ALBERT

Description: In the paper "Salinity as a tool for strain selection in recirculating land-based production of Ulva spp. from germlings to adults" (Cardoso et al. 2023) it was evaluated the impact of different nutrient sources on the relative growth rates (RELATIVE GROWTH RATE) of four different Ulva strains during their adult stage. Previously to this experiment, two experiments were performed to evaluate the of germlings and adults of the four Ulva strains. Because the aim of these experiments was to reproduce the conditions of a large-scale production and a small-scale nursery, the adult material was supplemented with a cheaper commercial fertilizer Blaukorn (COMPO SANA®, Germany) while the germlings (in the nursery set-up) were supplemented with half-strength Provasoli (PES; Provasoli 1968; modifications: HEPES-buffer instead of TRIS, double concentration of Na₂Glycerophosphate; iodine enrichment following Tatewaki, 1966). Therefore, this experiment was performed to guarantee that the use of different nutrient sources would not impact the results of the former experiments. Four strains were tested (U. lacinulata and U. linza from the NE-Atlantic and U. lacinulata and U. flexuosa from the Mediterranean). The NE- Atlantic strains were collected in the Óbidos Lagoon, Portugal in January 2021 and it was cultivated in laboratory conditions in the Alfred Wegener Institute (AWI), Bremerhaven, Germany from that moment on. The Mediterranean strains belong to an AWI collection and were isolated in 1986 and 1987 (U. flexuosa and U. lacinulata, respectively). The cultivation of the Mediterranean species with the purpose of using them for experiments started in June 2021. Fresh thalli from each species and population were placed into 1 L glass beakers and subjected to one of the two treatments: water enriched with commercial fertilizer Blaukorn or with half-strength Provasoli (n = 3). The experiment ran for 3 weeks. The fresh weight was measured once a week by collecting the seaweed and removing the excess water with absorbent paper three times before weighing the samples (Sartorius, Germany). Every time, each sample was measured 3 times. Based on the fresh weight measured each week, it was possible to calculate the of each strain throughout the experiment.

Description: This study examined the growth response of juvenile turbot (Scophthalmus maximus) to diets with graded fishmeal (FM) replacement with plant, animal, and emerging protein sources (PLANT, PAP, and MIX) in comparison to a commercial-like diet (CTRL). The feeding experiment was carried out from April to July 2019 in the Centre for Aquaculture Research (ZAF) at the Alfred Wegener Institute for Polar and Marine research in Bremerhaven, Germany. The juvenile turbot (Scophthalmus maximus) were purchased from France Turbot (L'Épine, France) and acclimated to the recirculating aquaculture system (RAS) for 2 weeks prior to starting the 16 weeks experimental trial. To elucidate the effects of the protein sources and the level of FM replacement on the proximate and mineral composition of the carcass and the apparent digestibility of the diets, in this study. The chemical analysis of the diets was conducted in duplicates and of the carcass and faeces as pooled replicates per tank (n =5 tanks per diet). The carcass samples were minced frozen using a meat grinder (MADO Primus, Germany), refrozen at−20 °C and then freeze-dried for 48 h. The samples of the experimental diets and faeces were freeze-dried for 24 h. The experimental diets and whole body samples were further homogenised in a knife grinder (5000 rpm, 30 s, Grindomix GM 200, Retsch, Germany). The moisture content, ash, crude protein, crude lipid and energy of the experimental diets, carcass and faeces was determined after AOAC (1980). Moisture content of the feeds was determined by drying the samples at 105 °C for 24 h. The moisture content of the whole body and faeces was determined by freeze-drying. Total ash content was determined by combustion of the samples in a muffle oven at 550 °C for 6 h. The total nitrogen in the feed and whole body samples was determined following the automated Kjeldahl Method. Due to small sample volume in the faeces samples, the total nitrogen was determined after the Dumas method. For all samples, the measured total nitrogen was converted to equivalent crude protein (%) by the numerical factor of 6.25. Crude lipid was determined by acid hydrolysis. Gross energy was measured in an adiabatic bomb calorimeter (Model 6100; Parr Instrument, Germany). For the analysis of the mineral content, 0.2 g of freeze-dried and homogenised samples of the experimental diets, whole body and faeces was digested in 3 mL nitric acid (HNO3) (65%, trace grade) in a microwave oven (CEM MARS5, Germany) according to DIN EN 13,805 (2014). After digestion, the samples were diluted with Milli-Q water to 50 mL. Calcium, potassium, magnesium, phosphorus, arsenic, copper, iron, manganese, yttrium and zinc concentrations were analysed in an ICP-OES (iCAP7400; Fisher Scientific, Germany). As reference fish muscle (ERM – BB422, EU) was used.