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1.
In this study, an effective method to enrich the rotifer Brachionus plicatilis with copper was developed as a feed for the Chinese mitten crab Eriocheir sinensis zoea larvae. Changes in the concentrations of other minerals in rotifers were also examined when copper was added for rotifer enrichment. The ability of Chlorella to absorb waterborne copper is much higher than that of rotifers, and hence, copper was preaccumulated in Chlorella before its ingestion by rotifers. The copper content in rotifers was comparable to the dietary copper requirement of the crab larvae when the rotifers were enriched with 0.1 mg Cu g−1 Chlorella for 12 h. Further enrichment in rotifers with Cu‐enriched Chlorella and lipid emulsions did not significantly change the profile of major fatty acids and mineral composition in the rotifers. Evidence shows the feasibility of copper enrichment in rotifers using microalgae that can accumulate copper. This study indicates that copper in rotifers can be enriched by feeding copper‐enriched algae at a concentration of 0.1–0.2 mg Cu g−1 Chlorella. The developmental rates of E. sinensis can be improved by feeding zoea larvae with copper‐enriched rotifers, but survival rates were not affected by dietary copper enrichment. 相似文献
2.
G N Hotos 《Aquaculture Research》2002,33(12):949-957
The ability for food selectivity of rotifer Brachionus plicatiliswas studied in the laboratory by feeding mixtures of microalgae with various cell volumes. Chlorella sp. (≈22 µm3) was the reference algal species, and Asteromonas gracilis, (Chlorophyta) (≈2150 µm3), Tetraselmis suesica (≈268 µm3), Dunaliella salina (≈52 µm3) and Chaetoceros sp. (≈150 µm3) the experimental species. Each was mixed with Chlorella and fed in three experiments. In the first experiment, filtration and ingestion rates of rotifers each fed with algae revealed that the highest values were measured with the mixture of Chlorella + Asteromonas, and the lowest for Chlorella + Chaetoceros. In the second and the third experiments, by using several combinations of algal densities with the mixture of Chlorella + Asteromonas, a selectivity ability of the rotifers for Asteromonas was found. A hypothesis is presented that accounts for the preference of rotifers for Asteromonas, which is suggested as a new candidate species for use in live food production of fish hatcheries. 相似文献
3.
George N. Hotos 《Aquaculture Research》2003,34(10):793-802
The rotifer Brachionus plicatilis was fed in experimental conditions with a small celled (2–5 μm) Chlorella sp. and a large celled (16–22 μm) Asteromonas gracilis algae. The specific growth rate (SGR) of rotifers fed Asteromonas (maximum 0.79) was statistically higher than that for rotifers fed Chlorella (maximium 0.61). The filtration and ingestion rates using different rotifer and algal densities exhibited certain maxima depending on the species, the cell density and the condition of the rotifers. The filtration rate was higher with Asteromonas and, although ingestion rate was lower than with Chlorella, the ingestion in terms of cell volume was 10‐fold higher. It seems that B. plicatilis ingests the larger cell diameter algal species more efficiently than the smaller species that is usually used for its mass culture. 相似文献
4.
Three species of purple non‐sulphur bacteria (PB), Rhodopseudomonas palustris, Rhodobacter sphaeroides and Rhodovulum sulfidophilum, grown in palm oil mill effluent (POME) were successfully used for the first time as feed for rotifers (Brachionus rotundiformis). Rp. palustris cultured in both POME and synthetic medium gave the highest rotifer density (332–395 individuals mL−1) from 3 to 5 days at 10 g L−1 salinity. Other PB cultured in synthetic medium generally support higher rotifer density than PB cultured in POME. Rb. sphaeroides had the highest biomass (1.91–3.34 g L−1) and growth rate (0.64–1.11 g day−1) in both types of culture medium. Nevertheless, only Rv. sulfidophilum grown in POME contained both eicosapentaenoic acid (EPA) and docosahexaenoic acid (DHA), indicating its ability to biosynthesize them from POME nutrients. Rotifers fed Rv. sulfidophilum grown in POME had significantly higher amounts of protein, arachidonic acid, EPA and DHA than rotifers fed Rv. sulfidophilum grown in synthetic medium. The nutritional profile of lipid‐deficient PB can be improved by growing them in POME, and these enriched PB produced at an estimated cost of USD 8.71–35.35 kg−1 dry biomass, depending on species, can support rotifer production in a batch culture system. 相似文献
5.
Optimizing initial feeding of the Pike silverside Chirostoma estor: oil droplet depletion,point of no return,growth and fatty acid utilization in larvae fed enriched rotifers 
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下载免费PDF全文 M.G. Ríos‐Durán P. Navarrete‐Ramírez J. Fonseca‐Madrigal E. Mendez‐Ortiz E. Palacios I.S. Racotta C.C. Martínez‐Chávez L.G. Ross C.A. Martínez‐Palacios 《Aquaculture Nutrition》2016,22(3):517-526
The point of no return (PNR) and disappearance of the oil droplet were measured in Chirostoma estor larvae as a function of the time of first feeding. In a separate trial, growth and survival of larvae fed rotifers enriched with Chlorella sp., cod liver oil and corn oil were assessed. Fatty acid and lipid composition of eggs, oil droplets, egg yolk, feed and larvae were also evaluated. The PNR was found between 7 and 8 days posthatching (dph). Total oil droplet depletion occurred between 7 and 11 dph, depending on the time of first feeding. Best growth and survival were obtained in larvae fed with Chlorella‐enriched rotifers, followed by those fed cod liver oil‐enriched rotifers. In larvae fed corn oil, Chlorella and cod liver oil‐enriched rotifers, total oil droplet depletion took place on days 9, 10 and 11, respectively. There was a direct relationship between presence and duration of oil droplets and the survival of larvae under different starvation conditions. The feed source could prolong the existence of the oil droplet depending on particular dietary supply of essential fatty acids; the time of its disappearance could be a useful indicator of larval vigour and health status. 相似文献
6.
Rachel K Johnston Emma J Siegfried Terry W Snell John Carberry Matthew Carberry Cody Brown Shereen Farooq 《Aquaculture Research》2018,49(6):2278-2287
Astaxanthin is a red secondary carotenoid and powerful antioxidant that is used in aquaculture to enhance colour and improve fish health. Brachionid rotifers are often used as a live feed for larval fish, but do not contain endogenous carotenoids. However, they can be enriched with astaxanthin through their diet and transfer it to larval predators. When supplemented with 2 μg/ml astaxanthin oleoresin extracted from the green alga Haematococcus pluvialis, Brachionus manjavacas rotifer cultures reached significantly higher population densities and maintained them for longer. Furthermore, data are presented that exposure to oleoresin or pure astaxanthin enhances rotifer resistance to oxidative stress, a common cause for the collapse of rotifer mass cultures. Astaxanthin can be visualized in the gut of the rotifers, allowing the time course of uptake to be estimated by image analysis. Using this method, it was found that accumulation of astaxanthin in the rotifer gut saturates after 1.5 hr of exposure. The bioactive dose of astaxanthin oleoresin for rotifers was found to be 1–20 μg/ml. Astaxanthin concentration in rotifer tissues was measured using absorbance spectrophotometry. It was found that treating rotifers with 20 μg/ml for 24 hr; the concentration of astaxanthin absorbed into rotifer tissues was 2.6 mg/g. Overall, these experiments indicate that astaxanthin extracted from H. pluvialis can be used to improve the productivity and stability of rotifer mass cultures by increasing oxidative stress resistance and enhance the nutritional content of rotifers for larval fish. 相似文献
7.
The rotifer Brachionus glicatilis, strain-S (from Japan) and strain-S1 (Pozuelo 1975) were mass cultured using Chlorella and bakers' yeast. Under the same feed regime, a significant increase (P < 0.001) in rotifer strain-S production (44.19 ± 8.50 individuals/mL/d) was observed compared with strain-S1 (29.64 ± 9.38 individuals/mL/d). The population growth rate was significantly higher (P> 0.001), and doubling time was significantly lower (P> 0.0001) in rotifer strain-S than in strain-S1. There was a significant decline (P> 0.001) in birth rate of strain-S rotifers in the culture system compared with strain-S1, suggesting short longevity and deterioration of the culture system while using strain-S. In general, no significant difference (P< 0.05) in the presence of ω3 polyunsaturated fatty acids (ω3 PUFA) in different strains of rotifers was observed. 相似文献
8.
The dietary value of dried, commercial Chlorella was compared with that of living marine Chlorella, and yeast, in relation to growth of the rotifer Brachionus plicatilis raised individually and by batch culture methods.A concentration of 50 μg/ml of dried Chlorella powder is near an optimal density for rotifer growth. The dried material in suspension is less effective for growth than living marine Chlorella, although it is much more effective than a suspension of yeast at the same density (50 μg/ml).In batch culture (12-l glass vessel), the rotifers grew from an initial inoculation of 13.2 individuals/ml to a density of 434 individuals/ml by the 16th day. About 107 rotifers could be removed from one batch culture in five harvests in the 41-day experimental period.The results indicate that dried Chlorella powder is an effective food for the rotifer Brachionus plicatilis. 相似文献
9.
Gamma-aminobutyric acid (GABA) at 50 μg/ml and porcine growth hormone (GH) at 0.025 IU/ml were tested to see whether these
chemicals would reduce the stress experienced by euryhaline rotifers Brachionus plicatilis species complex (L-, S- and SS-morphotypes) during low temperature (4–12°C) storage. Rotifers cultured at 25°C were transferred
to 4–12°C for 10–30 days and transferred back to 25°C for recovery. GABA or GH were added to the rotifers at three different
time points: 6 h before transfer from 25°C to low temperature (6h−), on day 7 after preservation at low temperature (7d+)
and on the first day of recovery. For L-type rotifers, the GH treatment before the transfer to 4°C for 30 days was effective
for better survival, while the GABA treatment was most effective for the S-type preserved at 10°C for 14 days. For the SS-type,
the chemical treatments were not effective when the rotifers were preserved at 12°C for 14 days. After low temperature preservation,
GABA treatments with the S- and SS-type rotifers just after their transfer to 25°C induced a relatively faster recovery of
the rotifer population. 相似文献
10.
Kim Hee-Jin Nakamura Kaichi Sakakura Yoshitaka Suga Koushirou Tsuneizumi Kazuhide Abe Tomoko Yamada Mieko Kawada Miki Katayama Takashi Tezuka Nobuhiro Kobayashi Takanori Koiso Masahiko Hagiwara Atsushi 《Fisheries Science》2023,89(1):61-69
In aquatic seeding production, the feeding regime of fish larvae consists of rotifers to Artemia, while there is a lack of intermediate-sized feed in the range of 350–600 µm. To solve this problem, in our previous study, the euryhaline rotifer Brachionus plicatilis (L-type, Notojima strain) were irradiated with carbon heavy-ion-beams, and large-sized rotifer mutant lines (>?350 µm lorica length) were established. This study aimed to enhance the mutated morphometric characteristics and reproductivity through the combined use of three microalgal species (Nannochloropsis oculata, Tetraselmis tetrathele, and Chlorella vulgaris), and two hormones [juvenile hormone (JH) and gamma-aminobutyric acid (GABA)]. The combination of T. tetrathele and JH was effective in enhancing the mutated phenotype, and the largest lorica length of 344–425 µm was observed with no significant differences in population growth between the wild-type and mutant strains. The combination of N. oculata and GABA enhanced the population growth of the mutant line, and its growth rate was 2.4 times higher than that of the control group (without GABA). This study indicates that the morphometric characteristics and reproductivity of rotifer mutant lines could be regulated by feed and hormone supplementation. These findings can promote the efficient use of mutant rotifer lines in aquaculture facilities.
相似文献11.
F.Z. KÜÇÜKBAY H. YAZLAK I. KARACA N. SAHIN M. TUZCU M.N. CAKMAK K. SAHIN 《Aquaculture Nutrition》2009,15(6):569-576
In the present study, the effects of different sources of selenium (Se; sodium selenite or selenomethionine) supplementation on the growth and serum concentrations of oxidative stress markers [malondialdehyde (MDA), 8‐isoprostane, glutathione peroxidase (GSH‐Px) activity] and muscle Se, MDA and heat shock protein 70 (Hsp70) levels in rainbow trouts were evaluated. The fish (n = 360; 0 + years old) with initial average weight of 20 ± 0.8 g were randomly assigned to 12 treatment groups consisting of 3 replicates of 10 fish each in a 2 × 2 × 3 factorial arrangement of treatments (stocking densities, Se sources, Se levels). The fish were kept at low (25 kg m?3) or high (100 kg m?3) stocking densities and fed a basal (control) diet or the basal diet supplemented with either 0.15 or 0.30 mg of Se kg?1 of diet from two different forms: sodium selenite or selenomethionine. High stocking density decreased weight gain, feed intake and feed conversion ratio (FCR) when basal diet was fed (P = 0.001). A linear increase in feed intake and weight gain and improvement in FCR were found in sodium selenite (P = 0.01)‐ or selenomethionine (P = 0.001)‐supplemented fish reared under crowding conditions. Serum and muscle Se levels and serum GSH‐Px activity increased (P = 0.001) linearly, whereas serum and muscle MDA concentrations and serum 8‐isoprostane decreased linearly as dietary sodium selenite (P = 0.01) or selenomethionine (P = 0.001) supplementation increased. Selenomethionine and sodium selenite supplementation decreased Hsp70 in the muscle of fish reared under crowding conditions (P < 0.05). Supplementation with Se improved growth and antioxidant status of fish and the effects of selenomethionine were relatively greater than sodium selenite in the crowded groups. Results suggest that crowding conditions cause significant detrimental effects in rainbow trout indicated by increased oxidative stress, reduced feed intake and body weight gain. ?t also indicates that dietary Se supplementation offers a feasible way of reducing the losses in performance of rainbow trout reared under crowding conditions. Selenomethionine seems to be more effective than sodium selenite and the higer dose in the present study also seems to be more effective than the lower dose. 相似文献
12.
Rotifers enriched with iodine,copper and manganese had no effect on larval cod (Gadus morhua) growth,mineral status or redox system gene mRNA levels 下载免费PDF全文
下载免费PDF全文 Sam Penglase Kristin Hamre Pål A Olsvik Espen Grøtan Andreas Nordgreen 《Aquaculture Research》2015,46(8):1793-1800
It currently remains unclear if rotifers contain sufficient mineral levels to meet larval fish requirements. In this study, rotifers were enriched with a commercial enrichment (control), or with additional iodine, iodine and copper, or iodine, copper and manganese, and the effects of feeding these rotifers to Atlantic cod (Gadus morhua) larvae from 3 to 18 days post hatch were investigated. Rotifer enrichment with minerals was successful, but Mn enrichment also increased rotifer zinc levels. No differences were observed between treatments in larval growth or survival, or in the mRNA levels in the majority of the redox system genes analysed. Only Zn levels increased in cod larvae in response to mineral enrichment of rotifers. Apart from Zn, little evidence was found to suggest that cod larvae require increased concentrations above the control rotifer levels of the essential elements studied here. 相似文献
13.
This study explored the pharmacokinetic characteristics of bronopol in grass carp (Ctenopharyngodon idella) under different temperatures. The concentrations of bronopol in the plasma and tissues (kidney, liver and muscle) of grass carp after soaking in bronopol (6.75 µg/ml) at 15 and 20°C were determined using liquid chromatography–mass spectrometry. The concentrations of bronopol in both plasma and tissue first increased and then decreased with soaking time at both tested temperatures. The peak bronopol concentrations at 15°C (plasma: 8.934 µg/ml; kidney: 9.23 µg/g; liver: 9.47 µg/g; and muscle: 7.98 µg/g) were slightly lower than those at 20°C (plasma: 9.654 µg/ml; kidney: 10.83 µg/g; liver: 13.40 µg/g; and muscle: 8.68 µg/g). In an analysis of pharmacokinetic parameters, the bronopol concentration–time profiles for plasma were best described by a two‐compartment, open pharmacokinetic model with first‐order absorption. The t1/2β for plasma at 15 and 20°C was 82.933 and 92.041 hr, respectively, indicating that the elimination of bronopol was faster at 15°C than at 20°C. In addition, AUC0‐t and AUC0‐∞ values of bronopol were 477.892 and 495.809 µg/L hr at 15°C and 495.809 and 589.859 µg/L hr at 20°C, indicating that the content of bronopol in the organism was higher at higher temperature. 相似文献
14.
David Domínguez Zakarya Sehnine Pedro Castro Lidia Robaina Ramon Fontanillas Philip Antony Jesu Prabhu Marisol Izquierdo 《Aquaculture Nutrition》2020,26(2):579-589
Substitution of marine ingredients (FM‐FO) by plant protein and oil sources can modify selenium (Se) levels in feeds. Se plays an important role in the antioxidative defence by forming part of selenoproteins. Se requirements of gilthead sea bream are not accurately determined; therefore, this study was conducted to define Se supplementation levels in low FM‐FO practical diets for sea bream fingerlings. A plant‐based diet containing 0.45 mg Se/kg diet was used as the basal diet. Four other diets were supplemented to contain 0.68, 0.86, 1.00 or 1.70 mg Se/kg diet, supplied as sodium selenite. Sea bream, weighing 12.6 ± 1.4 g, were distributed in triplicate groups per diet and fed for 42 days. Se supplementation up to 1.00 mg Se/kg significantly improved the growth of sea bream, whereas further increase up to 1.70 mg Se/kg diet reduced growth. The results of this study suggest that the optimum dietary levels of sodium selenite in diets with low FM‐FO with basal levels of 0.45 mg Se/kg are around 0.94 mg Se/kg to promote growth of gilthead sea bream juveniles. On the contrary, dietary levels of 1.70 mg Se/kg were found to be excessive and caused growth reduction, increased catalase expression and hydropic degeneration in the liver. 相似文献
15.
Commercial Spirulina, Chlorella, and a methanol-grown yeast were tested as sole food source for the rotifer Brachionus plicatilis. Some good results were obtained, but only with medium salinity (18%) and none with seawater (35‰). In comparison with a constant supply of food, different adjustments of the food level to the population density were tested: a proportional and continuous or stepwise adjustment and a less proportional one. The less than proportional adjustment was found to be more advisable for a continuous culture with a daily renewal of a quarter of the volume. The three single-cell proteins appeared to be suitable with 35–55 rotifers produced per ml per day. However, the food conversion was poor: in the best cases 4.2 g of food were required per 106 rotifers produced. In practice, two formulated diets were preferred for mass culture trials in 60-l tanks: the first (P 72) included 40% Spirulina, 40% yeast and different additives; the second was composed of 67% of diet P72 and 33% of the freeze-dried alga Platymonas suecica. The production was 44 and 35 rotifers, respectively per ml per day, with 3.6 and 2.9 g of food, respectively per 106 rotifers,produced. Freeze-dried algae did not appear to be necesary for rotifer production, but the nutritional quality of such rotifers should be investigated. 相似文献
16.
Examination of a practical method for zinc enrichment of euryhaline rotifers (Brachionus plicatilis)
Seiji Matsumoto Shuich Satoh Tomonari Kotani Hiroshi Fushimi 《Aquaculture (Amsterdam, Netherlands)》2009,286(1-2):113-120
Larval growth and survival of marine finfish in mass seed production are affected by the nutritional value of live feeds such as rotifers and Artemia. Thus far, many studies have been conducted to develop effective methods for the enrichment of live feeds with essential fatty acids and vitamins. In this study, a practical method for enrichment of rotifers with zinc was investigated. Changes in the concentrations of other minerals when zinc was added to the rotifer-enrichment tanks were also studied. The mineral composition of rotifers and Chlorella after zinc enrichment revealed that the direct addition of zinc to the culture media was not effective because rotifers cannot efficiently accumulate waterborne zinc. The ability of Chlorella to absorb waterborne zinc is much higher than that of rotifers, and hence, zinc was pre-accumulated in Chlorella, which was then fed to the rotifers. The maximum zinc content of the rotifers was 585.0 μg g? 1 (dry matter) when the rotifers were enriched with zinc alone. This zinc concentration is comparable to that found in natural zooplankton. In rotifers simultaneously enriched with zinc and n?3 highly unsaturated fatty acids (HUFAs), the zinc content increased, but the n?3 HUFA content did not. Therefore, separate enrichment with zinc and fatty acids was adopted. The zinc content of rotifers fed zinc-enriched Chlorella was significantly higher than that of rotifers fed unenriched Chlorella. After zinc enrichment, rotifers were enriched with fatty acids, and the docosahexaenoic acid (DHA) and n?3 HUFA levels in rotifers were higher than the levels obtained after simultaneous enrichment with zinc and fatty acids. With regard to the concentration of other minerals in rotifers after zinc enrichment, the manganese content tended to decrease when the zinc content increased.The results of this study demonstrated that zinc enrichment of rotifers was successfully performed by using microalgae that had accumulated zinc, and the enrichment of rotifers with fatty acids was also achieved after the completion of zinc enrichment and before feeding the larvae. This method could be utilized for the enrichment of zooplankton with other minerals as well. 相似文献
17.
Chlorella additive increased growth performance,improved appetite and immune response of juvenile crucian carp Carassius auratus 下载免费PDF全文
下载免费PDF全文 Zhi Luo Han‐Mei Ye Yan Gao Shi‐Cheng Ling Chuan‐Chuan Wei Xiaoming Zhu 《Aquaculture Research》2018,49(10):3329-3337
This study was designed to investigate effects of dietary Chlorella meal (CM) additive on growth performance, immune responses and appetite regulation of juvenile crucian carp Carassius auratus (initial body weight: 1.27 ± 0.03 g). Four experimental diets were formulated to contain 0% (CM0), 1% (CM1), 2% (CM2) and 4% Chlorella meal (CM4), respectively. Each diet was randomly assigned to triplicate groups with 40 juvenile fish per fibreglass tank for 8 weeks. Weight gain rate, specific growth rate and feed intake increased with increasing dietary CM levels. In contrast, FCR (feed conversion rate) declined with dietary CM levels. No significant differences were observed in moisture, crude protein, crude lipid and ash contents of muscle and liver tissues. Dietary CM addition increased activities of acid and alkaline phosphatase in liver and kidney. Dietary CM up‐regulated the mRNA expression levels of NKEF‐B, MCHII and IgM in kidney, and increased the mRNA levels of NPY and agouti gene‐related protein in the brain, but down‐regulated mRNA levels of MC4R, LEP, LEPR, CART1, CART2 and CCK8 genes. Based on these observations above, this study indicated that dietary CM additive increased growth performance, immune responses and appetite of crucian carp. The results, for the first time, demonstrate a role for the central nervous system in the control of food intake in fish fed dietary Chlorella meal. 相似文献
18.
Optimization of emulsion properties and enrichment conditions used in live prey enrichment 下载免费PDF全文
下载免费PDF全文 Five variables relating to the enrichment of live prey were studied using experimental micellar emulsions. Rotifers and Artemia nauplii were enriched for 12 and 24 hrs, respectively, and sampled at several intervals to analyse their fatty acid profile and determine the better time length for enrichment. Two hour and 18 hr were shown to be the most effective in boosting rotifer and nauplii, respectively, with arachidonic (ARA), eicosapentaenoic (EPA) and docosahexaenoic (DHA) fatty acids as well as in total lipid content. Three doses of the same emulsion were also used to check which one conferred the best fatty acid profile. In this case, the higher the dose utilized the higher the content of DHA present in the live food. The use of 15 g/Kg–20 g/Kg of egg yolk as emulsifier was proved to be very effective on rotifer boosting, whereas for nauplii, the amount of emulsifier might be reduced. Egg‐derived emulsifiers have been shown to be more effective for rotifer enrichment while for Artemia nauplii, soy lecithin rendered a better fatty acid profile. Finally, live prey lipid composition paralleled that of the oil used in the emulsion formula although rotifers were far more easily enriched than Artemia nauplii especially in DHA but not in EPA or ARA. 相似文献
19.
Hiroyuki Matsunari Hiroshi Hashimoto Kentaro Oda Yoshitsugu Masuda Hitoshi Imaizumi Kazuhisa Teruya Hirofumi Furuita Takeshi Yamamoto Kazuhisa Hamada Keiichi Mushiake 《Aquaculture International》2012,20(5):981-992
The effect of algae with different DHA contents used for the enrichment of rotifers on the growth performance, survival, and swim bladder inflation of larval amberjack Seriola dumerili was investigated. Rotifers were enriched with freshwater Chlorella vulgaris containing three levels of DHA (rotifer containing DHA 0.04, 0.60, 1.32?g DHA 100?g?1 DM) and Nannochloropsis (0.04?g DHA 100?g?1 DM; 2.54?g EPA 100?g?1DM). The larvae were fed the enriched rotifers in triplicate from 3?days post-hatch for 7?days in static condition. The same algae used for rotifer enrichment were supplied to the larval tanks. Growth and survival rate of fish fed the rotifers enriched with Nannochloropsis were higher than those of fish fed the rotifers enriched with all three Chlorella treatments. Swim bladder inflation was lowest in fish fed the rotifers enriched with Nannochloropsis. The proportion of EPA was higher in fish fed the rotifers enriched with Nannochloropsis, while that of DHA increased proportionally with the DHA levels in the rotifers enriched with Chlorella. These results suggest that rotifers enriched with Nannochloropsis (EPA-rich rotifers) are effective to enhance growth and survival, but DHA instead of EPA is essential to improve the swim bladder inflation in amberjack larvae. 相似文献
20.
The performance of microbial flocs as food for Artemia, which were produced using waste from a recirculating aquaculture system stocking European eel (Anguilla anguilla), was investigated in an 18‐day feeding trial. Four dietary treatments were used: Chlorella only (diet 1), flocs only (diet 2), and both Chlorella and flocs offered as mixed diets in different proportions (diets 3 and 4). The survival rate of Artemia fed diets 1 and 4 were significantly higher than those fed diets 2 and 3. The survival rate of Artemia fed diet 4 was the highest among the four diets. Individual length (10.02 ± 2.44 mm) and biomass production of diet 3 (3.2 ± 0.40 g L–1) were the highest among the four diets. The crude protein contents for Artemia fed diets 2, 3 and 4 were 591.22 ± 30.15, 580.34 ± 22.42 and 533.27 ± 34.19 g kg–1, respectively, which were significantly higher than that of diet 1 (461.25 ± 10.33 g kg–1). The concentrations of free amino acids and the fatty acid compositions in the four diets were equal, except for the C24:0 content. The highly unsaturated fatty acid concentration of Artemia fed diet 2 was higher than those of the other three diets. It showed that microbial flocs produced from fish waste can be used for Artemia. 相似文献