Aspects of phosphorus physiology associated with phosphate-induced polar lipid remodelling in marine microalgae

Marine microalgae exhibit a diversified phosphorus physiology and have also been recently found to show high inter-taxa variability in their phosphate induced-polar lipids' remodelling. Identification of phosphorus physiology aspects that are more related to lipid remodelling can contribute to better understanding of such intricate phytoplankton lipid metabolism. Therefore, some aspects of phosphorus physiology related to its uptake, storage and use were evaluated in a taxonomically diversified group of nine marine microalgae that was arranged into three subgroups, each of them including species showing similar polar lipid responses to phosphate. Luxury phosphate uptake (PU) was the physiological aspect best associated to microalgal polar lipid metabolism as it was maximal in species (Picochlorum atomus, Tetraselmis suecica and Nannochloropsis gaditana) that were able to counterbalance between phospholipids (PL) and betaine lipids (BL). Cryptophytes (Rhodomonas baltica, Chroomonas placoidea), characterized by their constitutive BL and flexible PL contents in response to phosphate, had almost no luxury PU and showed higher phosphorus cell quota (QP) under phosphate deprivation. Haptophyes (Isochrysis galbana, Diacronema vlkianum), with constitutive BL contents and permanently minimal PL contents, showed the lowest QP when deprived of phosphate while their luxury PU was below that for green microalgae. Induction of alkaline phosphatase activity following phosphate depletion was maximal in diatoms (Phaeodactylum tricornutum, Chaetoceros gracilis) and I. galbana but it was unrelated to lipid remodelling. Despite strong influence of taxonomy, polar lipid remodelling accounted for 38.8% of total variation when microalgae were ordinated using their physiological responses to phosphorus as descriptive variable

Common and species-specific effects of phosphate on marine microalgae fatty acids shape their function in phytoplankton trophic ecology

The use of fatty acids (FA) to infer structure of phytoplankton assemblages and as indicators of microalgae nutritional value is acquiring relevance in modern phytoplankton ecology and new advances concerning factors influencing FA variability among microalgae are demanded. In this regard, the relationship between phosphorus and FA remains particularly little studied in marine phytoplankton. In the present study, we focus on phosphate effects on FA from a diversified set of marine microalgae and provide new insights into the applicability of FA in phytoplankton trophic ecology. Phosphate deprivation mainly induced monounsaturated FA production in eight out of nine microalgae and their changes were species-specific, with palmitoleic acid exhibiting extreme variation and discriminating between haptophyte classes. The important phosphate-induced and interspecific variability found for oleic acid was perceived as a concern for the current application of this FA as a trophic position indicator in grazers. Chloroplast C-16 and C-18 polyunsaturated FA were more affected by phosphate than C-20 and C-22 highly unsaturated FA (HUFA). The relative stability of stearidonic acid to phosphate in cryptophytes and haptophytes pinpointed this FA as a suited marker for both microalgae groups. Taken all species together, phosphate deprivation and taxonomy accounted for 20.8 and 50.7% of total FA variation, respectively. HUFA were minimally affected by phosphate indicating their suitability as indicators of phytoplankton trophic value. The asymptotic relationship between HUFA and phosphorus cell content suggested mineral composition (phosphorus) could be more important than HUFA content as attribute of marine microalgae nutritional value at the species level

Organogenesis of the digestive system of the brill, Scophthalmus rhombus L.

4 páginas, 2 figuras. XI Congreso Nacional de Acuicultura (Vigo, 24-28 septiembre 2007). Ed. Antonio Cerviño Eiroa, Alejandro Guerra Díaz y Carmen Pérez Acosta.[EN] The ontogeny of the digestive tract during the larval development of cophthalmus rhombus was studied using histological and histochemical techniques. At exogenous feeding (4 days after hatching –dah-), both the mouth and the anus are opened and the digestive tract was differentiated in bucopharyngeal cavity, oesophagus, incipient stomach, foregut, midgut and hindgut. The gastric glands differentiated around 23 dah. Digestive mucous cells were rich in neutral and/or acidic mucosubstances. Intestinal lipid absorption was evident from 7-8 dah and protein supranuclear vesicles (protein micropynocitosis) of the hindgut were detected at 4 dah. The exocrine pancreas shows, around 2-3 dah, acidophilic zymogen granules (enzymatic precursors) and at the same time the hepatic glycogen granules and endocrine pancreas were identified from 2 dah.[ES] Se estudia la ontogenia del tracto digestivo durante el desarrollo larvario de parracho, Scophthalmus rhombus desde la eclosión hasta el día 38, utilizando técnicas histológicas e histoquímicas. Durante la fase de alimentación exógena (4 dde –días después de la eclosión-), tanto la boca como el ano están abiertos y el tracto digestivo está diferenciado en cavidad bucofaríngea, esófago, estómago incipiente e intestinos anterior, medio y posterior. Las glándulas gástricas se diferencian alrededor de los 23 dde e incrementan en número y desarrollo progresivamente. Las células mucosas digestivas son ricas en mucosustancias neutras y/o ácidas. Además, la absorción intestinal lipídica es evidente a los 7-8 dde y las vacuolas supranucleares (micropinocitosis proteica) del intestino posterior se detectaron a los 4 dde. El páncreas exocrino presenta gránulos de zimógeno acidófilos (precursores enzimáticos) a los 2-3 dde y al mismo tiempo se identifican los gránulos de glucógeno hepáticos y el páncreas endocrino.Este trabajo ha sido financiado por los proyectos DIVERAQUA y REDAQUAb del IFAPA (Interreg IIIA: SP5.E36 y SP5.E27/02) y parcialmente por el CSIC (AGL2005-02478 y AGL2006-13777-CO3-O2/ACU).Peer reviewe

Nutritional analysis of freshwater and marine amphipods from the strait of gibraltar and potential aquaculture applications

Four gammarid and four caprellid amphipod species from the Strait of Gibraltar were analyzed to study their nutritional contents: Caprella dilatata, Caprella equilibra, Caprella grandimana, Caprella penantis, Elasmopus rapax, Hyale perieri and Jassa sp. from marine water habitats and Echinogammarus sp. from freshwater habitats. Lipids, proteins, carbohydrates, ash and water contents were measured. Proteins and ash were the most abundant components in all the species, ranging between 37.9 and 44.6% and 29.3 and 39.7% dry weight, respectively. The lipid and carbohydrate contents showed lower levels (5.1–9.6% and 3.1–9.1% dry weight, respectively). No significant differences in general biochemical composition were found between gammarid and caprellid species. The most abundant fatty acids were the polyunsaturated ones (38.3%) with high levels of EPA (20:5(n-3)) with 8.5 to 17.7%, DHA (22:6(n-3)) with 0.9 to 13.6% and ARA (20:4(n-6)) with 1.7 to 5.8%. Caprellid species were characterized by a higher percentage of polyunsaturated fatty acids, while the freshwater gammarid species showed the lowest levels. According to lipid classes, caprellids had higher phospholipids levels and lower triacylglycerol levels, as well as a higher content of polar lipids than the gammarids, being more suitable for their use in aquaculture. Differences in the general biochemical composition between species can be related to habitat characteristics, diets and environmental conditions. Advantages and disadvantages of the use of these organisms in aquaculture are discussed

Exploring occurrence and molecular diversity of betaine lipids across taxonomy of marine microalgae

Betaine lipids (BL) from ten microalgae species of the kingdoms Plantae and Chromista were identified and quantified by HPLC/ESI-TOF-MS. Diacylgyceryl-N-trimethylhomoserine (DGTS) was detected in Trebouxiophyceae and Eustigmatophyceae species, whereas Tetraselmis suecica was described as the first green algae containing diacylglyceryl-hydroxymethyl-N,N,N-trimethyl-beta-alanine (DGTA). DGTA molecular species where also characterized in Cryptophyceae species as well as in the Bacillariophyceae diatom Phaeodactylum tricornutum. The Mediophyceae diatom Chaetoceros gracilis had no DGTA, but contained diacylglyceryl-carboxyhydroxymethylcholine (DGCC). A principal coordinate (PCO) analysis of microalgae species revealed the existence of three main clusters around each BL type. The first PCO axis (43.9% of total variation) grouped Chlorophyceae, Trebouxiophyceae and Eustigmatophyceae species and positively correlated with DGTS. The second PCO axis (27.8% of total variation) segregated DGTA from DGCC containing species. Cryptophyceae, Bacillariophyceae and Chlorodendrophyceae were the more closely associated species to DGTA. Mediophyceae and Dinophyceae species contained DGCC as the only BL. Molecular diversity varied from the simplest DGCC composition in Gyrodinium dorsum to the highest spectrum of ten different molecular species detected for DGTA (Rhodomonas baltica) and DGCC (C. gracilis). The fatty acid profile of DGTS was very dissimilar to that of the whole lipid cell content. DGTS from Nannochloropsis gaditana was highly unsaturated respecting to total lipids, whereas in Picochlorum atomus DGTS unsaturation was nearly one half to that of total lipids. Dissimilarity between DGTA and total lipid fatty acid profile was minimum among all BL and DGTA fatty acid unsaturation was the maximum observed in the study. New DGCC molecular species enriched in 20:5 were described in Mediophyceae diatoms. Multivariate microalgae ordination using BL as descriptors revealed a higher chemotaxonomic potential than that based on their respective BL fatty acid profile. Nevertheless, taxonomic resolution was improved when fatty acids from the whole cell lipid pool were used

Assessment of growth, lipid metabolism and gene expression responses in Senegalese sole larvae fed with low dietary phospholipid levels

Phospholipids (PL) are essential molecules for larval growth and development. In this study, growth, lipid metabolism and gene expression responses associated with different dietary PL levels in pelagic sole larvae were evaluated. In a first trial, the long-term effects on growth and survival of two experimental microdiets (MD) containing high (High-PL) or low (Low-PL) PL levels were tested and compared to a diet based on live prey (rotifers). The MD were supplied from 3 to 10 days post-hatch (dph) and Artemia from day 8 to 29 dph. High-PL fed larvae had higher dry mass (1.2-fold) than LowPL fed larvae at 8 dph and both MD were smaller (2.9-fold) than larvae fed live preys. However, a compensatory growth (33% between 8 and 20 dph) occurred when MD were substituted by Artemia and by the end of the trial no significant differences in mass or survival occurred between the dietary treatments. In a second trial, growth, lipid metabolism and gene expression profiles of larvae fed with MD up to 8 dph were analyzed. Growth data confirmed that mass of larvae fed with High-PL was higher (1.3-fold) than the those fed Low-PL and they had lower levels of triacylglycerol (2.8- fold), cholesterol (1.2-fold) and cetoleic acid (1.7-fold). Histological analysis indicated an excess of lipid vacuoles in larvae fed with Low-PL and the expression analysis revealed a coordinated response to enhance lipid mobilization since the expression of genes involved in PL intermediate synthesis, PL remodeling as well as eight apolipoprotein was up-regulated. The down-regulation of apolipoprotein apob2 in larvae fed with LowPL indicated a specific regulation by PL levels. The present work provides insight into the responses associated with dietary PL in early fish larvae, which will be of use for future studies aimed as designing effective larval sole diets

Crustacean amphipods from marsh ponds: a nutritious feed resource with potential for application in integrated multi-trophic aquaculture

Coastal protection, nutrient cycling, erosion control, water purification, and carbon sequestration are ecosystem services provided by salt marshes. Additionally, salt ponds offer coastal breeding and a nursery habitat for fishes and they provide abundant invertebrates, such as amphipods, which are potentially useful as a resource in aquaculture. Fishmeal and fish oil are necessary food resources to support aquaculture of carnivorous species due to their omega-3 long-chain polyunsaturated fatty acids (n-3 LC-PUFA). Currently, aquaculture depends on limited fisheries and feed with elevated n-3 LC-PUFA levels, but the development of more sustainable food sources is necessary. Amphipods appear to be a potential high quality alternative feed resource for aquaculture. Hence, a nutritional study was carried out for several main amphipod species— Microdeutopus gryllotalpa, Monocorophium acherusicum, Gammarus insensibilis, Melita palmata and Cymadusa filosa—in terrestrial ponds in the South of Spain. These species showed high protein content (up to 40%), high n-3 PUFA and phospholipid levels, and high levels of phophatidylcholine (PC), phosphatidylethanolamine (PE) and triacylglycerols (TAG), the latter being significantly high for M. acherusicum. M. gryllotalpa and M. acherusicum showed the highest proportion of lipids (19.15% and 18.35%, respectively). Isoleucine, glycine and alanine were the dominant amino acids in all species. In addition, amphipods collected from ponds showed low levels of heavy metals. Furthermore, the biochemical profiles of the five species of amphipods have been compared with other studied alternative prey. Therefore, pond amphipods are good candidates to be used as feed, and are proposed as a new sustainable economic resource to be used in aquaculture. G. insensibilis may be the best for intensive culture as an alternative feed resource because it shows: (1) adequate n-3 PUFA and PL composition; (2) high levels of glycine, alanine, tyrosine, isoleucine and lysine; (3) high natural densities; (4) large body size (1 cm), and (5) high concentration of calcium. Moreover, a combined culture of amphipods and fishes in these marsh ponds seems a promising and environmentally sustainable way to develop Integrate Multi-Trophic Aquaculture (IMTA) in these ecosystems

Growth and survival of juvenile spider crabs, Maja brachidactyla (Balss, 1922) fed with fresh and frozen mussels.

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