Fishes

Aquaculture struggles with sustainability due to the use of fishmeal, and insects are one potential alternative. Insects have low long-chain omega−3 polyunsaturated fatty acid content, and insect-fed fish reflect this in their composition. In total, 500 rainbow trout (Oncorhynchus mykiss, ~46 g) were fed until the fish reached a commercial size (~415 g). Five diets were used: one control based on fishmeal as main source of protein; two with a 50% replacement of fishmeal with yellow mealworm meal (Tenebrio molitor), one with full-fat insect, and another partially defatted; two other diets similar to the one with the full-fat insect, but with the addition of an experimental algal oil rich in omega−3 in two different concentrations (one equivalent to control, the other one to the defatted insect diet). Growth was unaffected, as well as texture and organoleptic profile of the fillets. Lightness, brightness and colour of the fillets were slightly modified by the experimental diets. An increase in omega−3 levels over those of the full-fat insect diet is described. An omega−3 sparing effect was highlighted, causing lipid accumulation in fillets and liver, and a mild increase in oxidative damage. More research is encouraged to evaluate the fatty acid profile of the liver. Full article

Environmental challenges related to open sea cage production of Atlantic salmon have sparked interest in developing commercial-scale semi-closed sea systems for post-smolt Atlantic salmon (100–1000 g). Determining the mass-specific water flow required by post-smolts will largely influence the design and dimensioning of such systems. In this experiment, post-smolts were exposed to four levels of specific water flow: 0.2, 0.3, 0.4, and 0.5 L kg fish⁻¹ min⁻¹. All treatments involved flow-through seawater with full oxygenation, a salinity of 34‰, and a mean temperature of 9.3 °C. The stocking density was kept stable at 75 kg m⁻³. Water pH decreased with reduced flow, while partial pressure of carbon dioxide (pCO₂) and total ammonia nitrogen (TAN) in the water increased. The increase in water CO₂ was reflected in the blood with increased pCO₂, HCO₃⁻, and decreased Cl⁻ in the lowest water flow treatment (0.2 L kg fish⁻¹ min⁻¹), indicating a typical regulatory response to increased water CO₂ over the eight-week experimental period. No negative effects on osmoregulation, external macroscopic welfare, or performance indicators were observed, suggesting that within the time period of this experiment, post-smolts can compensate for reductions in water flow down to 0.2 L kg fish⁻¹ min⁻¹. However, to avoid activating and exhausting potentially energy-costly physiological regulatory mechanisms, it is suggested to keep specific water flow above 0.3 L kg fish⁻¹ min⁻¹ in large-scale operations with semi-closed sea systems at intermediate temperatures. Full article

With the purpose of improving aquaculture sustainability, the search for protein alternatives to fishmeal makes it necessary to test different variables and the possible repercussions of new ingredients. The use of insect meal as a protein source for aquaculture is well described, but the complex composition of insect meals (fat and other components) can affect the physiology of fish. For this reason, as a part of a bigger study, the aim of the current manuscript was to test diets based on three different presentations of insect meal coming from yellow mealworm (Tenebrio molitor): full fat, partially defatted, and supplemented with a long chain omega–3-enriched oil, and to evaluate their effects on protein digestibility, biometric indices, immunological system and gut health (intestinal histomorphology and microbiota) of rainbow trout (Oncorhynchus mykiss). Digestibility of the protein and body indices showed a minor but consistent trend. The non-specific immunological system did not show changes, but the histology of the intestine showed signs that insect meals could be softening a mild inflammatory response. The gut microbiota suffered several changes, which could be associated with the different amino acid and fatty acid compositions of the diets. Full article

Cortisol is the predominant corticosteroid in ray-finned fish since it does not possess the aldosterone synthase necessary to produce specific mineralocorticoids. Cortisol is traditionally believed to function as a fish mineralocorticoid. However, the effects of cortisol are mediated through corticosteroid receptors in other vertebrates, and there is an ongoing debate about whether cortisol acts through the glucocorticoid receptor (GR) or the mineralocorticoid receptor (MR) in teleosts. To investigate this issue, we conducted a study using euryhaline Mozambique tilapia (Oreochromis mossambicus) as the experimental species. The experiment was designed to investigate the effect of cortisol on ionocyte development at both the cellular and gene expression levels in tilapia. We administered exogenous cortisol and receptor antagonists, used immunohistochemistry to quantify ionocyte numbers, and performed real-time PCR to assess the expression of the differentiation factor tumor protein 63 (P63) mRNA, an epidermal stem cell marker. We observed that cortisol increased the number of Na⁺-K⁺-ATPase (NKA)-immunoactive ionocytes (increased by 1.6-fold) and promoted the gene expression of P63 mRNA (increased by 1.4-fold). Furthermore, we found that the addition of the mineralocorticoid receptor antagonist Spironolactone inhibited the increase in the number of ionocytes (decreased to the level of the control group) and suppressed the gene expression of P63 (similarly decreased to the level of the control group). We also provided evidence for gr, mr, and p63 localization in epidermal cells. At the transcript level, mr mRNA is ubiquitously expressed in gill sections and present in epidermal stem cells (cells labeled with p63), supporting the antagonism and functional assay results in larvae. Our results confirmed that cortisol stimulates ionocyte differentiation in tilapia through the MR, rather than the GR. Therefore, we provide a new direction for investigating the dual action of osmotic regulation and skin/gill epithelial development in tilapia, which could help resolve previously inconsistent and conflicting findings. Full article

Environmental salinity is an important abiotic factor that directly affects the growth, metabolism, osmoregulatory processes, and physiological performance of fish. Herein, the effects of long-term salinity stress on juvenile Pangasianodon hypophthalmus have been evaluated. Fish were allotted in five triplicate groups and exposed to five different salinities (0.0, 4.0, 8.0, 12.0, and 16.0‰) for 56 days. After exposure, the final weight, weight gain percent, and specific growth rate were significantly decreased in groups reared in 8‰, 12‰, and 16‰ salinities. The feed intake was also significantly reduced in groups raised in water salinities of 12‰ and 16‰ compared with other groups. Conversely, the feed conversion ratio values were significantly increased in groups reared in water salinities between 8‰ and 16‰ compared with other groups. The lowest survival rates were observed in groups reared at salinities of 12‰ and 16‰ (91.1% and 77.8%, respectively). Body moisture (%) was significantly decreased, while crude protein and crude lipids (%) were significantly increased in groups exposed to salinities ranging from 8.0‰ to 16.0‰. Stress biomarkers (such as blood glucose, lactate, and cortisol levels) and oxidative stress indicators (such as carbonyl proteins, malondialdehyde (MDA), superoxide dismutase (SOD), catalase (CAT), and glutathione peroxidase (GPX)) were significantly increased in groups exposed to different salinities compared with the control group, and their highest levels were in the group exposed to 16‰ salinity. The histoarchitectural changes were different among groups in relation to the salinity level. Moreover, the scored histopathological lesions showed a significant increase in groups exposed to different salinities compared with the control, and the highest scores were reported in groups exposed to the highest salinities (12‰ and 16‰). Based on the fitting curves, the present study suggests that P. hypophthalmus could tolerate salinities up to 8.0‰ with no mortalities; however, 4‰ salinity was more suitable with no adverse effects on the growth and little impact on histology and physiological responses. Full article

To induce oocyte development, eels are weekly injected with salmon or carp pituitary extract (CPE). The weekly handling and hormone peaks result in inferior oocyte quality; therefore, alternative treatments that improve oocyte quality and reproductive success require investigation. The enhancement of early sexual maturation by a single injection with human chorionic gonadotropin (hCG), administered prior to CPE treatment, was investigated. Fifty feminized eels were subjected to simulated migration, after which eels received either a hCG or a sham injection. After two months, the hCG-treated eels showed an increase in eye size, gonadosomatic index (GSI), and plasma 11-ketotestosterone concentration, when compared with the sham-injected controls. The hCG-treated eels showed increases in oocyte diameter and lipid area, and in ovarian expression of aromatase (cyp19), follicle stimulating hormone receptor (fshr) and lipoprotein lipase (lpl). Yolk was present in the oocytes of the hCG-treated eels, not yet in the oocytes of the controls. The hCG-induced deposition of yolk may relate to early-life treatment with 17β-estradiol during feminization. hCG-treated eels required four CPE injections less to mature than the controls. hCG treatment may benefit reproductive success in feminized eels by initiating vitellogenesis and reducing the hypophysation period, although larvae were obtained from most females in both groups. Full article

Copper is a common component of industrial heavy metal waste and a major component of some fish medicines, which can cause oxidative stress and damage the health of farmed fish. The Nrf2 signaling pathway is an important pathway related to the oxidative stress on vertebrates. Exploring the effect of copper on the Nrf2 signaling pathway in fish hepatocytes would help improve the understanding of the molecular mechanism of antioxidants in fish hepatocytes and provide theoretical data for relevant toxicological research. Adult tilapia were cultured under properly controlled conditions for two weeks to adapt to laboratory culture conditions. Primary tilapia hepatocytes were obtained by cell culture. MTT (3-[4,5-dimethylthiazol-2-yl]-2,5 diphenyl tetrazolium bromide) assay was used to detect the effect of copper ions on the viability of tilapia hepatocytes. The lipid peroxidation level (MDA) and antioxidant ability of tilapia hepatocytes (SOD and CAT activity) were detected. Quantitative PCR (qPCR) was used to detect the differential expression of each gene (Nrf2, Keap1a, Keap1b, CuZnSOD, MnSOD, HO-1, and GSTA) in the Nrf2 signaling pathway. The results suggested that after treatment with 100 μM copper ions for 4 h, 8 h, and 24 h, the viability of hepatocytes significantly decreased (p < 0.05). LDH and MDA after 8 h and 24 h treatment were significantly higher than those in the control group (p < 0.05). CAT activity significantly decreased after 4 h (p < 0.05), and SOD activity significantly decreased after 8 h and 24 h (p < 0.05). The results of qPCR showed that the expression of MnSOD significantly increased after a treatment with copper ions for 4 h, and the expression of Nrf2, Keap1a, CuZnSOD, HO-1 as well as GSTA significantly increased after a treatment with copper ions for 8 h, compared with the control group (p < 0.05). After being treated with copper ions for 24 h, the expression of Nrf2 and CuZnSOD significantly increased compared with the control group (p < 0.05). There was no significant difference in the expression of Keap1b or CAT at each time point. In conclusion, with copper ions exposure, the viability of tilapia hepatocytes was reduced, causing lipid peroxidation, a reduction in the antioxidant capacity of cells, the activation of the Nrf2 signaling pathway, and the increase in the expression of most genes in this pathway, which are defensive responses of hepatocytes to oxidative stress caused by copper ions. This study can provide theoretical data for related toxicological research. Full article

The European eel Anguilla anguilla is a critically endangered catadromous species. There is an urgent need for close surveillance of the populations that are still viable in European rivers. The species is difficult to observe in freshwater because of its bottom-dwelling behavior; the currently employed methods of eel monitoring in Europe based on the physical capture of individuals are stressful and may cause mortality. Here, we present a new highly sensitive method based on an A. anguilla-specific qPCR marker designed within the cytochrome oxidase I mitochondrial gene for application on environmental DNA (eDNA). Since the detectability of eDNA depends on the hydrographic conditions, we applied correction for altitude and a linear model and were able to predict the eel biomass from the eDNA in the different rivers of northern Spain still holding wild populations. The method was validated by electrofishing surveys. This novel eDNA-based marker allows for estimating the European eel biomass in running waters from small 1.5 L water samples and could complement, or replace in some cases, current eel surveys without disturbing wild populations. Full article

The sea urchin is a very important aquatic economic organism in many countries and has high food value. However, it has recently been heavily fished, and it would be of great importance to the sustainable development of coral reefs to develop large-scale aquaculture of sea urchins. Sea urchins are prone to death during larval development. Therefore, in this study, three kinds of microalgae were used as the initial food for sea urchins to evaluate whether different kinds of microalgae can improve their survival and growth rates. Chaetoceros muelleri (C), Isochrysis galbana tml (I), and Dunaliella salina (D) were fed to A. crassipina at concentrations of 5000, 10,000, 20,000, and 30,000 cell mL⁻¹. A fasted group was used as control (N). The final body length, final body width, final stomach length, rudiment length, survival rate and morphology were measured to evaluate development and growth. The results showed that feeding with C. muelleri resulted in better growth and survival. After 9 days of feeding with C(20,000 cells mL⁻¹), the rudiment length reached 203.33 ± 12.47 µm. The onset of metamorphosis was observed 12 days post-feeding. The survival rate after feeding C was also significantly higher than that after feeding I and D. In summary, when sea urchins are breeding, it is recommended to choose C(20,000 cells mL⁻¹) or C(30,000 cells mL⁻¹) as the initial feed for larvae to increase the growth and survival of sea urchin seedlings. Full article

Antarctica is the most extreme continent of Earth, with strong winds, freezing temperatures on land, and ocean temperatures constantly below 0 °C. Nonetheless, the Antarctic Ocean is home to an astounding diversity of living organisms that adapted to the multiple challenges posed by this environment via a diverse set of evolutionary traits. Although the recent advancements in sequencing technologies clarified the molecular bases of such adaptations in Antarctic fishes, little information is available for Antarctic invertebrates. In this preliminary study, we address this knowledge gap with a comparative transcriptomic approach to obtain insights into some of the adaptations that allow the Antarctic scallop Adamussium colbecki to survive and thrive in the freezing waters of the Antarctic Ocean. Despite some limitations, our analyses highlighted significant over-expression of genes involved in regulation of mRNA transcription, maturation, and degradation, which might compensate for a reduced efficiency of these processes at low temperatures. Other alterations detected in the Antarctic scallop transcriptome include enhanced expression of genes that regulate degradation of misfolded protein products and allow maintenance of cytoskeletal structure and function at subzero temperatures. Altogether, these observations support the presence of multiple previously unreported molecular adaptive traits in A. colbecki, which have important implications for our understanding of adaptation of this important component of the Antarctic trophic chain to such an extreme, but stable environment. Full article

Pre-harvest male maturation is problematic for Atlantic salmon (Salmo salar) farmers and is regulated by the environment and genetics (e.g., vgll3). Five families of all-male salmon parr (produced using YY males crossed with XX females) with different vgll3 genotypes were split between three environmental regimes in January 2018. The “advanced maturation” regime used elevated temperature (16 °C) and continuous light from January 2018 with post-smolt maturation assessed in March 2018. The “extended freshwater” regime used ambient freshwater (1–16 °C) and simulated natural photoperiod (SNP) with post-smolt maturation assessed in November 2018. The “sea transfer” regime used ambient temperatures (1–14 °C) and SNP in freshwater until May 2018 when they were transferred to 9 °C seawater with natural photoperiod for 2.5 years (final mean weight of circa. 14 kg) and assessed for post-smolt maturation, 1 sea-winter (1 SW) maturation, and 2 sea-winter (2 SW) maturation in the autumn (November/December) of 2018, 2019, and 2020, respectively. Post-smolt maturation was highest in the advanced maturation and extended freshwater regimes (39–99% depending on family) and lowest in the sea transfer regime (0–95% depending on family). In the sea transfer regime, maturity incidence increased over time (0–95% post-smolt maturation, 1–100% 1 SW, and 50–90% 2 SW maturation, depending on family). In all regimes, those homozygous for the pre-designated vgll3 “early” maturing allele had the highest incidences of maturation whilst those homozygous for the “late” allele had the lowest. A low percentage of 2 SW phenotypic and genetic females were found (0–5% depending on family), one of which was successfully crossed with an XY male resulting in progeny with an approx. 50/50 sex ratio. These results show (i) post-smolt maturation varies dramatically depending on environment although genetic regulation by vgll3 was as expected, and (ii) crossing YY sperm with XX eggs can result in XX progeny which can themselves produce viable progeny with an equal sex ratio when crossed with an XY male. Full article

The coastal waters of French Guiana are amongst the most turbid and nutrient rich in the world, and as such, they favour the settlement and early development of several species of marine fish. Recent work has revealed a high abundance of Atlantic Goliath Grouper (Epinephelus itajara) in these waters, yet little is known about this species’ reproductive biology, which this study aims to complement. During the period from 2010 to 2013, we surveyed Goliath Grouper at three rocky sites along the French Guiana coast and examined 602 individuals for evidence of maturation. Satellite tags were deployed on five individuals and an acoustic survey was conducted to identify potential spawning movements and activity. We found no evidence of sexually active individuals or local spawning aggregations. Most individuals showed high site fidelity, but one fish was located 1150 km away, near Trinidad and Tobago. We discuss these findings in the context of the wider literature and postulate that Goliath Grouper inhabiting French Guiana reefs originate from spawning sites in northern Brazil and disperse to westerly reefs with the onset of maturity. We propose that the Goliath Grouper populations of South America and Caribbean are linked, and that management of Brazilian source populations could have wide-reaching impacts on Goliath Grouper stocks. Full article

Mozambique tilapia Oreochromis mossambicus (Peters, 1852), an important aquaculture species investigated herein, is at risk and listed as vulnerable on the IUCN Red List. During a preliminary survey conducted in 2011, 30 Mozambique tilapia from Lake Urema in Gorongosa National Park in central Mozambique, were examined for metazoan parasites. Two groups of ectoparasites were recovered consisting of two species of copepods and a monogenean. Endoparasites retrieved were in the larval stage and included one trematode and one nematode species. This study provides new parasite records for O. mossambicus in Mozambique and forms a baseline for monitoring against the presence of ichthyoparasites associated with the introduction in neighbouring systems of non-native fish such as Nile tilapia Oreochromis niloticus (Linnaeus, 1758), a fish of worldwide importance in capture fisheries and especially aquaculture. Full article

In a context in which climate change, overexploitation, and environmental degradation are continuously progressing, the sustainable use of the sea is a key target, both for resources and fishery operators. With the aim of enhancing the sustainability and competitiveness of the entire fishery sector, an innovation brokering event was organized. Via the application of a participatory, interactive, and bottom-up approach, different actors in the Italian SSF sector were stimulated to work together to find innovative solutions to day-by-day problems. During the consultation, and between the identified problems, emerged the lack of cooperation for marketing activity and effective strategies for seafood product development. A pilot action consisting in co-designing a virtual marketplace (VirMa) was the result of the event, intending to facilitate the direct sale of seafood products, explore this new and valuable market, and establish a direct line with consumers. The VirMa application was developed as a value chain network, trying to add value to seafood products. However, an information and communication tool, such as a VirMa, could contribute to increasing the resilience of the SSF sector to market constraints even during unforeseen events, such as a pandemic. Full article

Chondrichthyes (including sharks, rays, and chimaeras) are a class of jawed cartilaginous fishes (with skeletons composed primarily of cartilage), with major relevance to the marine ecosystems and to humanity. However, cartilaginous fishes are facing various threatens, inflicting abrupt declines in their populations. Thus, critical assessment of available molecular genetic variation, particularly retrieved from Chondrichthyans’ transcriptomic analyses, represents a major resource to foster genomics research in this ancient group of vertebrate species. Briefly, RNA-Seq involves the sequencing of RNA strands present on a target tissue, which can assist genome annotation and elucidate genetic features on species without a sequenced genome. The resulting information can unravel responses of an individual to environmental changes, evolutionary processes, and support the development of biomarkers. We scrutinized more than 800 RNA-Seq entries publicly available, and reviewed more than one decade of available transcriptomic knowledge in chondrichthyans. We conclude that chondrichthyans’ transcriptomics is a subject in early development, since not all the potential of this technology has been fully explored, namely their use to prospectively preserve these endangered species. Yet, the transcriptomic database provided findings on the vertebrates’ evolution, chondrichthyans’ physiology, morphology, and their biomedical potential, a trend likely to expand further in the future. Full article

Cantharidin, a toxic monoterpene secreted by blister beetles, has long been used in traditional Chinese and modern medicine for its unique properties. However, despite its widespread use, its effects on fish have not been studied. The aim of this study was to evaluate the potential therapeutic applications of cantharidin in fish by examining its antioxidant, hemagglutinating, hemolytic, and cytotoxic activities at different concentrations (0, 0.625, 1.25, 2.5, 5, and 10 μg mL⁻¹) in three different cell lines. In addition, the study explored the bactericidal and bacteriostatic properties of cantharidin against various fish pathogenic bacteria. The results revealed that there were no significant differences in antioxidant, hemagglutinating, or hemolytic activities between the different concentrations of cantharidin tested. However, the study found that cantharidin exhibited dose- and time-dependent cytotoxicity in seabream (Sparus aurata) erythrocytes and in SAF-1, PLHC-1, and Hela cell lines, resulting in morphological changes indicative of apoptosis. Interestingly, the highest dose of cantharidin tested demonstrated potent bactericidal activity against four marine fish opportunistic bacteria, including Vibrio harveyi, V. anguillarum, Photobacterium damselae, and Tenacibaculum maritimum, but no statistically significant changes in bacteriostatic activity were observed against any of the bacteria tested. Overall, these results provide valuable information on the potential therapeutic applications of cantharidin in fish aquaculture. Further research is needed to fully understand the mechanisms of action and to explore possible preventive uses of cantharidin in fish. Full article

The weight–length relationship (WLR) of fish is a crucial tool in fish biology research and has received extensive attention. However, fish growth is influenced by many factors, and the WLR also changes accordingly. Our aim was to investigate how fish body shape is affected by various factors by analyzing the existing parameters of the relationship between fish body length and weight. We analyzed 198,354 fish specimens belonging to 402 species of 82 families in China and investigated the change of fish body shape in the function of their ecology. Herbivorous fish tended to be shorter and fatter than carnivorous fish, and omnivorous fish fall somewhere in between. This difference could be due to variations in feeding habits and the availability of food sources. Additionally, fish living in lentic waters tended to have a shorter and fatter body shape compared to those living in lotic waters. This could be attributed to differences in swimming behavior in these environments. Furthermore, our results showed that the b value decreased as altitude increased, and fish tended to be thinner and longer due to lower oxygen and temperature levels in high-altitude waters. Overall, our study provides valuable insights into the WLR of fish and the impact of multiple factors on fish body shape. Full article

The identification of sustainable materials as an alternative to plastic is fundamental for the protection of the environment and for the safeguard of marine ecosystems. The replacement of plastic with organic materials for fish storage might affect its shelf-life due to the high concentration of oxidizable fatty acids in fish flesh. This study investigated the effectiveness of two organic packaging materials, namely coconut fiber (Coc) and paper (Pap), as alternatives to the conventionally used polystyrene (Pol), on the shelf-life, hygienic parameters, and quality traits of anchovies refrigerated for one (T0), three (T1), or seven (T2) days. The hygienic quality of anchovies packaged in the organic Pap and Coc boxes was better than the traditional Pol, probably due to the higher porosity of the packaging, which allows a higher bacterial proliferation. Results of the T-BARS test showed a lower (p < 0.05) malondialdehyde concentration in fillets from the Pap group, which increased (p < 0.05) from the first to the seventh day of storage. The polyunsaturated fatty acids concentration did not differ between groups, but it decreased (p < 0.05) from T0 to T2. Coconut fiber and paper are worthy of further investigation since these packaging materials did not affect the shelf-life and fatty acid profile of anchovies during storage. Full article