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Efeito de efluentes sobre o sistema biofilme-herbívoros em costões rochosos subtropicais / Sewage effects on the biofilm-grazers system in subtropical rocky shoresDeborah Gallego Gallo 03 February 2016 (has links)
Os ecossistemas costeiros sofrem impactos antrópicos de fontes diversas, entre eles os despejos de efluentes, que podem potencializar o desenvolvimento de produtores primários em costões rochosos resultante do enriquecimento por nutrientes. Ao mesmo tempo, o crescimento dos produtores pode ser controlado pela presença dos herbívoros. No presente estudo buscamos descrever o efeito dos despejos de efluentes sobre o acúmulo de biofilme em costões rochosos, sob diferentes níveis de despejos de efluentes em uma área subtropical (São Paulo, Brasil), bem como o efeito dos efluentes sobre as lapas. Estimamos a biomassa do biofilme in situ, por medidas indiretas de NDVI e por análises taxonômicas de amostras fixadas. A estrutura populacional de lapas foi descrita por contagem e medição do comprimento da concha. Um experimento em campo foi realizado sob presença e ausência de efluentes, bem como presença e ausência de lapas. Observamos que o efeito de efluentes potencializa o acúmulo de biofilme, entretanto não observamos um consumo significativo das lapas sobre o biofilme. O tamanho e densidade de lapas não foram alteradas pelo gradiente de efluentes. Em geral, foi observada uma predominância de diatomáceas em relação às cianobactérias, o que pode diferir da tendência de dominância de cianobactérias verificada em outras regiões. É importante ressaltar a importância de outros pastadores sobre o desenvolvimento de biofilme, não considerados neste estudo, além da alta variabilidade temporal e espacial que as comunidades de biofilme apresentam. Ressaltamos a importância da aplicação de organismos bentônicos como indicadores da qualidade do ambiente. / Coastal ecosystems suffer anthropogenic impacts from many sources such as sewage disposal, which may potencialize de primary productors growth in rocky shores. In the same time, this growth amy be controlled by grazers. In this study we aimed to investigate the biofilm accumulation in rocky shores under different level of sewage disposal in a subtropical area (São Paulo State, Brazil), and its influence on the grazers. The biofilm biomass was estimated in situ indirectly by NDVI measures and taxonomic analysis of fixed samples. The size structure of limpets was described through counting and measurement of the shell length. We also performed a field experiment under presence and ausence of sewage, as presence and ausence of limpets. We observed a sewage effect improve the biofilm accumulation, but the limpets did not have a clear control on the biofilm growth. No clear effect of sewage disposal was verified on the size and density of limpets. In general, we observed a domination of diatoms relative to cianobacterias, which could differ of the trend observed in another sites. It is noteworthy that the possible effects of other grazers on the biofilm were not quantified and the high temporal and spatial variability of biofilm communities. We emphasize the importance of studies that use benthic organisms as environmental quality indicators.
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The limpets of the Gulf of California (Patellidae, acmaeidae)Yensen, Nicholas Patrick January 1973 (has links)
No description available.
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Effects of habitat patch size and isolation on the population structure of two siphonarian limpetsJohnson, Linda Gail January 2011 (has links)
Habitat fragmentation is a fundamental process that determines trends and patterns of distribution and density of organisms. These patterns and trends have been the focus of numerous terrestrial and marine studies and have led to the development of several explanatory hypotheses. Systems and organisms are dynamic and no single hypothesis has adequately accounted for these observed trends. It is therefore important to understand the interaction of these processes and patterns to explain the mechanisms controlling population dynamics. The main aim of this thesis was to test the effect of patch size and isolation on organisms with different modes of dispersal. Mode of dispersal has previously been examined as a factor influencing the effects that habitat fragmentation has on organisms. Very few studies have, however, examined the mode of dispersal of marine organisms because it has long been assumed that marine animals are not directly influenced by habitat fragmentation because of large-scale dispersal. I used two co-occurring species of siphonariid limpets with different modes of dispersal to highlight that not only are marine organisms affected by habitat fragmentation but that they are affected in different ways. The two species of limpet, Siphonaria serrata and Siphonaria concinna, are found within the same habitat and have the same geographic range along the South African coastline, however, they have different modes of dispersal and development. The effect of patch size on organism density has been examined to a great extent with varied results. This study investigated whether habitat patch size played a key role in determining population density and limpet body sizes. The two species are found on the eastern and southern coasts of South Africa were examined across this entire biogeographic range. Patch size was found to have a significant effect on population density of the pelagic developer, S. concinna, but not the direct developing S. serrata. Patch size did play a role in determining limpet body size for both species. S. concinna body size was proposed to be effected directly by patch size whilst S. serrata body size was proposed to be affected indirectly by the effects of the S. concinna densities. The same patterns and trends were observed at five of the seven examined regions across the biogeographic range. The trends observed for S. concinna with respect to patch size conform to the source-sink hypothesis with large habitat patches acting as the source populations whilst the small habitat patches acted as the sink populations. Many previous studies have focused on the effects of habitat patch size at one point in time or over one season. I tested the influence of habitat patch size on the two species of limpets over a period of twelve months to determine whether the trends observed were consistent over time or whether populations varied with time. S. concinna showed a consistently significant difference between small and large patches; whilst S. serrata did not follow a consistent pattern. The mode of dispersal for the two limpets was used to explain the different trends shown by the two species. This examination allowed for the determining of source and sink populations for S. concinna through the examination of fluctuations in limpet body sizes and population densities at small and large habitat patches over twelve months. The direct developing S. serrata trends could not be explained using source-sink theory, as populations were independent from one another. S. serrata demonstrated body size differences at small and large patches which, may be explained by interspecific and intraspecific competition. Habitat isolation is known to play an important role in determining the structure of assemblages and the densities of populations. In this study the population density of the pelagic developing S. concinna showed a weak influence of degree of isolation whilst that of the direct developing S. serrata did not, which may be because of habitat patches along the South African coastline not having great enough degrees of isolation. The population size-structure was influenced directly influenced by isolation for S. concinna, whilst the different population size structure for S. serrata may be explained by assemblage co-dependence. The mode of dispersal showed effects on the relationship of population density and population size-structure with habitat size and isolation. This study indicates the importance of investigating patterns and processes across a range of spatial and temporal scales to gain a comprehensive understanding of factors effecting intertidal organisms.
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Ecological interactions on a rocky shore : the control of macroalgal distribution by intertidal grazersWhittington-Jones, Kevin John January 1998 (has links)
The aim of the present study was to determine the potential impact of intertidal grazers on the distribution of macro algae on the south coast of South Africa. Particular attention was paid to the large patellid limpet, Patella oculus, which is found thoughout the intertidal zone. Studies of gut contents revealed that Patella oculus was capable of ingesting not only the thallus of foliose (eg. Ulva spp.) and encrusting coralline macroalgae, but also spores and diatoms. The inclusion of these relatively small particles in the diet was surprising, as electron micrographs of the radula of P.oculus revealed that it is typically docoglossan in structure. Such radulae are thought to be poorly suited for collecting small food particles. Sand made up a significantly higher proportion of the gut contents than other particles at all shore heights, which suggests that P.oculus might be capable of excavating the rocky substratum, or of sweeping up sand, while searching for food. Analysis of the gut contents of other local herbivorous molluscs, was also carried out. These species included the winkles, Oxystele variegata and O.sinensis, and the small pulmonate limpets, Siphonaria concinna, S.capensis, and S.serrata. The guts of all species contained mainly spores and diatoms, although small fragments of Ulva sp. were found. The population structure of Patella oculus was investigated at two sites, Cannon Rocks and Old Woman's River. At Cannon Rocks, mean shell length of low-shore animals was significantly lower than that of both mid- and high-shore animals, while at Old Woman's River, no significant difference was found among shore heights. A regression equation for In (shell length) vs In (dry weight) was calculated, and based on length data, the biomass density (g dry mass.m⁻²) of P.oculus at Old Woman's River was estimated. Values ranged from 2.8 on the low- and midshore to 0.37 on the high-shore. A manipulative field experiment was used to determine the impact of mesograzers and macrograzers (such as Patella oculus) on the distribution of intertidal macro algae on the mid- and low-shore at Old Woman's River. Grazers were excluded using mesh cages (mesh size = 3mm), in two separate experiments, one in winter and the other in spring. Percentage cover of macroalgal species and sessile invertebrates was estimated at approximately 6 week intervals for up to 3 months. MANOV A showed that treatments did not significantly affect cover of macroalgae or barnacles during winter. However, towards the end of the spring experiment (midshore only) cover of barnacles and green foliose turfs did increase in those plots from which mesograzers and/or macro grazers were excluded. The failure of the statistical tests to detect significant differences at some time intervals may have been caused by high levels of variation among replicates. This suggests that factors other than grazing are of overriding importance in determining the distribution of local macroalgae. The existence of a possible symbiotic relationship between Patella oculus and the red foliose alga, Gelidium pristoides, was investigated. The availability of various substratum types, including rock, limpet shells, barnacles etc., and the proportion of the total cover of G.pristoides on each, was calculated. It was shown that a significantly higher proportion of the alga grew on limpet shells, although the availability of this substratum type was low. It is thought that the aggressive behaviour of P.oculus prevents all but juvenile Patella longicosta from grazing on its shell, thus providing a refuge from grazing for G.pristoides.
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