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Low inclusions of krill meal replace cholesterol in diets for juvenile shrimp

Alberto J. P. Nunes, Ph.D. Felipe Nobre Façanha, M.S. Dr. Hassan Sabry-Neto

Supplementation results in improved yield, growth and survival

Experimental diets manufactured at the LABOMAR facilities contained krill meal at varied levels.

Cholesterol is considered an essential nutrient for penaeid shrimp that acts as a component of cell membranes and a metabolic precursor of steroid and molting hormones. Deficiency of cholesterol in shrimp diets can result in slower growth and higher mortality rates characterized by incomplete ecdysis. Cholesterol requirements in marine shrimp seem to be species-specific. Reported requirements range from less than 0.1 to as much as 1.0 percent of the diet.

In a 2000 report, Hui Gong and co-workers demonstrated an interaction between dietary cholesterol and phospholipids for Pacific white shrimp, Litopenaeus vannamei. Cholesterol requirements in diets containing 1.5 and 3.0 percent supplemental phospholipids were reduced to 0.14 and 0.13 percent, respectively, compared to 0.35 percent in the absence of supplemental phospholipids.

Cholesterol

Cholesterol and phospholipids may be present in feedstuffs such as rendered animal by-products and marine protein sources used in shrimp feeds. However, sterol supplements are often used to fully meet shrimp requirements and assure proper growth performance and survival.

There are few suppliers of cholesterol worldwide, and prices have skyrocketed in recent years. Cholesterol is extracted from wool grease obtained from farmed sheep, mainly in New Zealand. Therefore, prices can fluctuate depending on the use of wool by the clothing industry.

Krill meal

Krill meal is one of the few commercially available protein ingredients with a high fat content of 18 to 28 percent lipid that can deliver high levels of the unsaturated fatty acids docosahexaenoic acid and eicosapentaenoic acid (present at 5.5 percent of the meal), cholesterol (0.6 mg/kg) and phospholipids (40 percent or more of lipid content) at low dietary inclusion levels.

A study by the authors aimed to investigate the minimum dietary inclusion of krill meal able to replace a cholesterol supplement with 91 percent or more active cholesterol in growout diets for juvenile Litopenaeus vannamei shrimp.

Study setup

The study was carried out at the LABOMAR aquaculture facilities in north-eastern Brazil. Six diets were designed (Table 1): a reference diet (REF) formulated to contain high levels of fishmeal, combined with cholesterol supplementation and 2 percent krill meal; a positive control diet (POS) containing low levels of fishmeal combined with cholesterol supplementation, but no krill meal; a negative control diet (NEG) designed to be nearly equivalent to POS, but lacking cholesterol supplementation; and three experimental diets formulated to contain no cholesterol supplementation with dietary levels of krill meal at 1, 2 or 3 percent of the diets (1-K, 2-K and 3-K).

Nunes, Composition of experimental diets, Table 1

IngredientDietary Inclusion (%) REFDietary Inclusion (%) POSDietary Inclusion (%) NEGDietary Inclusion (%) 1-KDietary Inclusion (%) 2-KDietary Inclusion (%) 3-K
Soybean meal32.6848.1548.1548.7449.2249.69
Wheat flour30.3527.0027.0027.0027.0027.00
Salmon by-product meal18.005.005.005.005.005.00
Soy protein concentrate5.0010.1810.188.847.586.33
Wheat red dog flour4.0000000
Dicalcium phosphate1.792.032.032.002.002.00
Salmon oil2.482.002.002.002.002.00
Soybean oil01.651.741.621.511.40
Krill meal2.00001.002.003.00
Soybean lecithin1.671.831.831.741.641.55
Mineral-vitamin premix1.001.001.001.001.001.00
Synthetic binder0.500.500.500.500.500.50
Choline chloride, 60%0.330.340.340.330.330.32
D.L.-methionine0.080.190.190.190.180.17
Cholesterol, 91%0.080.090000
Vitamin C0.040.040.040.040.040.04
Formula cost (U.S. $/mt)*$1,017$837$744$758$772$786
Nutrient content (%, dry matter basis) **
Crude protein35.0035.0035.0035.0035.0035.00
Methionine0.700.700.700.700.700.70
Methionine + cystine1.081.011.011.021.031.03
Lysine2.021.981.981.981.991.99
Fat8.008.008.008.008.008.00
Highly unsaturated fatty acids0.500.360.360.390.420.44
* FOB prices, northeastern Brazil
** Projected/formulated values

A total of 2,350 shrimp with body weights of 2.00 ± 0.14 g were stocked at 45 shrimp/tank in 30 clearwater tanks of 0.5-m3 volume with continuous water filtration and recirculation. Five replicate tanks were assigned for each dietary treatment. Shrimp were fed four times daily to satiation for 69 days.

Fig. 1: Final mean shrimp body weight of L. vannamei after 69 days of rearing.

Results

Shrimp performance was significantly influenced by dietary treatment. Higher nutrient levels in the reference diet resulted in improved shrimp yield, weekly growth and final body weight at harvest (Table 2 and Figure 1). The lack of supplemental cholesterol in the NEG control diet caused a deleterious effect on final shrimp survival. Supplementation with 3.0 percent krill meal counteracted this effect, raising final shrimp survival from 73.8 ± 10.8 percent for the NEG treatment to 81.5 ± 11.0 percent.

Dietary TreatmentFinal Survival (%)Gained Yield (g/m2)Feed Intake (g/shrimp)Feed-Conversion RatioGrowth (g/week)
REF97.8 ± 11.2a1,106 ± 28a23.4 ± 0.5a1.67 ± 0.03a1.46 ± 0.10a
POS80.9 ± 9.0b674 ± 110b21.5 ± 0.9b2.56 ± 0.34b1.12 ± 0.07b
NEG73.8 ± 10.8b564 ± 123b20.8 ± 0.9b3.03 ± 0.71b1.05 ± 0.12b
1-K79.3 ± 6.8b611 ± 82b20.8 ± 0.2b2.71 ± 0.34b1.04 ± 0.04b
2-K76.3 ± 1.3b650 ± 8b21.2 ± 0.2b2.57 ± 0.01ab1.16 ± 0.03b
3-K81.5 ± 11.0ab721 ± 131b22.1 ± 0.8ab2.47 ± 0.39ab 1.18 ± 0.09b
ANOVA P value0.004< 0.0001< 0.00010.002< 0.0001

The use of krill meal at 3 percent combined with 5 percent salmon meal was able to enhance feed intake at levels comparable to the REF diet with 18 percent salmon meal and 2 percent krill meal. While feed conversion was better for shrimp fed the REF diet, it was not significantly different when diets were supplemented with 2 or 3 percent krill meal. On the other hand, the lack of supplemental cholesterol depreciated shrimp body weight, which was only recovered when krill meal was supplemented at 2 or 3 percent.

(Editor’s Note: This article was originally published in the July/August 2015 print edition of the Global Aquaculture Advocate.)

Authors

  • Alberto J. P. Nunes, Ph.D.

    Alberto J. P. Nunes, Ph.D.

    LABOMAR Instituto de Ciências do Mar
    Av. da Abolição, 3207
    Meireles, Fortaleza, Ceará
    CEP 60165-081 Brazil

    [114,98,46,99,102,117,64,115,101,110,117,110,46,111,116,114,101,98,108,97]

  • Felipe Nobre Façanha, M.S.

    Felipe Nobre Façanha, M.S.

    LABOMAR Instituto de Ciências do Mar
    Av. da Abolição, 3207
    Meireles, Fortaleza, Ceará
    CEP 60165-081 Brazil

  • Dr. Hassan Sabry-Neto

    Dr. Hassan Sabry-Neto

    LABOMAR Instituto de Ciências do Mar
    Av. da Abolição, 3207
    Meireles, Fortaleza, Ceará
    CEP 60165-081 Brazil

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