The content (% wet mass) in water, ash, lipid, crude protein, DNA and RNA of different tissues was determined during sexual maturation of bonitos Sarda sarda from the Aegean Sea. A total of 220 specimens were collected in the following stages of sexual maturity: immature, resting, developing, mature, spawning and spent. Highest lipid levels in the white muscle, red muscle and liver were measured in immature specimens, while lowest levels were found in spawning bonitos. The gradual percentage of lipid reduction from immature to spawning bonitos was relatively higher in the liver (females 71Á2% and males 64Á4%) than in the white (females 59Á2% and males 53Á5%) and red (females 62Á1% and males 51Á7%) muscle. Lipid levels in the gonads increased gradually from the immature to spawning stage. The decrease of lipid in the somatic tissues was more intense in females than in males, and gonadal lipid content was higher in females than in males. There was a strong reverse correlation between water and lipid percentage in all tissues. Protein content decreased significantly only in spawning bonitos. The percentage of protein reduction from immature to spawning stage was relatively higher in males than in females in both white (females 3Á4% and males 4Á6%) and red (females 4Á6% and males 5Á1%) muscles. Protein content in the liver was significantly lower than in the other tissues, being highest in mature females. Gonadal protein content in females increased with maturation and decreased after spawning. The content in ash exhibited considerable stability. The RNA:DNA ratio exhibited a similar pattern of variation in both muscles. The RNA:DNA ratio increased during gonadal development gradually from the developing to spent stage. It was concluded that in S. sarda during gonadal development, there was an increase in gonadal lipid accompanied by a decrease in somatic tissue lipid reserves. Thus, reproductive inactive bonitos have more lipid in their edible part and a higher nutritional value than active ones.
Growth is a polygenic and environmentally controlled trait with the most influential genes being those of growth hormone (GH) and insulin‐like growth factor‐I (IGF‐I), as they consist the core of the hypothalamic–pituitary–somatotropic (HPS) axis. As a result, the influence of environmental and dietary conditions on GH and IGF‐I gene expression has a great potential in planning to optimize fish health and production, as growth rate of fish is a key factor in aquaculture. In this review, we provide a molecular and physiological overview of GH and IGF‐I gene expression as well as all the participating factors regulating GH/IGF‐I axis in growth. We further discuss the genetic, dietary and environmental factors affecting growth rate. More importantly, how external factors in combination with diet such as temperature, photoperiod, salinity, pollutants and stocking density affect GH and IGF‐I expression and growth rate. In addition, there is evidence that photoperiod effect varies among species by altering the seasonal cycle of GH and IGF‐I gene expression and biological cycle of fish. Pollution has also a variable effect on GH, IGF‐I and fish growth rate, depending on the pollutant, species and sex. Finally, increased stocking density influences the HPS axis and growth, dependent on species, temperature and the stage of growth. Notably, interactions among these factors were observed by the reported importance, primarily feeding‐related stress one of the most important factors, while environmental would add or subtract on each other’s optimal or suboptimal conditions in a hierarchy of significance, as further discussed.
Two experiments were conducted examining the population structure of Brachionus 'Nevada' under feeding conditions commonly applied in hatcheries, using 4-day rotifer batch cultures. In the first experiment two diets were supplied: yeast with Tetraselmis suecica (treatment A) or Culture Selco Ò with T. suecica (treatment B). The second experiment (treatments C, D, E) differed in the phytoplankton quantity used (20 times higher): treatment C was analogous to A and treatments D and E to B. Initial rotifer density differed among treatments and was about 200 individuals ml )1 in A, C and E, and 60 individuals ml )1 in B and D. Multivariate analysis discriminated A and C from B, D and E. In treatments A and C, a 24-h cycle in ovigerous females, immature individuals and E/F ratio was observed, showing a high reproductive rate. Treatments B, D and E displayed a 48-h cycle in the aforementioned parameters, indicating a lower reproductive rate. The latter treatments had a significantly higher number of females with multiple eggs for most of the samplings, compared to A and C, except for treatment E until 40 h of sampling. Specific growth rate was significantly higher in treatments B and D (Culture Selco Ò diet) compared to A and C (yeast diet), while treatment E had intermediate rates.Initial rotifer density influenced the abundance of females with multiple eggs, but resulted in slight variations in growth rate and population structure. The type of dry food greatly affected the population structure of rotifers, leading to significant differences in the growth rate.
The survival, growth, and biochemical composition (protein, total lipid, total carbohydrate, free reducing sugars, RNA, DNA) of the guppy, Poecilia reticulata, exposed to low sublethal concentrations of cadmium throughout its life cycle (beginning with 5-day-old juveniles) was studied. The purpose was to get some insight on the cause of metal toxic effects and evaluate the utility of monitoring levels of biomolecules as bioindicators of chronic toxicant effects on fish. The LC50 (48 h) of cadmium for 5-day-old Poecilia was 56.77 mg/L. The median lethal times (LT50) of Poecilia exposed to low cadmium concentrations (0.5-5 mg/L) ranged from 7.65 to 72.51 days, and could be accurately predicted by the mortality observed after 20 days of exposure. The whole-body dry weight increase of cadmium-exposed guppies presented a decline from that of the controls. These declines were statistically significant after 20 days of exposure to concentrations higher than 1 mg/L and after 30 days to concentrations higher than 0.5 mg/L. The percentage content in RNA was the only variable from the studied macrobiomolecules that significantly decreased when guppies were exposed to Cd concentrations higher than 0.5 mg/L for 30 days. The same trend was apparent in the ratio RNA/DNA. However, the ratio protein/RNA/DNA significantly increased after 10 days of growth to 1.5 mg/L and after 20 days to concentrations higher than 0.5 mg/L, thus having a predictive value for early-life history stages of Poecilia exposed to Cd.
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