Dr. Urzúa-Osorio, Ángel

Swordfish (Xiphias gladius), a highly migratory fishery resource of great importance in the Southeastern Pacific Ocean (SEPO), is a species with late sexual maturation, high longevity, and a large body size that spawns and reproduces several times throughout its adulthood. In the present study, we hypothesized that the Biochemical-Ecological Composition (BEC) of the gonad (measured as the lipid, protein, glucose, and energy contents) and its bio-stoichiometric ratios (lipid/protein: L/P; lipid/ glucose: L/G) would be influenced by both female body size (lower jaw fork length in cm, LJFL: <180, 180–260, >260) and time (trimesters: 1,2,3; years: 2017, 2019). Our results revealed that in relation to their body size, female swordfish gonads varied significantly in their BEC, but not in their L/P and L/G ratios during their quarterly development within an annual cycle. These variations in the BEC were noticeable in females of medium (180–260) and larger (>260) sizes. Particularly, as the year progressed, females stored significant amounts of energy during their trophic migration, made evident by the increase in the lipid and protein contents of the gonads, which reached maximum levels towards the end of the year, during the second and third trimesters. These high energy reserves can be used for the reproduction during the last trimester of the year (i.e. austral spring–summer), when the warm temperature and high productivity in the SEPO are optimal for the successful development of oocytes. Future studies considering an ecosystem approach should analyze the classes of lipids and types of fatty acids that are involved in the reproduction of this species, and how they are acquired through the consumption of lipid-rich prey, and subsequently metabolized to be used in reproduction and during early ontogeny.

Marine trophodynamic studies have been developed mainly through the evaluation of stomach contents. However, these studies only reflect the feeding of a few days, showing a "snapshot" of the food consumed for a short time. Currently, new complementary techniques have been developed to evaluate the diet of predators using biochemical markers (fatty acids, FAs) and can, in turn, consider the rate of renewal of these biochemical constituents in body tissues. In the jumbo squid Dosidicus gigas, an important fishery resource in the Humboldt Current System, we identified and analyzed the stomach contents (prey) of D. gigas collected along the coasts of Chile in order to compare the FA profiles of its prey with those of three of its principal tissues and/or organs (digestive gland, gonad and mantle muscle). The analyses of the stomach contents indicate that D. gigas feeds on fish, crustaceans and squids, as previously have been reported. Regarding the FAs, the digestive gland presented the highest concentration and diversity of FAs, followed by the gonad and then the mantle. In turn, when comparing the FAs of the digestive gland of D. gigas with the FA profiles of its preys, the crustacean Pleuroncodes monodon and the fish Lampanyctus sp. presented the closest similarity, especially with a high contribution of essential FAs and PUFAs. Our findings indicate that during the cold season (austral winter), individuals of D. gigas may present an energy optimization strategy, characterized by the intake of prey with a high energy content rich in PUFAs, such as crustaceans and small fishes. This study not only contributes to the understanding of the squid biology and their trophodynamic, but also has important implications to improve fishery management within an ecosystem approach. This is relevant because D. gigas and its prey have suffered heavy exploitation, with a significant reduction in their biomass.

In marine invertebrates, the bioenergetic fuel available for fundamental physiological processes (growth, reproduction) may present intra-individual variability depending on the storage organ, sex and state of sexual maturity. This variability is considered relevant information for fishery management. In the squid Dosidicus gigas, an important fishery resource, we analyzed adult males (immature vs. mature) and females (immature I vs. immature II) off the coast of Chile. Their bioenergetic fuel (protein, glucose, lipid and fatty acid content-FAs) was quantified in different organs of the body (digestive gland, gonad and mantle). When comparing the organs of males at both stages of maturity, a greater amount of glucose and lipids were observed in the digestive gland than in the gonad and mantle, while a higher protein content was recorded in the gonad. In turn, the same tendency of biochemical variations among the organs was observed for the female at both stages. Regarding the FA profiles of the analyzed organs, the digestive gland had the highest mean proportion of FAs. However, no significant differences were observed related to sex and sexual maturity. According to the multivariate analyses for both sexes and maturity stages, the FA profiles of the mantle and gonad showed overlap and a high similarity, while the profile of the digestive gland was completely dissimilar. Our findings indicate that D. gigas from Chilean coastal waters showed, mainly in the digestive gland, high levels of all biochemical constituents, which are obtained through food and stored in their organs as bioenergetic fuel, and may then be used for the subsequent process of migration and reproduction in oceanic waters.