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Dispersal and remineralisation of biodeposits: Ecosystem impacts of mussel aquacultureGiles, Hilke January 2006 (has links)
Suspension-feeding bivalves produce biodeposits (faeces and pseudofaeces) that have much higher sinking velocities than their constituent particles. Consequently they cause sedimentation of material that might otherwise not be deposited. The benthic remineralisation of biodeposits increases sediment oxygen demand and nutrient regeneration, thus enhancing the benthic-pelagic coupling of nearshore ecosystems. In New Zealand the mussel Perna canaliculus has a high natural abundance and is also intensively cultured. This thesis examines the dispersal and remineralisation characteristics of mussel P. canaliculus biodeposits and the impacts of sedimentation from a mussel farm in the Firth of Thames on sediment biogeochemistry by combining laboratory, field and modelling studies. Dispersal characteristics were examined in the laboratory by measuring sinking velocities and erosion thresholds of biodeposits produced by mussels of a wide size range fed three experimental diets. The results show that biodeposit dispersal is a function of mussel diet and size and thus could differ significantly between locations and seasons. Estimates of dispersal distances based on these results demonstrated that the initial dispersal of biodeposits produced by cultured mussels is not far. Depending on the hydrodynamic conditions, secondary dispersal via resuspension potentially plays a more important role in the dispersal of biodeposits from mussel farms than initial dispersal and almost certainly serves as the major means of transport of biodeposits from natural mussel beds. Biodeposit mineralisation was studied by incubating coastal sediments with added biodeposits and measuring oxygen and nutrient fluxes as well as sediment characteristics over an 11 d period. Sediment oxygen consumption and ammonium release increased immediately after biodeposit addition and remained elevated compared to control cores without additions for the incubation period. A biodeposit decay rate (0.16 d-1) was calculated by fitting a first-order G model to the observed increase in oxygen consumption. This rate is 1 - 2 orders of magnitude higher than published decay rates of coastal sediments without organic enrichment or plant material. Nutrient fluxes during the incubation period illustrated that biodeposit remineralisation alters the stoichiometry of the nutrients released from the sediments which may potentially be more significant than the changes of the individual fluxes. To determine the impact of a mussel farm in the Firth of Thames I measured sediment oxygen and nutrient fluxes by deploying benthic chambers, sediment characteristics by collecting sediment cores and sedimentation rates by deploying sediment traps in four seasons. Oxygen consumption and sediment nutrient release rates were generally higher under the farm compared to a reference site, demonstrating the typical response to increased organic input. Unusually low nitrogen release rates measured in summer may indicate enhanced denitrification under the farm. A simple budget demonstrated the importance of benthic nutrient regeneration in maintaining primary production in this region and that mussel culture can lead to a redistribution of nutrients. This study showed that site-specific hydrodynamic and biogeochemical conditions have to be taken into account when planning new mussel farms to prevent excessive modifications of nutrient dynamics. Results of the laboratory and field studies conducted in this thesis were used to parameterise, calibrate and validate models of mussel biodeposit dispersal and remineralisation. A particle tracking model showed that the maximum initial dispersal of faecal pellets from the mussel farm is approximately 300 m and that pellets can be transported several times this distance via resuspension. The remineralisation model was able to simulate the increased nitrogen fluxes from the sediments well and highlighted the need for thorough calibration and parameterisation of the model. This thesis contributed to the current understanding of the ecosystem impacts of mussel culture and provided numerical models and model parameters that will assist in the assessment of mussel culture sustainability and the contribution of mussels to the nutrient cycling in nearshore ecosystems.
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Effects of Temperature, Salinity and Algal Concentration on the Filter-Feeding of Bivalve Sanguinolaria rostrataKo, Hai-Lun 13 August 2004 (has links)
The environment of bivalve Sanguinolaria rostrata growth and reproduction is affected by temperature, salinity and algal concentration.The growth and fattening of the bivalves is closely associated with filter-feeding. Hence, the present work was to investigate the effect of temperature, salinity and algal concentration on the filter-feeding of the bivalves. The salinity ranging from 5 to 30 at the interval of 5 psu, four temperatures at 20¢X, 25¢X, 27¢X and 30¢J, and three algal concentrations of each Isochrysis galbana and each Chaetoceros gracilis, 104 , 105 and 106 cells/ml, were used. Algal concentration was measured each hour and each test run last for 6 hours. A peak appeared at the salinity of 20 psu in each clearance rate vs salinity curve and clearance rate decreased with increasing algal concentration; a peak also appeared at the salinity of either 15¡ã20 psu in the ingestion rate vs salinity curve; and ingestion rate and the amount of pseudofaeces increased with increasing algal concentration. Under the conditions of algal concentration 104 cells/ml and temperature range 20¢X~30¢J, a peak appeared at 25¢J in each clearance rate and each ingestion rate vs temperature curves, and the greatest peak of clearance rate was 1.13 l/h; and the amount of pseudofaeces was the greatest at 25¢J and 20 psu. The bivalves fed with Isochrysis galbana have greater clearance and ingestion rates but less amount of pseudofaeces, compared to those fed with Chaetoceros gracilis.
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Freshwater bivalves with ecosystem engineering traits : The biodeposition rate of A. anatina and U. tumidus / Sötvattensmusslor med ekosystemsförändrande egenskaper : Biodepositionshastigheten för A. anatina och U. tumidusTova, Gullstrand January 2022 (has links)
Freshwater bivalves of the family Unionidae have filter-feeding traits that alter freshwater ecosystems on several trophic levels. Filtration of organic and inorganic particulates in the water column transform matter through the mussel’s egestion before it is sequestered in the sediment, making it available as food for benthic invertebrates. Rates of filtration and deposition vary depending on species-specific traits, however, the filtration rate of Anodonta anatina (duck mussel) and Unio tumidus (swollen river mussel) are equivalent. This experimental aquarium study was performed by feeding duck mussel and swollen river mussel, to assess the biodeposition rate for both species. I hypothesized (1) that the biodeposition rate decreases for both species over a period of 180 minutes after feeding, and (2) there is no difference in deposited mass between A. anatina and U. tumidus. Results confirmed a decrease of organic and inorganic deposition over 180 minutes after feeding, with no significant difference of deposition mass between species. This study will contribute to valuable feeding methodology and knowledge for future studies of biodeposition of the family Unionidae. / Sötvattensmusslor av familj Unionidae har filtrerande egenskaper som förändrar sötvattensekosystem på flera trofiska nivåer. Filtrering av organiska och icke-organiska partiklar i de fria vattenmassorna transformerar material genom musslans matsmältningssystem som sedan lagras i sedimenten, och möjliggör materialet för födoupptag av bentiska evertebrater. Filtrering- och depositionshastigheter varierar beroende på artspecifika egenskaper, men filtreringshastigheten för Anodonta anatina (allmän dammussla) och Unio tumidus (spetsig målarmussla) är jämförbara. Denna experimentella akvariumstudie utfördes genom matning av allmän dammussla och spetsig målarmussla, med syftet att bedöma biodepositionshastigheten för de båda arterna. Jag ställde hypoteserna (1) biodepositionshastigheten minskar för båda arter över 180 minuter efter matning, och (2) det finns ingen skillnad i deponerad massa mellan A. anatina och U. tumidus. Resultaten bekräftar en minskning av organiskt och icke-organiskt material över 180 minuter efter matning, med ingen signifikant skillnad av depositionsmängd mellan arter. Denna studie bidrar med viktig kunskap om matningsmetoder och kunskaper för framtida studier om biodeposition för familjen Unionidae.
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