Effects of Alternative Dietary Lipid Sources on Growth Performance and Fatty Acid Composition of Beluga Sturgeon, Huso huso, Juveniles

Hosseini, Seyed Vali; Kenari, Abdolmohammad Abedian; Regenstein, Joe M.; Rezaei, Masoud; Nazari, Rajab Mohammad; Moghaddasi, Morteza; Kaboli, Seyed Abdollah; Grant, Amelia A. M.

doi:10.1111/j.1749-7345.2010.00389.x

Cited by 46 publications

(49 citation statements)

References 62 publications

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“…Wild fish ova neutral lipids can have significantly lower proportions of total PUFAs compared to farmed fish (A. transmontanus, A. fulvescens) [6] and this is due to the higher quality of linolenic acid (18:3n-3) in diet of the farmed fish. Similar results have also been reported in cultured stellate sturgeon (A. stellatus) in Romania [2] and in other studies of cultivated beluga fatty acid composition of muscle tissue [33].Home viscous adaptation in response to environmental temperature is a primary reason for the prominence of n-3 PUFAs in the tissues of poikilotherms such as marine fish [34]. In current study, the cultivated beluga were cultured at 19ºC in freshwater for nine years and fed a plant oil containing diet.…”

supporting

confidence: 87%

“…Others have reported that 18:1n-9 is the most common fatty acid in sturgeon and other fish eggs and tissues [6,26,[29][30][31][32][33]. The results of this study show that MUFAs were higher in wild than in domestic beluga.…”

Section: Fatty Acid Profile Chemical Composition and Fertilization Rsupporting

confidence: 46%

“…The same tendency was also found in the lipid profile of ovulated eggs of wild and cultured turbot (Scophthalmus maximus) [30], striped bass (Morone saxatilis) [32] and white sturgeon [6] and is a reflection of dietary fat intake [2,6,11,30]. In addition, Hosseini et al [33] compared the effect of three different diets including fish oil, soybean oil and canola oil on muscle fatty acids profiles in cultivated beluga (H. huso). They have reported that diet contained fish oil resulted in higher MUFA in muscle than soybean oil.…”

Section: Fatty Acid Profile Chemical Composition and Fertilization Rmentioning

confidence: 69%

“…The selection of dietary lipid sources is important, and using sunflower oil in diet can elevate linoleic acid in beluga muscle to levels that are higher than for a fish oil based diet [33].…”

Section: Fatty Acid Profile Chemical Composition and Fertilization Rmentioning

confidence: 99%

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Fatty acid and Amino acid Profiles of Domestic and Wild Beluga (Huso huso) Roe and Impact on Fertilization Ratio

Ovissipour¹,

Rasco²

2011

J Aquac Res Development

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A comparison of the fatty acid, amino acid and proximate composition between the roe of wild and cultivated beluga (Huso huso) sturgeon from Iran are presented here. The fatty acid profile varied between wild and cultivated sturgeons but there was no differences observed for proximate composition and amino acid profile. The wild sturgeon roe contained higher amounts of n-3 fatty acids particularly eicosapentaenoic acid (20:5n-3, EPA) (wild: 2.9%, cultivated: 1.24%) and docosahexaenoic acid (22:6n-3, DHA) (wild: 5.1%, cultivated: 2.38%). Linolenic and linoleic acids were the predominant fatty acids in roe from cultivated beluga, a reflection of diet and also a likely physiological adaptation to a higher temperature environment. Low levels of PUFA in cultivated sturgeon negatively affected fertilization and hatching ratios which were significantly lower than for the wild fish. Hence, in order to culture beluga, feed with higher fatty acid with more n-3 is necessary to reach high quality roe and fertilization and hatching ratio. parameters, have been used to determine egg quality, which are also affected by a nutritional deficiency in broodstock diets. Indeed, one of the major nutritional factors that have been found to significantly affect reproductive performance in fish is the dietary essential fatty acid content [9]. Selective retention of DHA has also been found during embryogenesis and during starvation denoting the importance of this fatty acid for the developing embryo and larvae.At present, studies available on lipid composition of cultured sturgeons are somewhat limited in the sense that they do not provide a comparison of cultured and wild beluga roe or meat [10][11][12][13][14][15][16]. Here, a comparison of the chemical composition (chemical, fatty acid and amino acid profiles) of the roe from farmed and wild caught beluga (H. huso) from the same watershed in the southern Caspian Sea is presented and how this may affect egg survival is presented. Materials and Methods Egg collectionWild beluga (H. huso) (Female: TL = 240 ± 40 cm, weight = 95 ± 7 kg; Male: TL = 180 ± 20 cm, weight = 82 ± 5 kg) were captured during their spawning season (February-March) on the south eastern coast of the Caspian Sea between Gorgan and Sari using gillnets fishing method and taken to the Marjani Hatchery Center (Gorgan, Iran). Eggs collected for the recruitment program were recovered from live fish that had been transferred to this hatchery. After 24 h adaptation, 50 g eggs from each five ovulating females were collected using surgically method, placed into separate 20 ml plastic containers and immediately frozen in liquid nitrogen. Simultaneously, ovulated eggs from cultured beluga (Female: TL = 190.6 ± 12.5 cm, weight = 94.6 ± 9.3 kg; Male: 160 ± 10 cm, weight: 73 ± 6 kg ) were collected at the Rajaee Sturgeon Hatchery Center, in Sari, Iran in 2009, a culture facility about 120 km far from Marjani and eggs were recovered from three females as described above. These fish had been reared in fresh, warm (19 ± 2ºC) ar...

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supporting

confidence: 87%

Section: Fatty Acid Profile Chemical Composition and Fertilization Rsupporting

confidence: 46%

Section: Fatty Acid Profile Chemical Composition and Fertilization Rmentioning

confidence: 69%

Section: Fatty Acid Profile Chemical Composition and Fertilization Rmentioning

confidence: 99%

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Fatty acid and Amino acid Profiles of Domestic and Wild Beluga (Huso huso) Roe and Impact on Fertilization Ratio

Ovissipour¹,

Rasco²

2011

J Aquac Res Development

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“…Interestingly, in this research the maximum level of RPC inclusion in sturgeon diet was 53 % and at this level the dietary protein was almost completely RPC protein. Even if we decided to not analyze productive results, we interestingly observed that the specific growth rate (SGR) was 5 times better than the case of white sturgeon (A. transmontanus) (Gawlicka et al, 2002), and the productive parameters were also better than Beluga sturgeon (Hosseini et al, 2010;Ta'ati et al, 2011), "AL" hybrid sturgeon , hybrid sturgeon (Acipenser schrenckii x Huso dauricus) (Qiyou X. et al, 2011) and white sturgeon (Lin et al, 1997).…”

Section: Discussion Diets and Fish Growthmentioning

confidence: 98%

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Sicuro¹,

Piccinno²,

Dapr�³

et al. 2015

Turk. J. Fish. Aquat. Sci.

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The aim of this research is the substitution of fish meal with rice protein concentrate (RPC) in the nutrition of Siberian sturgeon (Acipenser baerii) diet. 240 sturgeons of initial mean body weight of 19.1±6.7 g were used. 3 isonitrogeonous (CP 42.4%) and isoenergetic (19.9 KJg -1 DM) diets were formulated with 20% of RPC inclusion (R20), 35% inclusion (R35), 53% inclusion (R53) against a control diet, fish meal based (FM); feeding ratio was 1.5% of BW. All the diets and fish fillets were analyzed to determine the proximate composition. The diet amino acid composition was measured and fillet colour was detected at the end of experimentation. Fish growth showed very good performances of sturgeon fed with high RPC inclusion, but these data were not considered conclusive because of technical problems during the experimentation. However, considering that the highest level of RPC in the sturgeon diets corresponded to an almost complete substitution of fish meal in the fish diet, the result obtained from fish quality analysis showed no adverse effect of experimental diets, with the only limitation of high muscle lipid storage, in fish fed with highest level of RPC inclusion.

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Reasons and Possibilities of Fish Meal Replacement in the Siberian Sturgeon

Sicuro

2017

The Siberian Sturgeon (Acipenser Baerii, Brandt, 1869) Volume 2 - Farming

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Effects of Alternative Dietary Lipid Sources on Growth Performance and Fatty Acid Composition of Beluga Sturgeon, Huso huso, Juveniles

Cited by 46 publications

References 62 publications

Fatty acid and Amino acid Profiles of Domestic and Wild Beluga (Huso huso) Roe and Impact on Fertilization Ratio

Fatty acid and Amino acid Profiles of Domestic and Wild Beluga (Huso huso) Roe and Impact on Fertilization Ratio

Untitled

Reasons and Possibilities of Fish Meal Replacement in the Siberian Sturgeon

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