6 research outputs found

    Estrutura de comunidades de peixes, amostradas por SVSI - sistema de vídeo subaquático iscado, na Costa Sul de Portugal

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    Desenvolveu-se um Sistema de Vídeo Submerso Iscado (SVSI) viavelmente adaptado para caracterizar comunidades de peixes do substrato rochoso subtidal (forma não-destrutiva e não-invasiva), entre 5 e 50 metros, na costa sul de Portugal (Algarve). Entre Junho e Julho de 2013, amostraram-se 15 pontos na zona Greta (Praia de Faro), divididos em 3 Amostragens (A1, A2, A3) com isco sardinha, mexilhão e sem isco. Captaram-se foto-sequências de intervalo 1 segundo durante 60 minutos e as imagens resultantes processadas qualitativa e quantitativamente para obtenção de resultados. Registaram-se 32 espécies no total. Os tempos de entrada do 1º indivíduo de cada espécie permitiram aferir 30 minutos máximos de filmagem SVSIs para resultados viáveis, enquanto abundâncias por número de indivíduos comprovaram o isco sardinha como mais eficaz e com maior poder atrativo (do que mexilhão). As espécies Coris julis, Diplodus vulgaris, Diplodus cervinus, Diplodus sargus e Serranus cabrilla foram as mais interventivas no estudo, cujo intervalo de tempo entre contagens se adequou em 30 segundos. O estudo de índices de abundâncias e Nmax mostraram não existirem diferenças entre as comunidades ictiológicas de cada tipo de iscagem, contudo existem diferenças dentro da comunidade geral em si do substrato rochoso. A análise alimentar pelo menor tempo de 1ª alimentação indicou Coris julis, Diplodus vulgaris, Serranus cabrilla e Octopus vulgaris como as espécies mais rápidas a morder os iscos. No geral, 69% das espécies preferiram isco sardinha. Comportamentos como a passagem esporádica, territorialidade e interações com a câmara foram as ações dominantes na análise comportamental. Esta técnica e respetiva metodologia foram o primeiro estudo do género nesta região, que de forma simples, se mostrou uma boa ferramenta metodológica para estudos marinhos sobre comunidades, suas preferências alimentares, abundâncias e tempos de reação, aconselhando-se o seu desenvolvimento tecnológico e melhoramento metodológico analítico dos resultados no futuro

    Control of zootechnology leads to improved Cuttlefish (Sepia officinalis, L.) reproduction performance up to pre-industrial levels

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    Cephalopods are gaining momentum as an alternate group for aquaculture species diversification, not only because they are a good food source (highly appreciated in some worldwide markets) but they also have the potential to quickly reach a market size. However, there are some bottlenecks impeding the transition of culture technology from the laboratory to industry. One is related to control over reproduction in captivity. The objective of the present experiment was to verify the effects of tanks with different bottom areas/volumes on the reproduction performance of S. officinalis breeding stocks, when sex ratios were controlled a priori; and the food cost associated with such performance when individuals are fed a natural frozen diet. One hundred and ninety two juvenile cuttlefish were used to compare three different round-shaped tanks: one type with 3000L volume and two types with 9000L volume (with differences in bottom areas and water column). Individuals had their sex and maturity stage determined to establish a sexual ratio of 2 female:1 male per tank and assure that cuttlefish were still immature. Biological data was collected during both growth and reproduction stages and until the death of all females in each tank. The experiment lasted nearly 300 days. Temperature differences between tank types were registered during both stages. The optimizing of rearing conditions has allowed for higher growth and a higher amount of cuttlefish available for breeding purposes. A total of 123,751 eggs (in 85 batches) was obtained during this experiment, which is a number that may meet a small scale cuttlefish commercial hatchery facility requirements. The present conditions contributed to a better and predictable reproduction performance in specific 9000L tanks, with values reaching pre-industrial numbers (approximate to 24,000 eggs/tank). Moreover, both the amount of eggs per batch and the overall quality of eggs has increased. Three of these 9000L tanks have an overall consumption of approximate to 38.64 Kg tank(-1), which translates in an investment in feed of approximate to 193 (sic) tank(-1), 8.40 (sic) per cuttlefish and an overall daily tank expense of 1.76 (sic) d(-1).info:eu-repo/semantics/publishedVersio

    The significance of cephalopod beaks as a research tool: An update

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    The use of cephalopod beaks in ecological and population dynamics studies has allowed major advances of our knowledge on the role of cephalopods in marine ecosystems in the last 60 years. Since the 1960's, with the pioneering research by Malcolm Clarke and colleagues, cephalopod beaks (also named jaws or mandibles) have been described to species level and their measurements have been shown to be related to cephalopod body size and mass, which permitted important information to be obtained on numerous biological and ecological aspects of cephalopods in marine ecosystems. In the last decade, a range of new techniques has been applied to cephalopod beaks, permitting new kinds of insight into cephalopod biology and ecology. The workshop on cephalopod beaks of the Cephalopod International Advisory Council Conference (Sesimbra, Portugal) in 2022 aimed to review the most recent scientific developments in this field and to identify future challenges, particularly in relation to taxonomy, age, growth, chemical composition (i.e., DNA, proteomics, stable isotopes, trace elements) and physical (i.e., structural) analyses. In terms of taxonomy, new techniques (e.g., 3D geometric morphometrics) for identifying cephalopods from their beaks are being developed with promising results, although the need for experts and reference collections of cephalopod beaks will continue. The use of beak microstructure for age and growth studies has been validated. Stable isotope analyses on beaks have proven to be an excellent technique to get valuable information on the ecology of cephalopods (namely habitat and trophic position). Trace element analyses is also possible using beaks, where concentrations are significantly lower than in other tissues (e.g., muscle, digestive gland, gills). Extracting DNA from beaks was only possible in one study so far. Protein analyses can also be made using cephalopod beaks. Future challenges in research using cephalopod beaks are also discussed.info:eu-repo/semantics/publishedVersio

    The significance of cephalopod beaks as a research tool: An update

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    The use of cephalopod beaks in ecological and population dynamics studies has allowed major advances of our knowledge on the role of cephalopods in marine ecosystems in the last 60 years. Since the 1960’s, with the pioneering research by Malcolm Clarke and colleagues, cephalopod beaks (also named jaws or mandibles) have been described to species level and their measurements have been shown to be related to cephalopod body size and mass, which permitted important information to be obtained on numerous biological and ecological aspects of cephalopods in marine ecosystems. In the last decade, a range of new techniques has been applied to cephalopod beaks, permitting new kinds of insight into cephalopod biology and ecology. The workshop on cephalopod beaks of the Cephalopod International Advisory Council Conference (Sesimbra, Portugal) in 2022 aimed to review the most recent scientific developments in this field and to identify future challenges, particularly in relation to taxonomy, age, growth, chemical composition (i.e., DNA, proteomics, stable isotopes, trace elements) and physical (i.e., structural) analyses. In terms of taxonomy, new techniques (e.g., 3D geometric morphometrics) for identifying cephalopods from their beaks are being developed with promising results, although the need for experts and reference collections of cephalopod beaks will continue. The use of beak microstructure for age and growth studies has been validated. Stable isotope analyses on beaks have proven to be an excellent technique to get valuable information on the ecology of cephalopods (namely habitat and trophic position). Trace element analyses is also possible using beaks, where concentrations are significantly lower than in other tissues (e.g., muscle, digestive gland, gills). Extracting DNA from beaks was only possible in one study so far. Protein analyses can also be made using cephalopod beaks. Future challenges in research using cephalopod beaks are also discussed

    Reversion to developmental pathways underlies rapid arm regeneration in juvenile European cuttlefish, Sepia officinalis (Linnaeus 1758)

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    Coleoid cephalopods, including the European cuttlefish (Sepia officinalis), possess the remarkable ability to fully regenerate an amputated arm with no apparent fibrosis or loss of function. In model organisms, regeneration usually occurs as the induction of proliferation in differentiated cells. In rare circumstances, regeneration can be the product of naive progenitor cells proliferating and differentiating de novo. In any instance, the immune system is an important factor in the induction of the regenerative response. Although the wound response is well-characterized, little is known about the physiological pathways utilized by cuttlefish to reconstruct a lost arm. In this study, the regenerating arms of juvenile cuttlefish, with or without exposure at the time of injury to sterile bacterial lipopolysaccharide extract to provoke an antipathogenic immune response, were assessed for the transcription of early tissue lineage developmental genes, as well as histological and protein turnover analyses of the resulting regenerative process. The transient upregulation of tissue-specific developmental genes and histological characterization indicated that coleoid arm regeneration is a stepwise process with staged specification of tissues formed de novo, with immune activation potentially affecting the timing but not the result of this process. Together, the data suggest that rather than inducing proliferation of mature cells, developmental pathways are reinstated, and that a pool of naive progenitors at the blastema site forms the basis for this regeneration.Programa Mar2020 [16-02-01-FMP-53]Fundacao para a Ciencia e a TecnologiaPortuguese Foundation for Science and Technology [IF/00576/2014]Natural Sciences and Engineering Research Council of CanadaNatural Sciences and Engineering Research Council of Canada [RGPIN 2018-05160, RGPIN-2018-03884]Vanier Canada Graduate Scholarshi
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