal in diets of Pacific white shrimp (Litopenaeus vannamei,
Boone, 1931). Aquaculture 354- 355: 50-55.
Ju,
Z.Y., Deng, D.F. & Dominy, W.G. 2011. Pigmentation of
Pacific white shrimp, Litopenaeus vannamei, by dietary astaxanthin extracted from Haematococcus pluvialis. Journal of the World Aquaculture Society 42(5):
633-644.
Latscha, T. 1989. The role of astaxanthin in shrimp
pigmentation. Advances in Tropical Aquaculture 9: 319-325.
Lim,
S.J. & Lee, K.J. 2009. Partial replacement of fishmeal by
cottonseed meal and soybean meal with iron and phytase supplementation for parrot fish Oplegnathus fasciatus. Aquaculture 290: 283-289.
Macias-Sancho,
J., Poersch, L.H., Bauer, W., Romano, L.A., Wasielesky,
W. & Tesser, M.B. 2014. Fishmeal
substitution with Arthrospira (Spirulina platensis)
in a practical diet for Litopenaeus vannamei: Effects on growth and immunological
parameters. Aquaculture 426-427: 120-125.
Mc Lean, E.,
Reid, B., Fegan, D., Kuhn, D. & Craig, S. 2006.
Total replacement of fishmeal with an organically certified yeast-based protein
in Pacific white shrimp (Litopenaeus vannamei) diets: Laboratory and field trials. Ribarstvo (Croatian Journal of Fisheries) 64: 47-58.
Muin,
H., Taufek, N.M., Abiodun,
R.A., Yusof, H.N. & Razak,
S.A. 2015. Effect of partial and complete replacement of fishmeal with
mushroom stalk meal and soy bean meal on growth performance of Nile tilapia, Oreochromis niloticusfingerlings. Sains Malaysiana44(4):
511-516.
Mustafa,
M.G., Umino, T., Miyake, H. & Nakagawa, H. 1994. Effect of Spirulina sp. meal as a feed additive on lipid
accumulation in red sea bream, Pagrus major. Journal of Applied Ichthyology 10: 141-145.
Nandeesha, M.C., Gangadhar, B., Varghese, T.J. & Keshavanath,
P. 1998. Effect of feeding Spirulina platensis on the growth, proximate
composition and organoleptic quality of common carp, Cyprinus carpioL. Aquaculture Research 29(5): 305-
312.
Okada,
S., Nur-E-Borhan, S.A. & Yamaguchi, K. 1994. Carotenoid
composition in the commercial black tiger prawns. Fisheries Sciences 60:
213-215.
Parisenti, J., Cristina,
C., Lúcia, V., Garcia, C. & Moreira, C.C. 2011.
Total carotenoid content of shrimp commercialized in Florianopolis/sc and evaluation of colour preference for consumers. Alimentos e Nutrição Araraquara (Brazilian Journal of Food and Nutrition) 22:
17-20.
Ponce-Palafox,
J.T., Arredondo-Figueroa, J. & Vermon-Carter,
E.J. 2006. Carotenoids from plants used in diets for the culture of Pacific white shrimp (Litopenaeus vannamei). Revista Mexicana de Ingeniería Química(Mexican Journal of Chemical
Engineering) 5: 157-165.
Shapawi,
R., Ebi, I., Yong, A., Chong, M., Chee, L.K. &
Sade, A. 2013. Soybean meal as a source of protein in formulated diets for tiger grouper, Epinephelus fuscoguttatus juvenile. Part II: Improving diet performances with phytase supplementation. Journal of Agricultural Sciences 4: 19-24.
Shapawi, R., Ng,
W.K. & Mustafa, S. 2007. Replacement of fish meal with poultry by-product
meal in diets formulated for the humpback grouper, Cromileptes altivelis. Aquaculture 237: 118-126.
Silva,
R.L. & Barbosa, J.M. 2008. Seaweed meal as a
protein source for the white shrimp Litopenaeus vannamei. Journal of Applied Phycology 21:
193-197.
Sun, X., Chang,
Y., Ye, Y., Ma, Z., Liang, Y., Li, T., Jiang, N., Xing, W. & Luo, L. 2012. The effect of dietary pigments on the colouration of Japanese ornamental carp (koi, Cyprinus carpioL.). Aquaculture 342-343: 62-68.
Supamattaya, K., Kiriratnikom,
S., Boonyaratpalin, M. & Borowitzka,
L. 2005 Effect of a Dunaliella extract on growth
performance, health condition, immune response and disease resistance in black
tiger shrimp (Penaeus monodon). Aquaculture 248: 207-216.
Tacon, A.G.J.,
Hasan, M.R. & Metian, M. 2011. Demand and
Supply of Feed Ingredients for Farmed Fish and Crustaceans. FAO
Fisheries and Aquaculture Technical Paper No. 564. Rome: Food and Agriculture
Organization of the United Nations. p. 123.
Tacon, A.G.J. &
Akiyama, D.M. 1997. Feed ingredients for crustaceans. In Crustacean Nutrition, edited by D’Abramo, L.R., Conklin, D.E. &
Akiyama, D.M. Baton Rouge: The World Aquaculture Society. pp. 411-472.
Tangeras, A. & Slinde, E. 1994. Colouring of salmonids in
aquaculture: The yeast Phaffia rhodozymaas a source of astaxanthin. In Fisheries Processing Biotechnological Applications, edited
by Martin, A.M. London: Chapman and Hall. pp. 223-262.
Tongsiri, S., Mang-amphan, K. & Peerapornpisal,
Y. 2010. Effect of replacing fishmeal with spirulina on growth, carcass composition
and pigment of the Mekong giant catfish. Asian Journal of
Agricultural Sciences 2(3): 106-110.
Tume, R.K., Sikes,
A.L., Tabrett, S. & Smith, D.M. 2009. Effect of background colour on the distribution of astaxanthin in black tiger prawn (Penaeus monodon):
Effective method for improvement of cooked colour. Aquaculture 296: 129-135.
Ungsethaphand, T., Peerapornpisal, Y., Whangchai, N.
& Sardsud, U. 2010. Effect of
feeding Spirulina platensis on growth and carcass composition of hybrid
red tilapia (Oreochromis mossambicus× O. niloticus). Maejo International Journal of Science and
Technology 4(2): 331-336.
Walker, A.B.
& Berlinsky, D.L. 2011. Effects of partial replacement
of fish meal protein by microalgae on growth, feed intake, and body composition
of Atlantic cod. North American Journal of Aquaculture 73(1): 76-83.
Yamada, S.,
Tanaka, Y., Sameshima, M. & Ito, Y. 1990. Pigmentation
of prawn (Penaeus japonicus)
with carotenoids. Effect of dietary astaxanthin, β-carotene and canthaxanthin on pigmentation. Aquaculture 87: 323-330.
Yue, Y.R., Liu,
Y.J., Tian, L.X., Gan, L., Yang, H.J. & Liang,
G.Y. 2012. Effects of replacing fish meal with soybean meal and peanut meal on
growth, feed utilization and haemolymph indexes for
juvenile white shrimp Litopenaeus vannamei, Boone. Aquaculture Research 43:
1687-1696.
*Corresponding author; email: rossita@ums.edu.my
|
|||
|
