2 resultados para Feeding stages
em Repositório Institucional da Universidade de Aveiro - Portugal
Resumo:
Cycliophora é um filo animal descrito recentemente que acomoda, apenas, duas espécies: Symbion pandora Funch e Kristensen, 1995 e S. americanus Obst, Funch e Kristensen, 2006. Este filo é caracterizado por um ciclo de vida assaz complexo, cuja posição filogenética tem sido debatida desde a sua descoberta. Esta dissertação visa aprofundar o conhecimento geral existente acerca destes enigmáticos e pouco explorados metazoários. Assim, vários aspectos da morfologia e ecologia de ciclióforos foram estudados através de observações in vivo, técnicas de microscopia e reconstrução tridimensional. A mioanatomia de várias fases do ciclo de vida é descrita para S. pandora e S. americanus. Os nossos resultados revelam uma similaridade contundente entre a musculatura das duas espécies. A mioanatomia geral de Symbion é, ainda, comparada à de outros metazoários. A expressão de algumas substâncias imunorreactivas, como são exemplo a serotonina e as sinapsinas, é investigada em várias formas do ciclo de vida. Quando comparados com outros representantes de Spiralia, conclui-se que a neuroanatomia geral dos ciclióforos se assemelha mais às formas larvares do que aos adultos. Apesar de possuírem um plano corporal sofisticado, com extensas áreas ciliadas e uma mioanatomia complexa, descobrimos que o macho de ambas as espécies Symbion é composto por apenas algumas dezenas de células. Baseando-nos nestas observações, inferimos que a complexidade dos metazoários não se relaciona com o tamanho corporal nem com o número de células de um organismo. Estudos sobre a ultra-estrutura da fêmea revelaram, entre outras estruturas, um putativo poro genital, extensões citoplasmáticas do oócito e glândulas posteriores. Morfologia e implicações funcionais destas estruturas são aqui discutidas. A anatomia do protonefrídeo da larva cordóide é descrita. A arquitectura deste órgão diverge daquela presente noutros representantes de Nephrozoa, particularmente ao nível da área de filtração da célula terminal. As nossas observações são discutidas em termos filogenéticos. A maturação sexual em ciclióforos é investigada. Os nossos resultados sugerem que a transição de reprodução assexual a sexual se relacione com a idade da forma séssil, a “feeding stage”. A presença da larva Prometeus assente no tronco desta também poderá influenciar o processo, embora mais estudos sejam desejáveis para o comprovar. Os nossos resultados são discutidos integrativa e comparativamente com o conhecimento prévio sobre Cycliophora. A cumulação deste conhecimento será essencial para a compreensão da evolução e filogenia deste enigmático filo.
Resumo:
Understanding the biology of offshore species is hardened by the difficulties of sampling in the deep-sea environment. Additionally, due to the vastness of the open ocean, knowledge of early life histories of pelagic larvae is still relatively scarce. In decapod species with bentho-pelagic lifestyle, the transition from life in the seafloor to the water column not only is associated with drastic morphological metamorphosis, but also with changes in behavior and feeding ecology. The purpose of the present thesis was to investigate physiological, biochemical and behavioral adaptation occurring during early development of such species. The Norway lobster, Nephrops norvegicus, and the crab Monodaeus couchi were used as a model as these two species are encountered off the NE Atlantic shelf at depth greater than 300 m. Chapter 1 introduces the challenges faced by both adult and larvae inhabiting such remote habitats, including the effect of food availability on development and oceanographic processes on dispersal and recruitment. The thesis follows early life histories, starting with within-brood variability in the fatty acid (FA) profile displayed by developing N. norvegicus embryos. There were no differences in the FA composition of embryos sampled from both sides of the brooding chamber in most females. However, all females exhibited significant differences in the FA profiles of embryos sampled from different pleopods. Potential causes for the variations recorded may be differential female investment during oocyte production or shifts in FA catabolism during the incubation period promoted by embryo’s location within the brooding chamber. Next, feeding rates and digestive enzymes activity of the early stage larvae was investigated in N. norvegicus. Both stages were able to maximize food intake when larvae were scarce and showed increased feeding rate following periods of starvation. Amylase activity indicated that carbohydrates are not the primary energy reserve and that feeding may be required soon after hatching to trigger amylase activity. Protease activity indicated that protein reserves are catabolized under starvation. These results indicate that larvae may maximize prey ingestion in the presence of plankton patches with higher food abundance and minimize the deleterious effects induced by previous periods of intermittent starvation or unsuitable prey densities/types. Additionally, changes in enzymatic activity may allow newly hatched N. norvegicus larvae to metabolize protein reserves to overcome short-term starvation. Vertical migration behavior and the influence of oceanographic properties were studied next. All zoeal stages of M. couchi displayed reverse diel vertical migration. Abundance of early stages was correlated with chlorophyll a levels. An ontogenic shift in vertical distribution explained the results; earlier zoeal stages remain in the food-rich upper water column while later stages migrate to the bottom for settlement. This vertical migration behavior is likely to affect horizontal distribution of larvae. Indeed, global current patterns will result in low inter-annual variations in decapod larvae recruitment, but short term variations such as upwelling events will cause deviation from the expected dispersal pattern. Throughout development, from the embryo to metamorphosis into benthic juvenile, offshore decapods face many challenges. For the developing individual survivorship will depend heavily on food availability but also on the reserves passed on by the mother. Even though vertical migration behavior can allow the larvae to take advantage of depth varying currents for transport, the effect of general circulation pattern will superimpose local current and influence feeding conditions and affect dispersal and recruitment.