Global ETD Search

31	FACTORS CONTROLLING NICKEL BIOAVAILABILITY AND EFFECTS ON BENTHIC INVERTEBRATES IN HARDWATER FRESHWATER STREAMS Custer, Kevin Wayne January 2012 (has links) No description available. Environmental Science Freshwater Ecology Toxicology ecotoxicology sediments metals nickel macroinvertebrates in situ bioavailability benthic SEM: AVS: mesocosm Ephemeroptera Hyalella Lymnaea
32	THE COMMUNITY STRUCTURE OF METHANOGENIC, METHANOTROPHIC, AND AMMONIA OXIDIZING BACTERIA IN VERTICAL FLOW GREENHOUSE WETLAND MESOCOSMS EXPOSED TO PCE Gruner, William Evan January 2008 (has links) No description available. Biogeochemistry Biology Environmental Science Microbiology chlorinated ethene perchloroethylene monooxygenase methane ammonia methanogen methanotroph wetland biogeochemistry mesocosm bioremediation PCE TCE
33	Enemy within the gates : reasons for the invasive success of a guppy population (Poecilia reticulata) in Trinidad Sievers, Caya January 2010 (has links) The invasion of individuals into new habitats can pose a major threat to native species and to biodiversity itself. However, the consequences of invasions for native populations that are not fully reproductively isolated from their invaders are not yet well explored. Here I chose the Trinidadian guppy, Poecilia reticulata, to investigate how different population traits shaped the outcome of Haskins's introduction, a well-documented invasion of Guanapo river guppies into the Turure river. I especially concentrated on the importance of behaviour for invasive success. I investigated if the spread of Guanapo guppies is due to superiority in behaviour, life-history and/or genetics, or if the outcome of this translocation is due to chance. Despite the fact that by today the invasive front has passed the Turure's confluence with the River Quare many kilometres downstream of the introduction site, and the original genotype only survives in small percentages, as was revealed by genetic analysis in this and other studies, no obvious differences between invasive and native populations could be detected in any of the tested behavioural, life-history and genetic traits. When tested for mate choice, neither Guanapo nor Oropuche (Turure) males seemed to be able to distinguish between the population origin of females, but courted and mated at random. At the same time, females did not prefer to school with individuals of the same population over schooling with more distantly related females. The formation of mixed schools after an invasive event is therefore likely. Because female guppies showed a very low willingness to mate, even after having been separated from males for up to six months, sperm transfer through forced copulations will become more important. Taken together, these behaviours could increase the speed of population mixing after an invasion without the need for behavioural superiority of the invasive population. When tested for their schooling abilities, offspring of mixed parentage, in contrast to pure breds, displayed a large amount of variety in the time they spent schooling, a circumstance that can potentially influence survival rates and therefore the direction of gene pool mixing. Guanapo fish did not show reproductive superiority in a mesocosm experiment, where both populations were mixed in different proportions. On the contrary, in two out of three mixed treatments, the amount of Oropuche (Turure) alleles was significantly higher than expected from the proportion of initially stocked fish. The almost complete absence of distinguishable traits other than genetic variation between the examined populations that belong to different drainage systems, opposes the recent split of the guppy into two different species following drainage system borders, as is argued in this thesis. However, the successful invasion of the Turure by Guanapo guppies and the nearly entire disappearance of the original population can be explained in absence of differing population traits. Here I demonstrate how behavioural and genetic interactions between subspecies influence the outcome of biological invasions and second, how factors other than population traits, such as the geographic situation, can produce an advantageous situation for the invader even in the absence of population differences.
34	Zooplanctofagia de heterópteros na estrutura da comunidade zooplanctônica em um lago neotropical: análise integrada entre DNA do conteúdo alimentar e experimento em mesocosmo / Zooplanktivory of heteroptera upon zooplankton community structure in a neotropical lake: integrated analysis between DNA of feed content and experiment in mesocosm Domingos, Andrés Ricardo 26 October 2018 (has links) Alguns estudos mostraram que heterópteros aquáticos podem influenciar a estrutura de comunidades zooplanctônicas. No entanto, parte destes estudos foram realizados em experimentos de laboratório que não são capazes de simular totalmente a estrutura do ecossistema. Para confrontar este problema, técnicas moleculares juntamente com experimentos in situ podem ser adotados. A técnica molecular baseia-se na detecção de DNA das presas (biomarcadores) no tubo digestório dos predadores. O objetivo deste trabalho foi analisar o conteúdo estomacal dos heterópteros Martarega uruguayensis e Rheumatobates crassifemur visando avaliar a hipótese da presença de presas zooplanctônicas por meio de vestígios de DNA , bem como avaliar a existência do efeito da predação dos notonectídeos sobre a densidade populacional das presas no ambiente. Para atender aos objetivos propostos, o trabalho foi dividido em 3 capítulos: O capítulo I descreve como foram escolhidos os biomarcadores moleculares das presas e o desenvolvimento dos primers necessários para conduzir as análises. Os primers específicos são de regiões internas do gene COI das presas zooplanctônicas. Foram testadas suas especificidades e sensibilidade por meio de reações de PCR. Em testes de especificidade, todos os primers amplificaram com êxito o biomarcador das presas-alvo, sendo incapazes de amplificar o biomarcador de qualquer outra espécie testada. Em testes de sensibilidade, os primers amplificaram com sucesso os biomarcadores das presas zooplanctônicas mesmo em baixas concentrações de DNA, assim como diretamente do trato digestório dos predadores; O capítulo II aborda aspectos da dieta dos predadores a partir da frequência de biomarcadores das presas encontrados nos tubos digestório dos insetos coletados no lago. Por meio de 48 reações de PCR com os primers específicos das presas-alvo foram analisados 240 tubos digestórios dos predadores. As presas com maior eletividade foram S. serrulatus e D. gessneri, e a menor foi D. cf. brevireme, apesar da alta abundância no ambiente. Tanto para gerrídeos quanto para notonectídeos há uma seletividade acentuada por espécies de presas de maior tamanho, mesmo que em menor frequência relativa no ambiente quando comparadas a outras espécies. Acredita-se que a preferência por presas maiores esteja relacionada à maior facilidade para detecção e manipulação do predador. A frequências de biomarcadores nos tubos digestórios de M. uruguayensis foi maior no período com maior disponibilidade de presas; O capítulo III avaliou, o efeito do predador M. uruguayensis (Notonectidae) sobre as densidades das populações de presas zooplanctônicas a partir de experimento em mesocosmo. No geral, não houve influência significativa dos predadores sobre nenhuma espécie nos dois primeiros dias. O efeito da predação sobre copepoditos e náuplios foi mais acentuados entre os dias 3 e 4, enquanto que para copépodos adultos foi nos dias 2 e 3. Já para os cladóceros o efeito foi mais acentuado nos dias 4 a 6, exceto para D. cf. brevireme que não teve efeito da predação em nenhum dia. Aspectos relacionados ao tamanho corporal, densidade populacional das presas, capacidade de evasão e diminuição da sobreposição entre predador e presa são fatores fundamentas no padrão de seletividade e da preferência alimentar de notonectídeos. / A few studies have shown that aquatic heteroptera can influence the structure of zooplanktonic communities. However, some of these studies have been conducted in laboratory experiments that are not able to fully simulate the structure of the ecosystem. To confront this problem, a molecular approach along with in situ experiment can be adopted. Molecular approach is based on the detection of prey DNA (biomarkers) in the digestive tract of predators. The objective of this work was to analyze the gut contents of the heteropterans Martarega uruguayensis and Rheumatobates crassifemur to test the hypothesis that will be found traces of zooplankton prey DNA, as well as the effect of the notonectid predation on population density of prey in the environment. To meet the proposed objectives, the work was divided in 3 chapters: Chapter I describes how the molecular biomarkers of prey were chosen and the development of the primers needed to conduct the analyses. The specific primers are from internal regions of the COI gene of zooplanktonic prey. Their specificities and sensibility were tested by means of PCR reactions. In specificity tests, all primers successfully amplified the target prey biomarker and were unable to amplify biomarker of any other species tested. In sensitivity tests, the primers successfully amplified the biomarkers of zooplankton prey even at low DNA concentrations, as well as directly from the digestive tract of predators; Chapter II addresses aspects of the predators diet using the frequency of biomarkers of prey found in the digestive tubes of the insects. By means of 48 PCR reactions, with the specific primers from target prey, were analyzed 240 digestive tracts of predators. The prey with greater electivity were S. serrulatus and D. gessneri, and the smaller one was D. cf. brevireme, despite the high abundance in the environment. For both gerrids and notonectids, there was a marked selectivity for larger size prey, even though at a lower relative frequency in the environment when compared to other species. This suggests that the preference for larger prey is related to the greater facility for detection and manipulation by the predator. The frequencies of biomarkers in the digestive tracts of M. uruguayensis were higher in the period with higher prey availability; Chapter III evaluated the effect of the predator M. uruguayensis on the densities of zooplankton prey populations from experiment in mesocosm. In general, there was no significant influence of predators on any species in the first two days. The effect of predation on copepodites and nauplii were more pronounced between days 3 and 4, whereas for adult copepods on days 2 and 3. The effect on cladocerans was more pronounced on days 4 to 6, except for D. cf. brevireme that was not preyed on. Aspects related to body size, population density of the prey, evasion capacity and decrease overlap between predator and prey are fundamental in the pattern of selectivity and feeding preference of notonectids. Análise molecular heteropterans Heterópteros Interações tróficas Lago Tropical Raso mesocosm Mesocosmo molecular analysis PCR PCR Trophic interactions tropical shallow lake. Zooplâncton zooplankton
35	Methane flux in the Doñana wetlands : Waterbird guano addition and benthicinvertebrate effects / Metangasflöden i Doñanas våtmarker : Effekter av vattenlevande fåglars guano och bottenlevande evertebrater Ratia, Noa January 2019 (has links) Wetlands are globally important biogeochemical hotspots, and their roles as either significant sources of greenhouse gas or carbon sinks are strongly controlled by environmental drivers such as carbon, nitrogen, and phosphorus availability, which can stimulate emission of three greenhouse gases: nitrous oxide (N2O), carbon dioxide (CO2) and methane (CH4). Mounting evidence suggests that aquatic invertebrate activity can enhance wetland greenhouse gas flux, through bioturbation and bioirrigation of surrounding sediments. However, waterbirds reduce the density of aquatic invertebrates, which could potentially reduce greenhouse gas flux. Alternatively, the nutrient contents of waterbird guano may stimulate microbial activity responsible for these gas fluxes. The research project FLAMMINGGOS (Functional Links in Avian, Microbial, Macrophyte, and INvertebrate Greenhouse Gas Output Stimulation) aims to test the relative strength of top-down and bottom-up effects of predatory waterbirds on wetland greenhouse gas fluxes. This study is a part of the FLAMMINGGOS project and studied the bottom-up stimuli effects of methane flux, through addition of waterbird guano to sediment cores sampled from three sites in Doñana, Spain. Guano did not enhance methane flux; on the contrary, the overall flux rates decreased after guano addition for one site. There was also a positive correlation between methane flux and the presence of benthic invertebrates. This suggests that the top-down gas-stimuli effects of waterbirds may be stronger than the bottom-up; benthivorous waterbirds, such as flamingos, may lessen the emissions of CH4 through predation on benthic invertebrates. Further research is however required to fully understand these interactions and gas flux stimuli effects. / FLAMMINGGOS aquatic invertebrates bottom-up effects CH4 Doñana greenhouse gases mesocosm methane sediment cores akvatiska evertebrater bottom-up effekter CH4 Doñana mesokosm metan sedimentkärnor växthusgaser Ecology Ekologi
36	Pigment and Thiamine Dynamics in Marine Phytoplankton and Copepods Wänstrand, Ingrid January 2004 (has links) Based on a field study and several mesocosm experiments, I evaluated the use of pigments as chemotaxonomical biomarkers for phytoplankton community composition in the Baltic Sea and I examined effects of inorganic nutrients on the dynamics of carotenoids and thiamine (vitamin B1) at the phytoplankton–copepod level in marine pelagic food webs. My results show that HPLC pigment analysis combined with CHEMTAX data processing was an accurate alternative to microscopic analysis of Baltic Sea phytoplankton. Experimental supply of N, P and Si affected copepod growth and biochemical status via changes in biomass and composition of their phytoplankton diet. Net population growth rates were generally higher when phytoflagellates dominated (low Si:N ratio) and lower when diatoms dominated (high Si:N ratio). Copepod body concentrations of astaxanthin decreased with fertilization. Correlations with reduced under-water irradiance were consistent with the photo-protective function of this antioxidant. Thiamine concentrations in phytoplankton also decreased with fertilization. In copepods, low Si:N ratios resulted in higher thiamine concentrations than high Si:N ratios. Thiamine concentration and degree of phosphorylation were useful as indicators of thiamine shortage both in phytoplankton and copepods. The concentrations of thiamine and astaxanthin in the copepod communities were positively correlated. As copepods constitute a major link between pelagic primary producers and higher trophic levels, fertilization effects may be responsible for astaxanthin and thiamine deficiencies in salmon suffering from the M74 syndrome, which appeared concurrently with large-scale eutrophication in the Baltic Sea. As both thiamine and astaxanthin are deficient in M74-affected salmon, there is a need for physiological and molecular investigations of possible interactions between the two compounds in living cells. Biology phytoplankton composition pigments chemotaxonomy inorganic nutrients pelagic copepods grazing astaxanthin thiamine mesocosm experiments marine food webs eutrophication Baltic Sea Biologi Biology Biologi
37	Uptake and mobilisation of metals associated with estuarine intertidal sediment by microphytobenthic diatoms Becker, Amani Eve January 2017 (has links) Microphytobenthos (MPB), a mixed community of microscopic, photosynthetic organisms, algae and cyanobacteria, inhabiting the top few millimetres of bottom sediment, is a key component of intertidal mudflats. It accounts for a significant proportion of estuarine primary production, forms the base of the food chain and influences sediment distribution and resuspension (through production of extracellular polymeric substances (EPS)). Diatoms dominate the microphytobenthos community in the mid-latitudes of the Northern Hemisphere. Estuarine sediments, are a sink for metal contaminants derived from fluvial, marine and atmospheric sources. Whilst metal releases to estuaries have declined in recent years due to increased regulation and declining industrial activity, metals previously discharged and which are now locked up in saltmarsh sediments remain a concern. For example, there are indications that saltmarshes are already being eroded, due to climate change related sea level rise, in some locations. This erosion may result in the redistribution of historically contaminated sediment to locations, such as the mudflats, where it is more available to biota, such as the MPB. In addition to causing redistribution, climate change effects, such as increasing temperatures and storminess, may also alter the bioavailability of metals to MPB. Increased concentrations of metals within the MPB could potentially increase their transfer to higher organisms through the food chain with potential impacts for biota. Whilst planktonic algae have been well studied with respect to metal uptake from the water column, there has been little research involving MPB and uptake of metals from sediment. The extent to which contaminant uptake by microphytobenthic algae occurs and under what conditions is therefore poorly understood. The research presented uses laboratory, mesocosm and field studies, to gain an understanding of processes governing metal bioavailability and mechanisms for uptake from sediment to the diatoms of the MPB under the complex and variable conditions of intertidal mudflats. A laboratory study using a single diatom species Cylindrotheca closterium found that uptake of cadmium (Cd) varied with sediment properties revealing the importance of sediment particle size and organic matter content in metal bioavailability to diatoms. Additionally, this study showed that the presence of diatoms altered Cd partitioning between sediment, overlying and pore water. Specifically there was an increase in Cd in the overlying and pore water when diatoms were present, indicating that diatoms mobilise metals from the sediment to the water column potentially increasing metal bioavailability to other biota. A study was conducted using an intertidal mesocosm to increase the realism of the study system and examine uptake to a natural MPB community. Diatoms were found to have higher concentrations of all the metals analysed (except tin) than other types of algae (filamentous and sheet macroalgae), confirming their importance as a study organism with respect to metal uptake and potential mobilisation through the food chain. Sediment disturbance was shown to increase metal uptake (iron, aluminium, vanadium and lead) from the sediment to algae. This is of concern due to predicted increases in storminess which are likely to increase sediment disturbance, with the likelihood that uptake of metals to diatoms will increase in the future. However, there were also indications of an antagonistic effect of temperature on disturbance, whilst disturbance increased bioavailability and uptake, increasing temperatures reduced uptake of some metals. This highlights the importance of considering the effects of multiple stressors in complex systems. Field studies showed that concentrations of some metals were related to their position on the mudflat whilst others were related to sampling date, indicating that there may be seasonal controls, such as to the presence of greater diatom biomass in spring and autumn, on metal uptake from the sediment. The research conducted has increased understanding of metal uptake to microphytobenthic diatoms from sediment and the influence they have in transferring metals from sediment to water, however the research also raises a number of new questions. For example, there appeared to be a link between sediment organic matter content and bioavailability of metals to diatoms, although the relative contribution of the diatoms, other algae, cyanobacteria and EPS to the sediment organic matter warrants further investigation. Furthermore, it has shown that the use of laboratory and mesocosm studies for this type of research can produce similar outcomes to those observed in the field but under more controlled and easily manipulated conditions, although field studies will continue to be vital in improving understanding of metals availability and transfer. 579.8
38	Wirkung von Fenoxycarb und Bisphenol A auf den Aufwuchs und benthische Invertebraten in Fließrinnen Licht, Oliver 23 June 2005 (has links) Um die Effekte von Umweltchemikalien auf Populationen von Fließgewässerorganismen zu untersuchen, sind an der TU Dresden Fließrinnen entwickelt worden. Die Komplexität wurde bewusst reduziert, um die beobachteten Effekte besser kausal analysieren zu können. Nach einer Erweiterung des Nahrungsnetzes um Grazer (Eintagsfliegen-Larven) und der weiteren Optimierung der Methode zur Bestimmung des Aufwuchses (Periphyton) wurden 2 Experimenten mit einem Pflanzenschutzmittel (Fenoxycarb) und einer Industriechemikalie (Bisphenol A) durchgeführt, um die Effekte dieser Chemikalien auf den Aufwuchs, die Eintagsfliegen-Larven Rhithrogena semicolorata und Seratella ignita, sowie Oligochaeten der Art Lumbriculus variegatus zu erfassen. Die Wirkung von Fenoxycarb in 4 Konzentrationen von 0,05 bis 50 µg L-1 wurde über eine Dauer von 101 Tagen untersucht. Auf die physiko-chemischen Parameter, den Aufwuchs und L. variegatus wurden keine Effekte festgestellt. Bei R. semicolorata wurden Effekte auf das Überleben und die Emergenz beobachtet. Für den Endpunkt &quot;Anzahl der toten Larven in der Fließrinne&quot; wurde eine LC50 von 3,3 µg L-1 bestimmt. Die akute Toxizität (48 h LC50) von Fenoxycarb für S. ignita ist größer als 5 mg L-1. Bei Larven von S. ignita wurden 72 Tage nach Applikation Effekte beobachtet werden, die dem Wirkmechanismus von Fenoxycarb entsprechen. In der höchsten Konzentration zeigten ca. 80 % der emergierten Tiere morphologische Abnormalitäten an 4 Segmenten des Abdomens. Die Exposition erfolgte möglicherweise durch an Aufwuchs bzw. Detritus gebundene Substanz oder deren Metabolite, da die Substanz 19 Tage nach Applikation im Wasser nicht mehr nachweisbar war. Im zweiten Experiment wurde Wirkung von Bisphenol A in 3 Konzentrationen von 5 bis 500 µg L-1 (effektiv 0,24 bis 24,1 µg L-1) über eine Dauer von 103 Tagen untersucht. Auf die physiko-chemischen Parameter wurde kein Einfluss festgestellt. Der Aufwuchs in der höchsten Konzentration erreichte nur die Hälfte des Biomasse-Maximums der Kontrolle. Die EC10 beträgt 1,8 und die EC50 21,7 µg L-1 (effektiv). Das Populationswachstum von Lumbriculus variegatus war in den beiden höchsten Konzentrationen im Vergleich zur Kontrolle um ca. 50 % reduziert. Die akute Toxizität (LC50 96 h) für L. variegatus beträgt 5,3 mg L-1. Für das Populationswachstum in den Fließrinnen wurde eine EC10 von 0,11 µg L-1 (effektiv) ermittelt, die um den Faktor 48184 unter der akuten Toxizität liegt. - Anlage: Rohdaten (0,53 MB)- Nutzung: Referat Informationsvermittlung der SLUB&quot; info:eu-repo/classification/ddc/570 ddc:570
39	Phytotoxicity of triclosan in systems of different biological complexity: causal analysis of sensitivity differences of microalgae Franz, Stephanie 10 July 2013 (has links) Triclosan (TCS) is a personal care product with many fields of application and is of public interest for several years now. Monitoring studies showed that TCS is a ubiquitous chemical in the aquatic environment. Aquatic organisms are exposed to TCS in a broad range of concentrations, from ng L-1 up to lower μg L-1. TCS has a bactericidal effect for various types of gram-positive and gram negative bacteria. TCS targets a specific bacterial fatty acid biosynthetic enzyme, enoyl-[acyl-carrier protein] reductase (Schweizer, 2001). Therefore the terminal reaction in the fatty acid elongation cycle is inhibited (Levy et al., 1999). Although effects on non-target organisms are reported, the Mode of Action (MoA) of TCS is not well examined for those organisms. The aim of this PhD thesis was to investigate effects of TCS on non-target autotrophic organisms at different levels of biological complexity in the aquatic environment. In this thesis microalgae have been found to be very sensitive to TCS. In some cases even higher sensitivities than in bacteria were observed, which is in accordance with published effect data (Harada et al., 2008; Orvos et al., 2002). Similarly to bacteria, high species sensitivity differences were observed for algae (Franz et al., 2008). In bacteria these sensitivity differences can be ascribed to several resistance mechanisms reported in Schweizer (2001). These findings lead to the question about the reasons for species sensitivity differences in algae. A mesocosm study was performed to detect effects of TCS across levels of biological organization and to investigate the impact of sensitivity differences on complex aquatic communities. For that purpose, structural and functional effects parameters were observed. info:eu-repo/classification/ddc/570 ddc:570
40	Interspecific Interactions Between Native and Non-Native Forest Floor Detritivores and Temperature: Implications for Ecosystem Functioning Moore, Eric A. 26 July 2017 (has links) No description available. Ecology Environmental Science Biochemistry Biology Detritivore Millipede Earthworm Climate Change Temperature Interaction Effects Soil Microbial Enzyme Ecosystem Mesocosm Lumbricus Narceus terrestris rubellus americanus Simplex carbon nitrogen

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