Defatted Biomass of the Microalga, Desmodesmus sp., Can Replace Fishmeal in the Feeds for Atlantic salmon

Kiron, Viswanath; Sørensen, Mette; Huntley, Mark E.; Vasanth, Ghana Kalerammana; Gong, Yangyang; Dahle, Dalia; Palihawadana, Anjana Mahesh

doi:10.3389/fmars.2016.00067

Cited by 73 publications

(60 citation statements)

References 43 publications

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“…On the contrary, such an increase was not detected in the fish fed on 20% alga-containing feeds. In our earlier study on Desmodesmus , a similar trend in SOD activities was noted [22]. Furthermore, the mRNA level of sod was apparently higher in the 10% alga-fed group compared to the level in the 20% alga-fed group.…”

Section: Discussionsupporting

confidence: 80%

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Nannochloropsis oceania-derived defatted meal as an alternative to fishmeal in Atlantic salmon feeds

et al. 2017

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Defatted microalgal biomass derived from biorefinery can be potential feed ingredients for carnivorous fish. The present study investigated the growth, feed intake:gain and health parameters in Atlantic salmon fed for 84 days with defatted Nannochloropsis oceania as a fishmeal replacer. Fish fed feeds containing the algal biomass (at 10 and 20% inclusion, alga groups) were compared with groups that consumed alga-devoid feeds (control group). The fish that received 20% alga tended to have reduced weight gain and specific growth rate. Condition factor, feed conversion ratio and feed intake of this fish group were significantly different when compared with the control group. Hepatosomatic and viscerosomatic indices, whole body and fillet proximate composition were not affected by the dietary treatments. Digestibility of dry matter, protein, lipid, ash and energy, as well as retention of lipid and energy of the fish that received feed with 20% alga meal were also significantly different from those of the control group. Serum superoxide dismutase activity of the 10% alga-fed fish was significantly higher compared with the control fish. Although alga feeding did not cause any distal intestinal inflammation, the intestinal proteins that were altered upon feeding 20% algal meal might be pointing to systemic physiological disturbances. In conclusion, feeds with 20% alga had a negative effect on feed intake, FCR, lipid and energy retention and health of the fish. The defatted Nannochloropsis oceania can be used at modest inclusion levels, around 10%, without negative effects on the performance of Atlantic salmon.

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Section: Discussionsupporting

confidence: 80%

“…The SGR values obtained in the present study were slightly lower than those reported earlier [22, 26]. The TGC values in the present experiment were higher than those obtained by Sørensen et al [15], but were in the same range as reported by Hatlen et al [26].…”

Section: Discussioncontrasting

confidence: 67%

Nannochloropsis oceania-derived defatted meal as an alternative to fishmeal in Atlantic salmon feeds

et al. 2017

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“…In order to satisfy this demand, the utilization of microalgae as an alternative to fishmeal is being widely studied in different fish species (Olvera-Novoa et al, 1998;Patterson and Gatlin, 2013;Kiron et al, 2016;Sørensen et al, 2016). Most microalgae are rich in fiber, mineral salts, trace-elements, vitamins, polyunsaturated fatty acids, chlorophylls and essential amino acids (EAA), fulfilling requirements of most commercial fish feed and avoiding supplementation of vitamins and amino acids (Vizcaíno et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

Recovery of Protein Concentrates From Microalgal Biomass Grown in Manure for Fish Feed and Valorization of the By-Products Through Anaerobic Digestion

Hernández

Molinuevo-Salces

Riaño

et al. 2018

Front. Sustain. Food Syst.

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“…However, because of the recent increasing cost of fishmeal, researchers have started evaluating the economic feasibility and optimum usage of these novel proteins as fishmeal substitutes. Partial fishmeal replacement with algae is also possible (Kiron et al, 2012;Al-Asgah et al, 2016;Abdel-Warith et al, 2016;Radhakrishnan et al, 2016;Kiron et al, 2016;Kissinger et al, 2016), especially in tropical areas where they are found in plentiful amounts. Kiron et al (2016) observed that partial substitution of fishmeal with defatted biomassof Desmodesmus sp.…”

Section: Novel Proteinsmentioning

confidence: 99%

“…Partial fishmeal replacement with algae is also possible (Kiron et al, 2012;Al-Asgah et al, 2016;Abdel-Warith et al, 2016;Radhakrishnan et al, 2016;Kiron et al, 2016;Kissinger et al, 2016), especially in tropical areas where they are found in plentiful amounts. Kiron et al (2016) observed that partial substitution of fishmeal with defatted biomassof Desmodesmus sp. in the feed of Atlantic Salmon does not have any adverse effects on the specific growth rate, condition factor, protein efficiency ratio and whole body proximate composition of fish.…”

Section: Novel Proteinsmentioning

confidence: 99%

Responsible Fishmeal Consumption and Alternatives in the Face of Climate Changes

Soliman

Yacout

Hassaan

2017

ijms

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Aquaculture expanded around 8.6% per year during the period 1980-2012. It is the greatest growing food producing sector. The intensification of fish production from aquaculture has made its demand for fishmeal from small pelagic fishes as an increasingly important issue. Recognizing the vulnerability of small pelagic fishes to challenges of climate changes is serious. It will have consequent challenges in terms of ensuring economically, socially and environmentally responsible fishmeal production practices. The possibility of replacing fishmeal with nutritionally comparable feedstuffs would diminish stress on prices of feed inputs resulting from captured fisheries. Diverse types of alternative (plant, animal, fishery by-products and novel foods) protein sources have been experienced in a variety of aquaculture feeds. This review aims to appraise the different kinds of fishmeal alternatives and the most proper substituent in fish diets. The paper in hand proposed that some of the described fishmeal alternatives could leads to a considerable drop in small pelagic fishes utilization, but still they might be more cost-effective than fishmeal. Studies should take into account both economic and biological assessment of dietary protein sources as fishmeal substituents. On the other hand, the environmental impacts of such alternatives should be evaluated in order to guarantee sustainability of fish feed industry.

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Defatted Biomass of the Microalga, Desmodesmus sp., Can Replace Fishmeal in the Feeds for Atlantic salmon

Cited by 73 publications

References 43 publications

Nannochloropsis oceania-derived defatted meal as an alternative to fishmeal in Atlantic salmon feeds

Nannochloropsis oceania-derived defatted meal as an alternative to fishmeal in Atlantic salmon feeds

Recovery of Protein Concentrates From Microalgal Biomass Grown in Manure for Fish Feed and Valorization of the By-Products Through Anaerobic Digestion

Responsible Fishmeal Consumption and Alternatives in the Face of Climate Changes

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