María Soledad Izquierdo

Development of red porgy Pagrus pagrus visual system in relation with changes in the digestive tract and larval feeding habits

Abstract Red porgy larvae, like other sparids such as red seabream are visual feeders. The normal development of the visual system is essential for successful prey capture and predator avoidance, leading to increased larval growth and survival. The aim of this work is to characterise the development of visual organs in relation to changes in the digestive system and feeding habits. Twenty-five larvae from hatching to day 29 were daily collected from the rearing tank, fixed in formalin, embedded in paraffin, 5 μm sectioned and stained with haematoxylin and eosin (H&E) and Periodic Acid Shift Reactive-Haematoxiline (PAS-Hx). Light microscopy was used to study changes in ocular morphology with respect to digestive system development. At hatching, eye and digestive systems of Pagrus pagrus larvae have no function. However, at day 3 post-hatch, when the mouth opens, the larvae must be ready for prey capture and digestion. Despite this, few day 3 larvae had food in the digestive tract. At day 4 photoreceptors were well developed in the eye, pigmentation pattern was complete and thus the visual system was completely ready for prey capture. This development coincided with detection of digestive activity in the midgut and most of larvae starting to take food. The results of this study suggest that adequate development of the visual system is important to establish the start of exogenous feeding. Besides, the appearance of rod cells increases larval photosensitivity and suggests that changes in lighting regimes could be necessary throughout the larval phase.

Chronic copper exposure and fatty acid composition of the amphipod Dikerogammarus villosus: results from a field study.

Field study allows assessment of long-term effects on fatty acid (FA) composition of organisms under chronic exposure to metals. One expected effect of copper is peroxidation of lipids and essentially polyunsaturated fatty acids (PUFA). FA analysis was established for the amphipod Dikerogammarus villosus subjected to different degrees of copper exposure (4-40 microg Cu L(-1)). A previous study in our team showed that this species regulates its body Cu concentration (106-135 mg Cu kg(-1) dry weight). Despite the high capacity of bioaccumulation, the absence of a correlation between copper concentration in D. villosus and water prevents its use as bioindicator of copper pollution. Both sexes from the most polluted site showed the lowest total FA content, but the highest PUFA percent, mainly of the long-chained variety (C20-C22). Mechanisms leading to the prevention of lipid peroxidation in this species were discussed (metallothioneins and intracellular granules) and proposed with support from literature data.

Increased Mauthner cell activity and escaping behaviour in seabream fed long-chain PUFA.

There is limited information on the specific effects of long-chain PUFA (LCPUFA) on neuron development and functioning. Deficiency of those essential fatty acids impairs escape and avoidance behaviour in fish, where Mauthner cells (M-cells) play a particularly important role in initiating this response. Gilthead seabream larvae fed two different LCPUFA profiles were challenged with a sonorous stimulus. Feeding n-3 LCPUFA increased the content of these fatty acids in fish tissues and caused a higher number of larvae to react to the stimulus with a faster burst swimming speed response. This faster startle response in fish fed n-3 LCPUFA was also associated with an increased immune-positive neural response, particularly in M-cells, denoting a higher production of acetylcholine. The present study shows the first evidence of the effect of n-3 LCPUFA on the functioning of particular neurons in fish, the M-cells and the behaviour response that they modulate to escape from a sound stimulus.

Fatty Acid Profile of Neutral and Polar Lipid Fraction of Wild Eggs and Hatchlings from Wild and Captive Reared Broodstock of Octopus vulgaris

The culture of Octopus vulgaris is constrained by unsolved problems in paralarvae rearing, mainly associated to the unknown nutritional requirements of this species in early stages. In this article we studied the fatty acid profile (total, neutral, and polar lipid fractions) in wild eggs and wild hatchlings, collected in Gran Canaria (SW) (Spain) with artificial dens, in comparison to hatchlings obtained in captivity from broodstock fed on trash fish species. Total lipids were 11.5–13.5% dw, with the polar fraction representing a 70.6–75.5% of total lipid, with lower values in wild hatchling in comparison with captive ones. Docosahexaenoic acid (DHA) was the main component in neutral and polar fatty acid profile in all samples, underlying its importance in this species. Decreasing levels of saturates and arachidonic acid (ARA) from wild eggs to hatchlings, mainly associated to the polar fraction, suggest their use during embryonic development. In hatchlings, increasing levels of oleic acid in the neutral fraction and eicosapentaenoic acid (EPA) in the polar fraction, suggests their importance in hatchlings quality. Wild hatchlings showed in the polar fraction higher oleic acid and ARA, and lower DHA/ARA and EPA/ARA ratios in comparison with captive hatchlings, suggesting a difference in paralarvae nutritional status. These results suggest the importance of n-3 highly unsaturated fatty acids (HUFA), oleic acid, and ARA, presented in the adequate lipid fraction, in the diet of broodstock and paralarvae of O. vulgaris.