Roadmap to sustainably develop the European seaweed industry

How to build a sustainable seaweed industry is important in Europe’s quest to produce 8 million tons of seaweed by 2030. Based on interviews with industry representatives and an expert-workshop, we developed an interdisciplinary roadmap that addresses sustainable development holistically. We argue that sustainable practices must leverage synergies with existing industries (e.g. IMTA systems, offshore wind farms), as the industry develops beyond experimental cultivation towards economic viability

Genes associated with cell modelling provides new insights into spermiation mechanism in Cyprinus carpio

Spermiation, an act of sperm release, depends on several molecular factors. Despite hormonal administration, spermiation failure is a primary concern in certain fishes. In this study, the molecular mechanisms of spermiation have been analyzed in Cyprinus carpio by comparative transcriptomics. Unigenes for C. carpio control (CCC), which were injected with PBS (Phosphate-buffered saline), and C. carpio treated (CCT), which were injected with ovatide, were 107,616 and 133,435, respectively. A total of 93 genes were identified as involved in the spermiation process, including those related to gonadal steroidogenesis, cell growth, cell adhesion, and cytoplasmic matrix formation. The cd63, CENPS, rasa1a, and genes for gonad steroidogenesis, cell growth, cell adhesion, and cytoplasmic matrix formation were analyzed. Gene expression analysis revealed tubulobulbar complexes mediated disengagement of spermatozoa and JAK2 signaling regulated cyst breakage in teleost for the first time. Analysis was done from the changes at the molecular level to the final act of spermiation. Tissue histology analysis was conducted in accordance with the molecular study, which showed structural changes. Induced breeding in fish plays a key role in seed production in aquaculture sector. However, there are several constraints the sector is still facing due to lack of extensive knowledge regarding the mechanisms of spermiation and species-specific response to hormonal dosage. This study is relevant to understand the molecular mechanisms involved in spermiation and the stages which mark as critical point of sperm release after administrating the inducing agent. This study also lays the groundwork for further exploration of species-specific responses to hormonal treatments, aiding sustainable seed production in the fisheries sector

Effect of vegetable oil on ovarian steroidogenesis- A transcriptome approach to understand molecular mechanisms of hypothalamus pituitary and gonad axis (HPG) in Ompok bimaculatus.

Ompok bimaculatus is a commercially important food fish of Northeast India. For higher production of this species, the molecular mechanisms underlying its reproductive physiology is an important aspect to study. Vegetable oils are rich in ω3 and ω6 fatty acids and fat-soluble vitamins, that enhance reproductive performances. In the present study, O. bimaculatus were first fed with vegetable oil at 3, 5, 7 and 9% in the diet. The best treatment was determined by the analysis of relative fecundity, fertilisation rate, Gonadosomatic Index (GSI) and Hepatosomatic Index (HIS). Comparative transcriptomics analysis of gonadal tissues between control and best treatment was done using Illumina NextSeq500. The bioinformatics analysis by Trinity v2.11.0 and edgeR v3.32.1 identified 36 DEGs related to reproduction, those were later validated by qPCR analysis. The Differentially Expressed Genes (DEGs) revealed, regulation of Hypothalamic-pituitary-gonadal axis (HPG) axis through retinoid signalling pathway, IGF pathway and folliculogenesis pathway, including inhibitory effects of dietary vegetable oil on fish gonadal maturation

Stocking density affects immune and stress-related gene expression of Butter catfish (Ompok bimaculatus) fry in biofloc landscapes

Scientific research into fish wellness is critical, and the concerns about crowding-related stress due to increased stocking density are inevitable. Taking this into consideration, the study defines the physiological signature of Ompok bimaculatus (Butter catfish) in a biofloc system when subjected to varying levels of stocking density. Fish (mean weight = 1.21 g ± 0.08, n = 600) were randomly stocked in 40-L glass aquaria at stocking densities of 0.5 g/L (T1), 1 g/L (T2), 1.5 g/L (T3), and 2 g/L (T4) and fed a 35% protein diet. After the 90-day trial, the physio-biochemical, molecular, and tissue-level changes were assessed. An integrated biomarker response (IBR) analysis for the key stress indicators aided us in better understanding them. There was a significant difference in blood count between T1 and T4 (total erythrocyte count, hemoglobin, and packed cell volume). T1 had higher levels of globulin and total plasma protein, but T2 had higher levels of albumin. Only in T1 did the respiratory burst and lysozyme activity appear to be higher (p < 0.05). Increased stocking densities had a significant impact on the liver function enzymes, GOT and GPT (p < 0.05). In comparison to lower densities (T1 &amp; T2), higher stocking density (T3 &amp; T4) was found to raise glucose and cortisol levels (p < 0.05). Antioxidant enzymes such as catalase, glutathione-S-transferase, and malondialdehyde were found to be more pronounced in lower density tissues (T1). Furthermore, the IBR plots show that lower densities have better health than higher densities. At higher stocking densities, mRNA expression of HSP70, IL-1, and IL-20 increased (p < 0.05) in kidney and liver tissues. The Nrf-2 and Tlr-9 genes were also upregulated. Also, when stocking density was increased, tissue-level histo-architectural changes were more pronounced than when stocking density was kept low. The findings of this study show that the welfare of Butter catfish cultured at high density in biofloc systems suffers from severe stress, and therefore draw more attention to the development of a species-specific standard rearing methodology in the pursuit of a profitable aqua-farming enterprise

Roadmap to sustainably develop the European seaweed industry

Abstract How to build a sustainable seaweed industry is important in Europe’s quest to produce 8 million tons of seaweed by 2030. Based on interviews with industry representatives and an expert-workshop, we developed an interdisciplinary roadmap that addresses sustainable development holistically. We argue that sustainable practices must leverage synergies with existing industries (e.g. IMTA systems, offshore wind farms), as the industry develops beyond experimental cultivation towards economic viability