Use of Pelleted Diets in Commercially Farmed Decapods during Juvenile Stages: A Review

Aaqillah‐Amr, Mohd Amran; Hidir, Ariffin; Azra, Mohamad Nor; Ahmad-Ideris, Abdul Rahim; Abualreesh, Muyassar H.; Noordin, Noordiyana Mat; Ikhwanuddin, Mhd

doi:10.3390/ani11061761

Cited by 17 publications

(10 citation statements)

References 136 publications

(161 reference statements)

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“…From the proximate analysis, it is noticed that the lipid levels in diets are increased by increasing the level of fish oil, which subsequently resulted in a higher level of HUFA, particularly ARA, EPA, and DHA. Reportedly, Aaqillah-Amr et al [26,47] documented an increase in ARA, EPA, and DHA in the diets developed for S. olivacea broodstock fed with 120 g/kg lipids (ARA = 0:81 mg/g, EPA = 1:27 mg/g, and DHA = 1:20 mg/g) as compared to that fed with 60 g/kg lipids (ARA = 0:47 mg/g, EPA = 0:32 mg/g, and DHA = 0:26 mg/g). These findings indicated that the increase in HUFA contents increased the lipid level of the crustacean diets, which is important when it comes to signaling pathways and growth performance of decapod crustaceans [49].…”

Section: Discussionmentioning

confidence: 95%

“…At the same time, ideal growth is achieved in a crustacean when micronutrients such as n-3 fatty acids are supplied at 8.6 mg/g for whiteleg shrimp [23], 12.7 mg/g for yellow mud crabs [24], and 30 mg/g for giant tiger prawn [25]. Lipids are among the most critical nutrient components required in crabs for energy expenditures, maturation, and growth [26,27]. The determination of lipid requirements in crabs is generally species-specific and varies according to different developmental stages.…”

Section: Introductionmentioning

confidence: 99%

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Morphological, Histological, and Physiological Responses of Female Orange Mud Crab, Scylla olivacea (Herbst, 1796), Fed with Different Dietary Lipid Levels

Aaqillah‐Amr

Hidir

Waiho

et al. 2022

Aquaculture Nutrition

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The main focus of the study was to assess the effect of lipid levels on the reproduction of the female orange mud crab, Scylla olivacea. Four isonitrogenous feed (~420 g/kg) were formulated with different lipid percentages: T 1 = 60 g / kg , T 2 = 80 g / kg , T 3 = 100 g / kg , and T 4 = 120 g / kg . A feeding trial was carried out on 120 matured female mud crabs for 90 days with 30 replicates in each treatment. Based on the morphological, histological, and hormonal analysis of each crab, the performances of each experimental diet were tested. The results of the experiment disclosed positive body weight gain (BWG) and specific growth rate (SGR), with the highest value recorded in crabs that were fed T4 (BWG: 14.43 ± 1.14 g ; SGR: 0.10 ± 0.01 % da y − 1 ). The highest gonado-somatic index (GSI) and hepato-somatic index (HSI) were noted in mud crabs that were fed T4, each with a value of 14.51 ± 1.13 % and 5.23 ± 0.55 % , respectively ( P < 0.05 ). The histological assessment revealed that the highest oocyte diameter was recorded in mud crabs fed T4 ( 192.80 ± 21.93 μm), where the oocyte diameter was correlated with the progesterone (Pg) concentrations in the ovary with r = 0.73 . Evidence also indicated that Pg and estradiol (E2) are important in the ovarian development in S. olivacea and their concentrations were affected by the lipid levels. An overall analysis revealed that 120 g/kg of lipid in the diet contributes to optimal reproductive performance in Scylla olivacea. Yet, a further experiment is expected to be carried out in the future to determine the nutrient-dose response as 120 g/kg lipid may not be the optimum lipid level for reproductive and growth performance in S. olivacea. Moreover, the extrapolation of data from this study can be used as guidelines in feed formulation for developments in future research in adult crustaceans.

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Section: Discussionmentioning

confidence: 95%

Section: Introductionmentioning

confidence: 99%

Morphological, Histological, and Physiological Responses of Female Orange Mud Crab, Scylla olivacea (Herbst, 1796), Fed with Different Dietary Lipid Levels

Aaqillah‐Amr

Hidir

Waiho

et al. 2022

Aquaculture Nutrition

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“…Overfeeding can quickly overload the system and underfeeding or inadequate dietary formulations can result in nutrient deficiencies. In some cases, diets of low apparent digestibility and poor pellet integrity can compromise both growth and feed efficiency, as well negatively impact water quality, deteriorating the environmental conditions and animal health [19,20]. On the other hand, breeding has an important role to play to ensure that cultured shrimp supplied to super-intensive farms are well suited to the range of conditions likely to be experienced and that their production performance can be enhanced through an ongoing process of genetic improvement [21].…”

Section: Introductionmentioning

confidence: 99%

Intensification of Penaeid Shrimp Culture: An Applied Review of Advances in Production Systems, Nutrition and Breeding

Emerenciano

Rombenso

Vieira

et al. 2022

Animals

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Intensification of the shrimp sector, also referred to as vertical expansion, has been predominately driven by consecutive incidences of global disease outbreaks, which have caused enormous economic loss for the main producer countries. A growing segment of the shrimp farming industry has opted to use production systems with higher density, biosecurity, and operating control to mitigate the risks posed by disease. However, successful super-intensive shrimp production is reliant on an advanced understanding of many important biological and economic parameters in the farming system, coupled with effective monitoring, to maintain optimal production. Compared to traditional extensive or semi-intensive systems, super-intensive systems require higher inputs of feed, energy, labor, and supplements. These systems are highly sensitive to the interactions between these different inputs and require that the biological and economical parameters of farming are carefully balanced to ensure success. Advancing nutritional knowledge and tools to support consistent and efficient production of shrimp in these high-cost super-intensive systems is also necessary. Breeding programs developing breeding-lines selected for these challenging super-intensive environments are critical. Understanding synergies between the key areas of production systems, nutrition, and breeding are crucial for super-intensive farming as all three areas coalesce to influence the health of shrimp and commercial farming success. This article reviews current strategies and innovations being used for Litopenaeus vannamei in production systems, nutrition, and breeding, and discusses the synergies across these areas that can support the production of healthy and high-quality shrimp in super-intensive systems. Finally, we briefly discuss some key issues of social license pertinent to the super-intensive shrimp farming industry.

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“…The highest FCR (1.51) was found in the control treatment ( Table 1 ). The FCR was inversely proportional to weight growth, so the lower the FCR, the higher the efficiency of the shrimp in utilizing feed for growth [ 37 ]. On the other hand, if the shrimp body is unstable, then the shrimp may experience a decrease in appetite and the feed provided is not converted into biomass.…”

Section: Resultsmentioning

confidence: 99%

Supplementation of hairy eggplant (Solanum ferox) and bitter ginger (Zingiber zerumbet) extracts as phytobiotic agents on whiteleg shrimp (Litopenaeus vannamei)

Rahardjo¹,

Vauza²,

Rukmono³

et al. 2022

J Adv Vet Anim Res

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Objective: This study aimed to evaluate the combination of hairy eggplant (Solanum ferox) and bitter ginger (Zingiber zerumbet) on the production performance and hematological parameters of whiteleg shrimp (Litopenaeus vannamei). Materials and Methods: Four treatments were formulated in the test feed, where P1 (control + commercial vitamin C); P2 (120 ml/l combination of S. ferox and Z. zerumbet ); P3 (100 ml/l); and P4 (80 ml/l) 6,000 post-larvae shrimp with an average initial weight of 0.2 gm were randomly stocked in four groups, with three replications per treatment, and 500 were stocked in each pond with a total of 12 pounds. Results: Based on the results, there were significant differences in production performance (survival, absolute weight growth, specific growth rate, and feed conversion ratio). Biologically, the best performance was found in the P3 treatment (100 ml/l). In this treatment, the total number of hemocytes and the number of hyaline hemocytes were much higher, and this was not the case in the control treatment (P1), where the number of semi-granular and granular cells was significantly higher than the treatment group (p < 0.05) . Conclusions: This study confirmed that supplementation of 100 ml/l of S. ferox and Z. zerumbet could improve the production performance and hemato-immunological parameters of whiteleg shrimp, with functional potential to be developed in phytobiotic-based commercial diets for shrimp.

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Use of Pelleted Diets in Commercially Farmed Decapods during Juvenile Stages: A Review

Cited by 17 publications

References 136 publications

Morphological, Histological, and Physiological Responses of Female Orange Mud Crab, Scylla olivacea (Herbst, 1796), Fed with Different Dietary Lipid Levels

Morphological, Histological, and Physiological Responses of Female Orange Mud Crab, Scylla olivacea (Herbst, 1796), Fed with Different Dietary Lipid Levels

Intensification of Penaeid Shrimp Culture: An Applied Review of Advances in Production Systems, Nutrition and Breeding

Supplementation of hairy eggplant (Solanum ferox) and bitter ginger (Zingiber zerumbet) extracts as phytobiotic agents on whiteleg shrimp (Litopenaeus vannamei)

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