The effect of food type and quantity on egg production and nucleic acid content of Acartia sinjiensis

Both food type and quantity have a strong effect on the egg production, RNA:DNA ratio and RNA content of the copepod Acartia sinjiensis. Copepods were fed limiting (150 µg C l^-1) and non-limiting (1500 µg C l^-1) concentrations of Tetraselmis chuii (Prasinophyceae), Pavlova salina and Isochrysis aff. galbana (Prymnesiophyceae), and Chaetoceros muelleri (Bacillariophyceae). Saturation of copepod egg production was estimated for Tetraselmis and Pavlova offered in a wide range of concentrations (0^-1500 µg C l^-1). Under non-limiting food conditions, A. sinjiensis produced more eggs when fed Tetraselmis (mean 17.6 eggs female^-1 day^-1 - efd) and Pavlova (14.2 efd), and produced fewer eggs when fed Isochrysis (9 efd) and Chaetoceros (7.6 efd). RNA:DNA ratio (mean 7) and individual RNA content (mean 2 µg RNA ind^-1) were significantly higher in females fed abundant Tetraselmis in comparison to the other algae. Under food-limiting conditions, A. sinjiensis could still produce eggs when fed Pavlova (3.3 efd) and Tetraselmis (1.7 efd), but failed to produce eggs when fed Isochrysis and Chaetoceros. In food-limited females RNA:DNA ratios and individual RNA content were variable and lower than animals fed non-limiting algae concentrations. The saturation of egg production was 714 µg C l^-1 for Tetraselmis and 509 µg C l^-1 for Pavlova. The relationship of RNA:DNA ratio and food concentration followed a similar function to egg production, with a saturation level of 509 µg C l^-1 for Tetraselmis. Egg production was positively correlated with female size only in animals fed Tetraselmis at 1500 µg C l^-1; all other algae and food concentrations were uncorrelated with female size. Of the algal species tested, Tetraselmis and Pavlova are candidate algae for use in A. sinjiensis culture. Egg production saturates around 500 µg C l^-1, as is the case in other Acartia species. Both RNA:DNA ratio and RNA content of the females were sensitive to different food type and concentration, and have the potential to be used as an alternative method for the identification of optimal food for use in Acartia culture. These observations have important implications for the understanding of the dynamics and productivity of this species in coastal environments of tropical Australia, and also its potential use in aquaculture and ecotoxicology.

Citation

Gusmão, L.F.M & McKinnon, A.D. (2009). The effect of food type and quantity on egg production and nucleic acid content of Acartia sinjiensis. Aquaculture, doi:10.1016/j.aquaculture.2009.08.015

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Sex ratios, intersexuality and sex change in copepods

Female-biased adult sex ratios are common in copepod species, and have been observed both in wild populations and in cultures. Biased sex ratios are most commonly explained by sex- or stagespecific differences in longevity or mortality. However, neither differential longevity nor differential mortality fully explains skewed sex ratios in planktonic copepod populations. We propose that sex change is an important mechanism determining the adult sex ratio. Though sex change has been proposed for only a few copepod species, intersexuality is widespread. We review the occurrence and causation of intersexuality in planktonic copepods, which is a manifestation of late sex change during development. By way of example, we demonstrate that skewed sex ratios of Acrocalanus gracilis, a common tropical paracalanid copepod, could be explained by sex change alone. Our observations suggest that sex determination in copepods is under strong environmental control, and we argue that the food limitation is an important determinant of sex change.

Citation

Gusmão, L.F.M & McKinnon, A.D. 2009. Sex ratios, intersexuality and sex change in copepods. Journal of Plankton Research, 31(9):1101-1117; doi:10.1093/plankt/fbp059

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Acrocalanus gracilis (Copepoda: Calanoida) development and production in the Timor Sea

We investigated the juvenile development of the calanoid copepod Acrocalanus gracilis in the Timor Sea. The development was characterised by the calculation of stage-specific duration, median development time, moulting period duration, moult and growth rates. The morphometry of the experimental and wild populations were compared. Food concentrations in the experiment were lower than those in the field, and resulted in smaller animals than those in the field. Somatic growth (0.44 day^–1) was log-linear throughout the development, but moulting rates slowed with time. The development of A. gracilis was similar to other paracalanids, and conforms to the equiproportional model. Trophic resources seem to play an important role in controlling the developmental features and morphometry of Acrocalanus in tropical environments.

Citation

Gusmão, L.F.M & McKinnon, A.D. 2009. Acrocalanus gracilis (Copepoda: Calanoida) development and production in the Timor Sea. Journal of Plankton Research; 31(9):1089-1100; doi:10.1093/plankt/fbp047

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Post-marsupial life cicle and growth of Metamysidopsis elongata atlantica (Crustacea, Mysidacea, Mysidae) under laboratory condition

Metamysidopsis elongata atlantica (Bacescu, 1968) was reared in the laboratory for 45 days at 20±1°C and salinity of 30ppt. Growth curves (von Bertalanffy model) were calculated for both sexes and for each sex. The daily rate of carapace growth was significantly different between females and males (F test, p <0.05).>-1; males, 0.0448 mm day^-1). After the maturity (15 to 45 days), these rates decreased similarly for both sexes (females, 0.0203 mm day^-1; males, 0.0174mm day^-1). The average growth rate was 0.0207mm day^-1 over the 45 days. Twelve moults were observed in a period of 60 days. The first five moults occurred up to 14 days old (age of the sexual differentiation), with a mean intermoult period of 2.9 days. From the 6^th molt it increased to 5.6 days. The results suggest that the use of the carapace length is a good measure to calculate the growth and longevity of these organisms.

Citation

Gama, A.M.S., Montú, M.A. & Gusmão, L.F.M. 2002. Post-marsupial life cicle and growth of Metamysidopsis elongata atlantica (Crustacea, Mysidacea, Mysidae) under laboratory condition. Iheringia, Sér. Zool. [online]. 2002, vol.92, n.1, pp. 77-83. Available from: <http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0073-47212002000100006&lng=en&nrm=iso>. ISSN 0073-4721. doi:10.1590/S0073-47212002000100006

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