Identification of Sex and Female’s Reproductive Stage in Commercial Fish Species through the Quantification of Ribosomal Transcripts in Gonads

The estimation of maturity and sex of fish stocks in European waters is a requirement of the EU Data Collection Framework as part of the policy to improve fisheries management. On the other hand, research on fish biology is increasingly focused in molecular approaches, researchers needing correct identification of fish sex and reproductive stage without necessarily having in house the histological know-how necessary for the task. Taking advantage of the differential gene transcription occurring during fish sex differentiation and gametogenesis, the utility of 5S ribosomal RNA (5S rRNA) and General transcription factor IIIA (gtf3a) in the molecular identification of sex and gametogenic stage was tested in different economically-relevant fish species from the Bay of Biscay. Gonads of 9 fish species (, Atlantic, Atlantic-chub and horse mackerel, blue whiting, bogue, European anchovy, hake and pilchard and megrim), collected from local commercial fishing vessels were histologically sexed and 5S and 18S rRNA concentrations were quantified by capillary electrophoresis to calculate a 5S/18S rRNA index. Degenerate primers permitted cloning and sequencing of gtf3a fragments in 7 of the studied species. 5S rRNA and gtf3a transcript levels, together with 5S/18S rRNA index, distinguished clearly ovaries from testis in all of the studied species. The values were always higher in females than in males. 5S/18S rRNA index values in females were always highest when fish were captured in early phases of ovary development whilst, in later vitellogenic stages, the values decreased significantly. In megrim and European anchovy, where gonads in different oogenesis stages were obtained, the 5S/18S rRNA index identified clearly gametogenic stage. This approach, to the sexing and the quantitative non-subjective identification of the maturity stage of female fish, could have multiple applications in the study of fish stock dynamics, fish reproduction and fecundity and fish biology in general.

Waste minimisation in fishing operations

Sources of wastes in fishing operations mainly include bycatch discards; processing wastes where catch is processed onboard; plastic wastes due to abandoned, lost and discarded fishing gear; bilges and other wastes from the vessel operations. Fishing systems in general have an associated catch of nontargeted organisms known as bycatch. Non-selective fishing gear that is not modified or equipped to exclude non-targeted organisms, may take a significant quantity of bycatch of non-targeted finfish, juvenile fish, benthic animals, marine mammals, marine birds and vulnerable or endangered species that are often discarded. Average annual global discards, has been estimated to be 7.3 million t, based on a weighted discard rate of 8%, during 1992-2001 period. Trawl fisheries for shrimp and demersal finfish account for over 50% of the total estimated global discards. Plastic materials are extensively used in fisheries, owing to their durability and other desirable properties, contributing to the efficiency and catchability of the fishing gear. However, plastics biodegrade at an extremely slow rate compared to other organic materials. Abandoned, lost or otherwise discarded fishing gear (ALDFG) and related marine debris have been recognized as a critical problem in the marine environment and for living marine resources. Prevention of excess fishing capacity by appropriate management measures could lead to enormous savings in terms of fuel consumption, emissions and bycatch discards from the excess fishing fleet, capital and operational investments and labour deployment in capture fisheries, with significant economic gains. In this paper, wastes originating from fishing operations are reviewed, along with their environmental impacts and possible mitigation measures

Quantification of drag and lift imposed by pop-up satellite archival tags and estimation of the metabolic cost to cownose rays (Rhinoptera bonasus)

The recent development of the pop-up satellite archival tag (PSAT) has allowed the collection of information on a tagged animal, such as geolocation, pressure (depth), and ambient water temperature. The success of early studies, where PSATs were used on pelagic fishes, has spurred increasing interest in the use of these tags on a large variety of species and age groups. However, some species and age groups may not be suitable candidates for carrying a PSAT because of the relatively large size of the tag and the consequent energy cost to the study animal. We examined potential energetic costs to carrying a tag for the cownose ray (Rhinoptera bonasus). Two forces act on an animal tagged with a PSAT: lift from the PSATs buoyancy and drag as the tag is moved through the water column. In a freshwater flume, a spring scale measured the total force exerted by a PSAT at flume velocities from 0.00 to 0.60 m/s. By measuring the angle of deflection of the PSAT at each velocity, we separated total force into its constituent forces — lift and drag. The power required to carry a PSAT horizontally through the water was then calculated from the drag force and velocity. Using published metabolic rates, we calculated the power for a ray of a given size to swim at a specified velocity (i.e., its swimming power). For each velocity, the power required to carry a PSAT was compared to the swimming power expressed as a percentage, %TAX (Tag Altered eXertion). A %TAX greater than 5% was felt to be energetically significant. Our analysis indicated that a ray larger than 14.8 kg can carry a PSAT without exceeding this criterion. This method of estimating swimming power can be applied to other species and would allow a researcher to decide the suitability of a given study animal for tagging with a PSAT.

Neutralização compensatória de carbono: estudo de caso em uma indústria do setor metal-mecânico.

Estudos têm mostrado que a intensificação do efeito estufa nos últimos anos vem ocasionando um aumento do aquecimento global com reflexos no clima que, por conseguinte, podem comprometer a vida no planeta. Tal intensificação se dá em função do acréscimo na concentração dos gases de efeito estufa proveniente de atividades antrópicas. Esta pesquisa visa quantificar a contribuição das emissões de gases do efeito estufa, lançados por uma empresa do setor metal-mecânico, situada no município do Rio de Janeiro RJ, além de propor cenários nos quais tais emissões podem ser compensadas. A quantificação foi concretizada através da utilização de metodologia elaborada pelo IPCC. A proposta de compensação das emissões se deu através da substituição de combustíveis utilizados em veículos, implantação de produção de energia por sistema fotovoltaico, biodigestão de efluentes domésticos e reflorestamento. A justificativa da pesquisa baseia-se na contribuição para a mitigação da intensificação do efeito estufa, do aquecimento global e das mudanças climáticas, o que conseqüentemente pode colaborar para a conservação da vida na Terra. Do total de emissões lançadas na atmosfera pela empresa em estudo, no ano de 2008, foi obtido um valor de 422 toneladas de CO2 equivalente, sendo 177 toneladas pelo consumo de combustíveis dos meios de transporte, 87 toneladas pelos resíduos gerados, 2,2 toneladas pelos efluentes gerados, 8,81 toneladas por consumo de energia elétrica e 148 toneladas por processos industriais internos. No cenário onde se contempla as medidas mitigadoras, tais emissões são reduzidas a 349 toneladas de CO2 equivalente. Caso seja empregado o reflorestamento como única forma de neutralização total de emissões da empresa em estudo, faz-se necessária a recuperação vegetal de uma área com 1,33 hectares de extensão. Esta alternativa pode se mostrar vantajosa em curto prazo por não acarretar maiores modificações na rotina dos processos industriais. No entanto, caso a Metal Master opte apenas pelo reflorestamento e mantenha o padrão de emissões semelhante ao ano de 2008, ao longo dos anos, será necessária uma vasta extensão de território reflorestado em relação aos valores pré-estabelecidos. Este fato denota a importância de modificações no ambiente industrial, de modo a permitir a neutralização em longo prazo.