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1
Clarke, Stewart Jonathon. "Sediment-macrophyte relationships in lowland English rivers : using macrophytes for biological assessment." Thesis, Queen Mary, University of London, 2000. http://qmro.qmul.ac.uk/xmlui/handle/123456789/1395.
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A study of the relationship between submerged-rooted aquatic macrophytes and the chemical and physical characteristics of sediments in lowland British rivers is described. The focus of the research is the spatial variability of nutrient concentrations in river sediments and the preferences of particular macrophyte species for different sediment types. This information is required to further develop the use of macrophytes in the biological assessment of rivers. Sediment samples were collected from beneath macrophyte stands and unvegetated areas of the riverbed in 17 rivers. The sediment samples were analysed for total and inorganic phosphorus, total nitrogen, organic carbon, organic matter and silt-clay content. Data on water chemistry flow regimes, channel geometry and macrophyte habitat were also collected. Sediments were found to exhibit a high degree of variability both within 100m sites and between the different rivers, particularly with respect to phosphorus concentrations. There were relationships between sediment concentrations of total and inorganic phosphorus and between concentrations of total nitrogen, organic carbon and organic matter. No clear relationships between mean values for sediment parameters and either water column nutrient concentrations or flow regime were apparent. The significance of the sediment variables as a control on macrophyte community structure was investigated through the use of canonical ordination and discriminant analysis. Macrophyte species showed broad tolerances to all sediment variables and it was not possible to separate the influence of sediment nutrients from other sediment parameters or differences between rivers. Comparisons of water sediment and plant tissue nutrient concentrations at sites upstream and downstream of waste water treatment work outfalls on two rivers indicated that the discharges affected both the water and sediment concentrations but not plant tissue levels. The research suggests that the relationships between macrophytes and sediments in lowland rivers are complex and confounded by the effect of the plants themselves upon flow and sediment dynamics.
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Carden, Kerilynn M. "Macrophytes as fish habitat : the role of macrophyte morphology and bed complexity in fish species distributions /." Link to abstract, 2002. http://epapers.uwsp.edu/abstracts/2002/Carden.pdf.
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Pagès, Fauria Jordi. "A behavioural seascape ecology approach to macrophyte herbivory." Doctoral thesis, Universitat de Barcelona, 2013. http://hdl.handle.net/10803/126622.
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Overall, this thesis aims at approaching macrophyte herbivory and community ecology from a behavioural landscape perspective. Our study system, the seascape mosaic of Posidonia oceanica seagrass meadows interspersed with sand patches and rocky areas with macroalgal cover, is particularly useful to test sound ecological questions. In essence, the macroherbivore community is made up of just two key species, the sea urchin Paracentrotus lividus and the fish Sarpa salpa. Both species are generalists and have been found to actively consume seagrass and macroalgae, profoundly altering habitat structure. Moreover, both animals differ in their mobility and in the predation risk they are subjected to, which poses interesting questions on how they will perceive, use, respond to and impact their surrounding seascape. S. salpa is a highly mobile species with few known extant predators, while the sea urchin P. lividus is a low mobility species with high rates of predation.
The thesis is structured in five chapters that focus on different aspects of community organization and ecological interactions (chapter 4), animal movement (chapters 5 and 6), animal risk assessment and behavioural responses to predation risk (chapter 5), habitat selection and connectivity (chapter 6), influence of seascape attributes on herbivore foraging and thus on herbivores’ impacts on plants (chapter 7) and herbivores’ responses in terms of population and behaviour to disturbances (chapter 5). Chapters derive from field manipulative experiments (chapter 4), field mensurative campaigns (chapters 6, 7 and 8) or controlled experiments in the laboratory (chapter 5).
In chapter 4 we observed that predation pressure on a key herbivore (sea urchin) can be modified both by the environmental context within which it finds itself and by the actions of another herbivore (S. salpa) that modifies the plant traits that create this environmental context (P. oceanica). Herbivores, particularly when acting as ecosystem engineers, may have the potential to mediate and increase predation risk, as they substantially modify habitat structure with consequences for refuge availability, among others. Indeed, this type of interactions may be stronger or softer according to prey movement patterns and their perception of risk. Sea urchins can perceive predator chemical cues and respond escaping from these stimuli altering their behaviour by switching among different movement patterns. Predation risk may be as important in determining animal movement patterns as feeding strategies, and in chapter 5 sea urchins responded with straighter paths in the presence of predator cues. We were also interested in the movement patterns of the other key herbivore of the system (chapter 6). The herbivorous fish S. salpa displayed large home ranges and connected distant habitats with their highly mobile behaviour. In spite of their mobility, they also displayed a strong selectivity for the seagrass habitat, which was preferred over the rocky and sand areas. Highly mobile species can connect distant habitats, and may perceive the landscape at a greater scale. The knowledge gained on the movement patterns of both herbivore species allowed us to assess the influence of seascape attributes on the herbivory patterns found in P. oceanica seagrass meadows. The observed spatial heterogeneity in the herbivory process may be mediated by the interaction of mobility of the two main herbivores (sea urchin and fish) with seascape configuration and predation risk. We finally proved that herbivores’ species-specific behaviour could lead to contrasting responses in the face of extreme storm events. Under catastrophic disturbances, the presence of different responses among the key herbivores of the system may be critical for the maintenance of functions. Differences in species behaviour and movement capacities explain why the most mobile species (in our case S. salpa) have the possibility to endure extreme storms, while the low-mobility species is subject to great population losses just relying on the structural complexity of the habitat to resist.
Overall, we feel convinced that merging the behavioural and landscape approaches can result in new views in the ecology of functions such herbivory, in which at least two species interact among themselves framed by a given landscape configuration.Aquesta tesi pretén aproximar-se a l’estudi de l’herbivorisme dels macròfits marins i a l’ecologia de comunitats des d’un punt de vista comportamental i de paisatge. Volem estudiar com en un sistema relativament senzill, els dos herbívors claus (el peix Sarpa salpa i la garota Paracentrotus lividus) interactuen entre ells, i com els seus aspectes comportamentals interactuen també amb la configuració del paisatge i l’hidrodinamisme. El nostre sistema d’estudi és el paisatge format per praderes de la planta marina Posidonia oceanica barrejades amb àrees de sorra i zones rocoses amb macroalgues. La tesi s’estructura en cinc capítols. El primer tracta de com la pressió de depredació sobre un herbívor clau (garotes) pot ser modificada tant pel context ambiental en què es troba com per les accions de peixos herbívors (salpes) que modifiquen els trets de la planta marina (posidònia) que crea aquest context ambiental. Aquestes interaccions seran més o menys intenses en funció de com reaccionin els individus presa davant dels depredadors. Per això vam estudiar el comportament de les garotes en funció de la presència o absència de senyals químics de depredadors. Vam observar que responen amb canvis en els seus patrons de moviment, amb trajectòries més rectilínies en presència de depredadors. També ens interessava entendre els patrons de moviment de l’altre herbívor del sistema, el peix S. salpa. Els nostres resultats mostren que aquest peix herbívor presenta grans àrees de campeig i que té la capacitat de connectar hàbitats distants gràcies a la seva gran mobilitat. Alhora, les salpes mostren una gran selectivitat per l’habitat de P. oceanica, que sembla clarament preferit sobre les àrees rocoses i de sorra. Els coneixements obtinguts sobre els moviments dels eriçons i les salpes ens van permetre estudiar la influència dels atributs de paisatge en l’herbivorisme en praderes de P. oceanica. L’heterogeneïtat espacial observada en l’herbivorisme és produïda, possiblement, per la interacció entre la mobilitat dels dos herbívors principals del sistema (garotes i salpes), la configuració del paisatge i el risc de depredació. Finalment, vam poder comprovar que les diferències de comportament observades entre els dos herbívors estudiats van implicar respostes dispars de les dues espècies davant una tempesta extrema, cosa que pot ser crítica pel manteniment de les funcions ecosistèmiques. En conjunt, estem convençuts que la unió dels punts de vista que aporten l’ecologia del comportament i l’ecologia del paisatge poden resultar en una millor i més completa comprensió de funcions ecològiques com l’herbivorisme, en les quals almenys dues espècies interaccionen incloses en un paisatge determinat.
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Tewfik, Alexander. "Patterns and effects of disturbance in Caribbean macrophyte communities." Thesis, McGill University, 2004. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=85654.
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This thesis examines a number of natural and anthropogenic disturbances within marine macrophyte habitats of the Caribbean. Understanding the effects of disturbance and the patterns associated with such dynamics is fundamental to ecological studies. Dynamics of interest included: interactions between populations; interactions between life history strategies; successional regimes; and alterations of community structure including loss of trophic heterogeneity and the possibility of "alternate" states. First I explored natural physical disturbance and succession. The dominance of macroalgae in the mid-shore, between areas of seagrass, challenged "classic" succession in such communities. I therefore proposed a model that included chronic "stress" by wave energy that could lead to a reversal in the climax state. Next, I investigated the importance of other grazers (i.e. trophic heterogeneity) in mediating the strength of trophic cascades (e.g. overgrazing). The enclosure experiments used suggested that different life history strategies respond differently to experimental conditions and that interference competition between specialist (conch) and generalist (urchins) grazers results in urchins switching to alternate resources and displaying lower condition. This dynamic may indirectly "buffer" the community against population expansions of urchins and overgrazing of diversity enhancing detritus. Under high nutrient enrichment, urchins maintained themselves, the trophic cascade and low diversity by switching to "expanded" autochthonous and "new" allochthonous resources. I continued to examine the effects of increasing nutrient enrichment, which correlated well with increasing human density, by examining eleven seagrass beds. The patterns of increasing consumer density and decreasing consumer diversity corresponded well to increasing enrichment and loss of autochthonous detritus. At high levels of enrichment, the community was dominated (> 90%) b
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Martin, Grant Douglas. "Drivers of macrophyte assemblages in South African freshwater systems." Thesis, Rhodes University, 2013. http://hdl.handle.net/10962/d1004127.
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Potentially damaging submerged invasive freshwater macrophytes have been identified in South African freshwater systems, but have received less attention than their floating counterparts. To ascertain the changes and effects that these species may have on macrophyte ecology, an understanding of the drivers of macrophyte assemblages is essential. The aims of this thesis were to investigate select abiotic and biotic factors driving introduction, establishment and spread of submerged macrophytes in South Africa. Surveys on the status of submerged plant species in South Africa were conducted to find out the distribution and diversity of the species present, imported to, and traded in South Africa. Numerous submerged indigenous and invasive macrophyte locality records were collected during field surveys, of which many were first time records. Pet stores and aquarist trading activities were identified as potential vectors for the spread of submerged macrophytes through online surveys and personal interviews. These results highlighted the potential these species have for continuing to enter, and spread within South African water bodies. Maximum Entropy (MAXENT) is a general-purpose method used to predict or infer distributions from incomplete information, and was used here to predict areas suitable for the establishment of five of these invasive macrophytes. Many systems throughout South Africa, particularly those in the subtropical coastal regions, were found to be climatically suitable for the establishment of Elodea canadensis Michx., Egeria densa Planch., Hydrilla verticillata (L.f.) Royle (all Hydrocharitaceae), Myriophyllum spicatum L. (Haloragaceae), and Cabomba caroliniana Gray (Cabombaceae). Despite the high probability of invasion, facilitated by vectors and suitable climate, South Africa’s rich indigenous submerged aquatic flora may be preventing the establishment of these submerged invasive species. Studies on the competitive interactions between a common indigenous submerged macrophytes, Lagarosiphon major (Roxb.) (Hydrocharitaceae) and M.spicatum, an invasive native to Eurasia, were conducted to ascertain which conditions influence competitive superiority. High sediment nutrient conditions significantly increased the growth rate and competitive ability of both species, while clay sediments significantly increased the competitive ability of L. major over M. spicatum, but sandy sediments improved the competitive ability of M. spicatum. These results highlighted the dynamic changes in competition between submerged species driven by abiotic factors, but did not take into consideration the effect that herbivory, a biotic factor, could have on competition between the two species. The effect of herbivory by phytophagous insects of submerged plant species has been regarded as negligible. To find out what this effect is, multiple field surveys were undertaken throughout South Africa to find natural enemies of indigenous Lagarosiphon species with the aim of identifying such species, and quantifying their influence on plant growth dynamics. Several new phytophagous species were recorded for the first time. An ephydrid fly, Hydrellia lagarosiphon Deeming (Diptera: Ephydridae) was ascertained to be the most ubiquitous and abundant species associated with L. major in South Africa. The influence of herbivory by this fly on the competitive ability of L. major in the presence of M. spicatum was investigated using an inverse linear model, which showed that herbivory by H. lagarosiphon reduced the competitive ability of L. major by approximately five times in favour of M. spicatum. This study served to highlight the importance of herbivory as a driver of submerged aquatic plant dynamics. Current ecological theory emphasises the importance of investigating beyond plant-herbivore interactions, by including multitrophic interactions in community dynamics. Therefore, the potential of parasitism by a parasitoid wasp, Chaenusa luteostigma sp. n. Achterberg (Hymenoptera: Braconidae: Alysiinae) on H. lagarosiphon to shift the competitive interactions between the two plant species was also examined. The addition of the parasitoid reduced the effect of herbivory by the fly on L. major by half, thereby shifting the competitive balance in favour of L. major over M. spicatum. This study provides valuable insight into a selection of drivers of submerged macrophyte assemblages of South Africa. It highlights the precarious position of South African freshwater systems with regard to the potential invasion by damaging submerged invasive species. It also provides interesting insights into the effect of competition, herbivory and parasitism on the establishment and spread of species within submerged freshwater systems. Understanding the different influences could assist managers and policy makers to make validated decisions ensuring the integrity of South African freshwater systems.
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Farina, Simone. "Scale-dependent factors modulate sea urchin predation in macrophyte communities." Doctoral thesis, Universitat de Barcelona, 2015. http://hdl.handle.net/10803/325691.
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Many nearshore temperate coastal ecosystems are strongly regulated by top-down control. This is particularly true of shallow macrophyte communities, where habitat structuring is heavily dependent on the ability of predators to control populations of herbivorous sea urchins.
Released from predation pressure, urchins can quickly transform macroalgal ecosystems to unproductive barrens. While temperate seagrasses are less dramatically affected, top-down processes still play critical roles in mediating trophic interactions and habitat structure. There has been considerable attention paid to understanding the role predator numbers (mostly fish) play in influencing the strength of predator-prey interactions in macrophyte communities. However, several factors apart from abundance can influence these interactions, which have received far less attention. In this thesis, I examine how the structure of the habitat itself can mediate top trophic interactions and how these processes vary with spatial scale. I begin by exploring how predation activity varies in relation to Posidonia oceanica habitat structure. Meadows can vary considerably in their structural attributes, and in the first Chapter I examine how canopy height and the height of the unburied rhizome matte influence predation intensity. My results show that meadow structure (canopy height and unburtied matte height) within habitats play critical roles in determining predation rates in these systems by mediating the availability of benthic refuge for urchins.
I carry this work forward in Chapter two by comparing relative rates of predation across a gradient of increasing habitat structure across macrophyte communities (turf habitats, macroalgal habitats, low structured seagrass and high structured seagrass). To make these results generalizable, I compared these predation patterns across three different regional seascapes — the Caribbean, the Mediterranean and Western Australia — each with their own unique guild of fish and benthic predators. Habitat structure clearly regulated predation in all regions, but interestingly, the direction of its influence was highly dependent on the predator guild; regions dominated by visual fish predators showed a negative relationship between predation intensity and habitat structure, whereas where benthic predators (sea stars or molluscs) were common, predation increased with structure.
How nearshore habitats are distributed in space (patch configuration, the spatial relationship between patches, aggregation patterns, etc.) can have strong effects on how predators and prey species move between and within habitats and, in Chapter three I examined the influence these landscape mosaic features had on modifying trophic interactions. My results indicate that these mosaics can generate lumpiness in the distribution of trophic function, with cold- and hot-spots of predation dependent on area-perimeter relationships, the presence of rocky substrates or the degree of habitat clumping in space.
Overall, my thesis provides critical insights on how the predation function varies across scales in nearshore marine macrophyte communities. Sea urchins are often a keystone herbivore in these systems, and my thesis shows that their control is heavily influenced by the habitat itself. In particular, habitat can: (i) modify the interaction strength as a function of structure, (ii) can change the direction of the interaction depending on the dominant predator guild and (iii) generate hotspots of predation as a function of spatial configuration. My work indicates that predator abundance, while critical, does not reflect the true complexity of predator-prey interactions. Given the importance of predator-urchin dynamics to the functioning of nearshore macrophyte habitats, we need much more understanding of habitat characteristics at fine and large scales to be able to effectively manage these systems and the functions they embody.En esta tesis se examina cómo la estructura de macrófitos marinos pueden mediar las interacciones tróficas entre depredadores y herbívoros, y cómo estos procesos varían en función de la escala espacial. Se comienza explorando las variaciones de la actividad de depredación en relación a la complejidad estructural de la pradera de Posidonia oceánica. En el primer capítulo se examina cómo la cobertura foliar y el nivel de enterramiento de los rizomas influye en la intensidad de la depredación de erizos. Los resultados demuestran que la estructura de la pradera juega un papel fundamental a la hora de determinar las tasas de depredación de estos sistemas mediante el control de la disponibilidad de refugio para los erizos. En el segundo capítulo se profundiza en algunas de las cuestiones abiertas en el primer capítulo comparando las tasas de depredación en un gradiente de complejidad estructural de diferentes praderas de macrófitos. Para poder generalizar los resultados, se comparan las tendencias encontradas entre tres diferentes bioregiones —Caribe, Mediterráneo occidental y Australia occidental— cada una caracterizada por su propia composición local de depredadores. Los resultados muestran que la estructura del hábitat regula la depredación en todas las regiones estudiadas, pero que la dirección de la influencia depende de la composición local de los depredadores. En regiones dominadas por depredadores pelágicos, es decir peces, se observa una relación negativa entre la intensidad de depredación y la complejidad de la estructura de los hábitats. Por el contrario, en regiones donde dominan los depredadores bentónicos, como gasterópodos, la actividad de depredación aumenta con la complejidad de la estructura del hábitat. La forma en la que los hábitats se distribuyen en el espacio puede tener efectos muy fuertes sobre las interacciones depredador-presa. En el tercer capítulo se examina la influencia de las características del paisaje de una pradera de P. oceánica fragmentada sobre la depredación. Los resultados indican que un paisaje en mosaico puede generar una distribución heterogénea del proceso de depredación determinando “puntos-fríos” y “puntos-calientes” de depredación en función de la complejidad estructural de las manchas, de la presencia de roca como refugio y del grado de agregación de estas características en el espacio. En definitiva esta tesis ofrece un estudio exhaustivo sobre como varía el proceso de depredación en las comunidades de macrófitos a diferentes escalas espaciales. La presente tesis demuestra que la estructura del hábitat es un factor regulador de la depredación de erizos, un componente clave en la cadena trófica de estos ecosistemas.
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Bedford, Alan Peter. "Metazoan detritivores and underwater decomposition processes of detached sublittoral macrophytes." Thesis, University of Glasgow, 1986. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.280777.
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Aichner, Bernhard. "Aquatic macrophyte-derived biomarkers as palaeolimnological proxies on the Tibetan Plateau." Phd thesis, Universität Potsdam, 2009. http://opus.kobv.de/ubp/volltexte/2010/4209/.
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The Tibetan Plateau is the largest elevated landmass in the world and profoundly influences atmospheric circulation patterns such as the Asian monsoon system. Therefore this area has been increasingly in focus of palaeoenvironmental studies. This thesis evaluates the applicability of organic biomarkers for palaeolimnological purposes on the Tibetan Plateau with a focus on aquatic macrophyte-derived biomarkers. Submerged aquatic macrophytes have to be considered to significantly influence the sediment organic matter due to their high abundance in many Tibetan lakes. They can show highly 13C-enriched biomass because of their carbon metabolism and it is therefore crucial for the interpretation of δ13C values in sediment cores to understand to which extent aquatic macrophytes contribute to the isotopic signal of the sediments in Tibetan lakes and in which way variations can be explained in a palaeolimnological context. Additionally, the high abundance of macrophytes makes them interesting as potential recorders of lake water δD. Hydrogen isotope analysis of biomarkers is a rapidly evolving field to reconstruct past hydrological conditions and therefore of special relevance on the Tibetan Plateau due to the direct linkage between variations of monsoon intensity and changes in regional precipitation / evaporation balances.
A set of surface sediment and aquatic macrophyte samples from the central and eastern Tibetan Plateau was analysed for composition as well as carbon and hydrogen isotopes of n-alkanes. It was shown how variable δ13C values of bulk organic matter and leaf lipids can be in submerged macrophytes even of a single species and how strongly these parameters are affected by them in corresponding sediments. The estimated contribution of the macrophytes by means of a binary isotopic model was calculated to be up to 60% (mean: 40%) to total organic carbon and up to 100% (mean: 66%) to mid-chain n-alkanes. Hydrogen isotopes of n-alkanes turned out to record δD of meteoric water of the summer precipitation. The apparent enrichment factor between water and n-alkanes was in range of previously reported ones (≈-130‰) at the most humid sites, but smaller (average: -86‰) at sites with a negative moisture budget. This indicates an influence of evaporation and evapotranspiration on δD of source water for aquatic and terrestrial plants. The offset between δD of mid- and long-chain n-alkanes was close to zero in most of the samples, suggesting that lake water as well as soil and leaf water are affected to a similar extent by those effects.
To apply biomarkers in a palaeolimnological context, the aliphatic biomarker fraction of a sediment core from Lake Koucha (34.0° N; 97.2° E; eastern Tibetan Plateau) was analysed for concentrations, δ13C and δD values of compounds. Before ca. 8 cal ka BP, the lake was dominated by aquatic macrophyte-derived mid-chain n-alkanes, while after 6 cal ka BP high concentrations of a C20 highly branched isoprenoid compound indicate a predominance of phytoplankton. Those two principally different states of the lake were linked by a transition period with high abundances of microbial biomarkers. δ13C values were relatively constant for long-chain n-alkanes, while mid-chain n-alkanes showed variations between -23.5 to -12.6‰. Highest values were observed for the assumed period of maximum macrophyte growth during the late glacial and for the phytoplankton maximum during the middle and late Holocene. Therefore, the enriched values were interpreted to be caused by carbon limitation which in turn was induced by high macrophyte and primary productivity, respectively. Hydrogen isotope signatures of mid-chain n-alkanes have been shown to be able to track a previously deduced episode of reduced moisture availability between ca. 10 and 7 cal ka BP, indicated by a 20‰ shift towards higher δD values. Indications for cooler episodes at 6.0, 3.1 and 1.8 cal ka BP were gained from drops of biomarker concentrations, especially microbial-derived hopanoids, and from coincidental shifts towards lower δ13C values. Those episodes correspond well with cool events reported from other locations on the Tibetan Plateau as well as in the Northern Hemisphere.
To conclude, the study of recent sediments and plants improved the understanding of factors affecting the composition and isotopic signatures of aliphatic biomarkers in sediments. Concentrations and isotopic signatures of the biomarkers in Lake Koucha could be interpreted in a palaeolimnological context and contribute to the knowledge about the history of the lake. Aquatic macrophyte-derived mid-chain n-alkanes were especially useful, due to their high abundance in many Tibetan Lakes and their ability to record major changes of lake productivity and palaeo-hydrological conditions. Therefore, they have the potential to contribute to a fuller understanding of past climate variability in this key region for atmospheric circulation systems.Das tibetische Hochplateau ist die größte gehobene Landmasse der Erde und beeinflusst maßgeblich atmosphärische Zirkulationsmuster wie den Asiatischen Monsun. Um die Auswirkungen zukünftiger Schwankungen der Monsundynamik auf das regionale Klima besser einschätzen zu können, ist es wichtig, ein fundiertes Verständnis vergangener Klimaänderungen zu entwickeln. Daher ist das Tibetplateau in den letzten Jahren mehr und mehr in den Fokus paläoklimatischer Studien gerückt. Die große Anzahl an Seen in der Region bietet ein unerschöpfliches Klimaarchiv und viele Studien haben sich bereits mit Seesedimenten zur Klimarekonstruktion befasst. Dabei wurde in erster Linie auf biologische, sedimentologische und geochemische Parameter zurückgegriffen, wohingegen organische Biomarker bisher recht selten benutzt wurden. Die vorliegende Arbeit untersucht die Anwendbarkeit dieser potentiellen Klimaindikatoren auf dem Tibetplateau. Hierbei wurde ein Schwerpunkt auf die Analyse kutikularer Blattwachse von Wasserpflanzen gelegt, da diese wegen ihres starken Auftretens in tibetischen Seen einen erheblichen Beitrag zur organischen Substanz im Sediment leisten. Um den Einfluss von Wasserpflanzen auf das Sediment über einen weiten klimatischen Gradienten zu untersuchen, wurden Oberflächensedimente und Wasserpflanzen vom zentralen und östlichen Tibetplateau auf ihre Biomarkerzusammensetzung sowie auf ihre Kohlen- und Wasserstoffisotopensignatur untersucht. Dadurch wurde das Verständnis über beeinflussende Faktoren auf diese Parameter in Sedimenten vertieft. In einem Sedimentbohrkern des Koucha-Sees (östliches Tibetplateau) konnten diese Parameter dann im Hinblick auf Änderungen der Produktivität im See sowie der hydrologischen und klimatischen Bedingungen der letzten 15000 Jahre interpretiert werden. Es zeigte sich, dass der See bis 8000 Jahre vor Heute stark mit Wasserpflanzen bewachsen war, während die letzten 6000 Jahre Algen dominierten. Mit Hilfe von Wasserstoffisotopen wurden eine Zunahme des Monsuns und steigende Niederschläge zwischen 15000 und 10000 Jahren vor Heute sowie eine relativ trockene Periode zwischen 10000 und 7000 Jahren vor Heute rekonstruiert. Durch Kombination von Biomarkerkonzentrationen sowie deren Kohlenstoffisotopensignal wurden außerdem kurzzeitige Kälteperioden um ca. 6000, 3100 und 1800 Jahren vor Heute nachgewiesen, die vorher bereits in anderen Klimaarchiven in Tibet sowie auf der nördlichen Hemisphäre belegt wurden. Mit Hilfe von organischen Biomarkern konnte so ein detailliertes Bild über die Entwicklung des Koucha-Sees seit dem letzten Glazial gewonnen werden. Organische Biomarker haben sich somit als geeignet erwiesen, einen Beitrag zur Klimarekonstruktion auf dem Tibetplateau zu leisten.
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Anderson, Robin 1956. "The relationship between sediment nutrients and aquatic macrophyte biomass in situ /." Thesis, McGill University, 1985. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=72757.
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Handley, Richard John. "Determinants of rarity in a dioecious annual macrophyte, Najas marina L." Thesis, University of East Anglia, 2000. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.327542.
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Dodkins, Ian Robert. "Developing a macrophyte index of ecological status for Northern Ireland's rivers." Thesis, University of Ulster, 2002. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.232838.
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Linder, Wiktorsson Emilia. "Eutrophication effects on a coastal macrophyte community in the Bothnian Sea." Thesis, Umeå universitet, Institutionen för ekologi, miljö och geovetenskap, 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:umu:diva-184367.
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Eutrophication is a major concern in the Baltic Sea and it is affecting macrophyte communities by promoting the growth of opportunistic algae and decreasing the cover of perennial macrophyte species via shading. It is however uncertain how common eutrophication and its symptoms are in the northern parts of the Baltic Sea, the Botnian Sea. The aim of this study was to evaluate if Sörleviken, a bay in the Bothnian Sea, show signs of increased eutrophication pressure in 2020 compared to 2007 based on changes in macrophyte cover and composition. The macrophyte community was inventoried with under-water video techniques in 2020 along three transects, matching transects previously inventoried by a diver in 2007. The three transects were located in the inner, middle and the outer parts of the bay. The results showed that macrophyte diversity was lower in 2020 than in 2007 along the outer transect, but overall, the total cover of macrophytes, relative cover of opportunistic algae, species richness and evenness remained unchanged. A possible higher presence of Stuckenia pectinata (former Potamogeton pectinatus) and a possible lower presence of Chara aspera in 2o2o compared to 2007 might be evidence of higher eutrophication pressure in 2020. However, by observing the general changes in the macrophyte community, this study only provides weak or inconclusive signs of increased eutrophication pressure, thus Sörleviken shows no signs of either improvement of or further increases in eutrophication pressure by 2020 compared to the observations in 2007.
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Nondoda, Sibulele Phefumlela. "Macrophyte distribution and responses to drought in the St Lucia Estuary." Thesis, Nelson Mandela Metropolitan University, 2012. http://hdl.handle.net/10948/d1012330.
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This study investigated the response of the macrophytes in St Lucia Estuary, northern KwaZulu-Natal to drought. The present distribution of vegetation (2010 / 2011) was mapped and changes over time recorded from past aerial photographs. The changes in macrophyte cover in response to environmental factors (sediment and groundwater characteristics) was measured along four transects in 2010 and compared with results from previous years, in 2005 and 2006. In the current study, 1960 images were digitized to illustrate macrophyte distribution and cover of the Narrows, Makakatana and the Eastern Shores during a low rainfall period which started in 1958. The 2001 images were digitized to illustrate vegetation distribution and cover of the same area prior to the current drought which started in June/ July 2002. The 2008 images were digitized to illustrate vegetation distribution and cover of estuarine vegetation within the floodplain during the drought (after 6 years). The sites were visited in June 2011 for verification of the distribution and boundaries of each macrophyte habitat. The area covered by the water column varied over time. In 1960 during a low rainfall period the water was 32705 ha, 33320 ha in 2001 and reduced to 30443 ha in 2008. The area cover of inundated and dry reeds fluctuated with the water level. Under high water levels, low-lying areas such as Fanies Island and Selley‟s Lake were flooded and under low water levels, intertidal sand and mudflats were exposed and colonised by succulent salt marsh (Sarcocornia spp. and Salicornia meyeriana). Similar conditions were observed at Makakatana. Mangroves were observed from the mouth to the Forks. Avicennia marina was the dominant mangrove species and primary colonizer of dredge spoil. The area cover of mangroves in the vicinity of the mouth fluctuated as a result of fluctuating water levels, dredging operations, excavation of the Back Channel and Cyclone Gamede which killed intertidal vegetation. Between 2001 and 2008, mangrove expansion was faster in the Mfolozi Swamps area (± 1.4 ha yr -1) compared to the Narrows (± 0.4 ha yr -1). Long term monitoring transects were set up in 2005, at Makakatana, Charters Creek, Catalina Bay and at Listers Point to document changes in sediment conditions and vegetation cover. These were sampled in July 2005, October 2005, February 2006 and May 2010. Silt was the dominant particle size at Catalina Bay, Charters Creek and Makakatana. At Makakatana, average ground water salinity was 17.2 ± 6.6 ppt, 4.1± 4.9 ppt at Catalina Bay and 32.9 ± 19.3 ppt at Charters Creek. Drought resulted in the accumulation of salt on the surface sediment layer at Listers Point and Charters Creek due to low rainfall. Listers Point, the site with the lowest freshwater input and habitat diversity had the lowest macrophyte species richness with only three species. The dominant species at this site were Sporobolus virginicus and Chenopodium album L. which are highly salt tolerant species. Catalina Bay had the highest species richness (18 to 27); as a result of freshwater input via groundwater seepage from the sand dune aquifers on the Eastern Shores. Along the Eastern Shores, vegetation was dominated by species of Cyperaceae, Juncaceae and Juncaginaceae. Fluctuations in groundwater depth were observed at all sites, Listers Point groundwater depth in February 2006 was 80 cm and the ground water level was not reached during the May 2010 field trip. During the May 2010 field trip, the water column salinity of the St Lucia system was highly variable, Makakatana had the lowest water column salinity of 7.1 ppt, 42.1 ppt at Catalina Bay, 44 ppt at Charters Creek and Listers Point had the highest water column salinity of 95 ppt. An assessment of the changes in macrophyte cover along the transects showed that cover fluctuated in response to rainfall, water level and drought. At Listers Point, there was a continuous decline in the abundance of Sporobolus virginicus over time which was sparsely distributed in the first 40 m of the transect. Sarcocornia natalensis, a succulent and obligate halophyte, was recorded, in areas with high sediment conductivity. In May 2010, bare ground increased to an average percentage cover of 96.5% and was covered with dead organic matter and a salt crust at Listers Point. At Makakatana, there was a significant decrease in bare ground from July 2005 to May 2010 (H = 24.58, N = 197, p<0.001) as bare areas were colonized by salt marsh. Multivariate analysis showed that the abundance of Sporobolus virginicus was positively influenced by sediment moisture content and Paspalum vaginatum abundance was strongly influenced by the water column salinity. At Catalina Bay, low sediment conductivity at the groundwater seepage area resulted in terrestrial vegetation encroaching on estuarine vegetation. Sarcocornia natalensis became more abundant towards the water column. During the period of study, species richness at St Lucia ranged from 2 (Listers Point, May 2010) to 27 (Catalina Bay, February 2006). Salinity and water level fluctuation have a significant impact on the distribution of macrophytes at St Lucia during the drought. In saline areas salt marsh plants have colonized exposed shorelines and along the Eastern Shores groundwater seepage has increased macrophyte species richness. Low water levels have resulted in the exposure and desiccation of submerged macrophytes, which are replaced by macroalgae.
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Batista, Lígia Flávia Antunes [UNESP]. "Modelagem espaço-temporal da colonização de macrófitas submersas no reservatório de Taquaruçu." Universidade Estadual Paulista (UNESP), 2011. http://hdl.handle.net/11449/100266.
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batista_lfa_dr_prud.pdf: 2832429 bytes, checksum: 6a04247002ae8968fcab468a8a207011 (MD5)Este trabalho propõe um modelo espaço-temporal para o desenvolvimento de macrófitas submersas no reservatório de Taquaruçu, rio Paranapenama, no município de Santo Inácio, estado do Paraná. A abordagem de construção do modelo é teórico-empírica, baseada em dados. O estudo da vegetação submersa é relevante pois a sua proliferação excessiva acarreta desequilíbrio ecológico e prejuízos econômicos para usinas hidrelétricas. Foram realizados dez levantamentos de campo no reservatório de Taquaruçu, rio Paranapenama. Utilizou-se a técnica hidroacústica para mapear a vegetação e a profundidade e foram adquiridas medidas limnológicas. A análise exploratória mostrou grande redução da infestação de 2009 para 2010, justificada pela intensa precipitação ocorrida no período. Constatou-se regiões de crescimento e decaimento da vegetação, heterogeneamente distribuídas no espaço e no tempo. O modelo gerado divide-se em: modelo pontual, determinístico, que descreve o crescimento vertical da vegetação, independente da vizinhança e modelo probabilístico, para estimar a propagação da vegetação em área. O modelo pontual foi baseado no modelo logístico, caracterizado pela curva sigmoidal. As variáveis utilizadas foram profundidade e coeficiente de atenuação. Os coeficientes do modelo foram calibrados com algoritmos genéticos, com a utilização de 18 pontos, coletados entre abril e agosto de 2010. Os dados de entrada deste modelo foram gerados com interpolação por krigeagem ordinária e resolução de 3 m. Na etapa de validação utilizou-se de 12 pontos, em que avaliou-se a estatística descritiva dos resíduos, índices de qualidade de ajustamento, análise gráfica da...
The focus of this work is to design a spatiotemporal model of submerged macrophyte development. The model developing approach is empirical, based on field data. The study of submerged vegetation is important due to its excessive proliferation, which causes ecological unbalance and economical losses to hydroelectric power plants. Ten field surveys were made in Taquaruçu reservoir, Paranapanema river. Hydroacoustic techniques were used to map the vegetation and depth, and limnological measurements were made. Exploratory analysis showed a great infestation reduction from 2009 to 2010, probably caused by the precipitation volume which occurred in that time. Macrophyte growth and decay regions were distributed in space and time in a heterogeneous way. The model produced is divided in: local model, deterministic, which describes the vertical vegetation growth, without neighborhood influence; and the probabilistic model, which estimates the macrophyte propagation in area. The local model was based on the logistic model whose curve is sigmoidal. The variables used were depth and attenuation coefficient. Model coefficients were calibrated with genetic algorithms, with 18 points collected between April and August 2010. Input data were generated with ordinary kriging interpolation and a resolution of 3 m. In the validation phase 12 points were used and descriptive statistics of residual... (Complete abstract click electronic access below)
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Rabasco, Robert. "Trophic effects of macrophyte removal on fish populations in a boreal lake." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 2000. http://www.collectionscanada.ca/obj/s4/f2/dsk1/tape4/PQDD_0018/MQ56145.pdf.
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Fotheringham, A. F. "The role of organic molecules within an aquatic macrophyte/diatom epiphyte community." Thesis, University of Reading, 1985. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.370125.
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Baydoun, Mohamad. "Intérêt du macrophyte Myriophyllum alterniflorum pour la détection de contaminants dans l'environnement." Thesis, Limoges, 2018. http://www.theses.fr/2018LIMO0087.
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Le but de ce travail de thèse est de démontrer l’intérêt d’un macrophyte aquatique submergé, Myriophyllum alterniflorum pour la détection de contaminants dans l’environnement. Des études in situ ont été réalisées pendant 28 jours sur cinq milieux aquatiques, affectés par différents types de pression anthropique, durant trois campagnes de terrain (printemps 2015, automne 2015 et printemps 2016), pour déterminer si l’accumulation des contaminants dans la plante et si des biomarqueurs du myriophylle peuvent être utilisés pour détecter la présence de contaminants dans les eaux. L’accumulation des contaminants au cours du temps était corrélée avec les teneurs des contaminants dans l’eau ; l’influence de la durée d’exposition a été étudiée. Au cours des trois campagnes, la réponse des biomarqueurs, teneur en MDA et activité de nitrate réductase était corrélée avec les teneurs en contaminants dans l’eau et dans la plante ; cependant l’influence de la durée d’exposition sur l’évolution de la réponse des biomarqueurs est moindre par rapport à celle de l’accumulation des contaminants. Ainsi, l’étude des biomarqueurs pourrait permettre une évaluation plus fiable de la qualité des masses d’eau que le suivi de l’accumulation dans la plante. Au cours de la campagne printemps 2015, un panel de biomarqueurs plus large a été étudié afin de définir les biomarqueurs les plus pertinents pour détecter spécifiquement les pressions liées aux activités urbaines ou industrielles. Une méthodologie d’évaluation de la qualité des eaux est proposée, en considérant un protocole d’analyse des biomarqueurs : un premier dosage de Chlb et MDA est simple et moins coûteux. Quand aucune preuve d'impact anthropique n'est montrée, aucune analyse complémentaire n'est requise. En revanche, lorsqu’une altération est mise en évidence, l’analyse d'autres biomarqueurs plus spécifiques tels que les activités G6PDH et γ-GCS sera nécessaire. La réponse de l'activité γ-GCS est spécifique du stress métallique, ainsi, la réponse de ce biomarqueur devrait amener à réaliser l’analyse des métaux/métalloïdes dans M. alterniflorumThe aim of this thesis is to demonstrate the interest of a submerged aquatic macrophyte, Myriophyllum alterniflorum for the detection of contaminants in the environment. In situ studies were conducted over 28 days in five aquatic environments, affected by different levels of anthropogenic pressure, during three field seasons (spring 2015, autumn 2015 and spring 2016), to determine whether the accumulation of contaminants in the plant and whether biomarkers can be used to detect the presence of contaminants in water. The accumulation of contaminants over time was correlated with the levels of contaminants in the water; the influence of the duration of exposure has been studied. In all three campaigns, biomarker response, MDA content, and nitrate reductase activity were correlated with contaminant levels in water and in the plant; however, the influence of the duration of exposure on the evolution of the biomarker response is lower compared to the accumulation of contaminants. Thus, the study of biomarkers could allow a more reliable assessment of the quality of water bodies than the monitoring of contaminant accumulation in the plant. During the spring 2015 campaign, a much broader biomarker panel was investigated to define the most relevant biomarkers for assessing water quality. A methodology for evaluating water quality is proposed, considering a biomarker analysis protocol: a first assay of Chlb and MDA is simple and less expensive. When no evidence of human impact is shown, no further analysis is required. On the other hand, when an alteration is highlighted, the analysis of other more specific biomarkers such as G6PDH and γ-GCS activities will be necessary. The response of γ-GCS activity is specific for metal stress, so the response of this biomarker should lead to the analysis of metals / metalloids in M. alterniflorum
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Batista, Lígia Flávia Antunes. "Modelagem espaço-temporal da colonização de macrófitas submersas no reservatório de Taquaruçu /." Presidente Prudente : [s.n.], 2011. http://hdl.handle.net/11449/100266.
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Orientador: Nilton Nobuhiro ImaiCoorientador: Edivaldo Domingues Velini
Banca: Tiago Garcia de Senna Carneiro
Banca: Thiago Sanna Freire Silva
Banca: Robinson Antonio Pitelli
Banca: Messias Meneguette Júnior
Resumo: Este trabalho propõe um modelo espaço-temporal para o desenvolvimento de macrófitas submersas no reservatório de Taquaruçu, rio Paranapenama, no município de Santo Inácio, estado do Paraná. A abordagem de construção do modelo é teórico-empírica, baseada em dados. O estudo da vegetação submersa é relevante pois a sua proliferação excessiva acarreta desequilíbrio ecológico e prejuízos econômicos para usinas hidrelétricas. Foram realizados dez levantamentos de campo no reservatório de Taquaruçu, rio Paranapenama. Utilizou-se a técnica hidroacústica para mapear a vegetação e a profundidade e foram adquiridas medidas limnológicas. A análise exploratória mostrou grande redução da infestação de 2009 para 2010, justificada pela intensa precipitação ocorrida no período. Constatou-se regiões de crescimento e decaimento da vegetação, heterogeneamente distribuídas no espaço e no tempo. O modelo gerado divide-se em: modelo pontual, determinístico, que descreve o crescimento vertical da vegetação, independente da vizinhança e modelo probabilístico, para estimar a propagação da vegetação em área. O modelo pontual foi baseado no modelo logístico, caracterizado pela curva sigmoidal. As variáveis utilizadas foram profundidade e coeficiente de atenuação. Os coeficientes do modelo foram calibrados com algoritmos genéticos, com a utilização de 18 pontos, coletados entre abril e agosto de 2010. Os dados de entrada deste modelo foram gerados com interpolação por krigeagem ordinária e resolução de 3 m. Na etapa de validação utilizou-se de 12 pontos, em que avaliou-se a estatística descritiva dos resíduos, índices de qualidade de ajustamento, análise gráfica da... (Resumo completo, clicar acesso eletrônico abaixo)
Abstract: The focus of this work is to design a spatiotemporal model of submerged macrophyte development. The model developing approach is empirical, based on field data. The study of submerged vegetation is important due to its excessive proliferation, which causes ecological unbalance and economical losses to hydroelectric power plants. Ten field surveys were made in Taquaruçu reservoir, Paranapanema river. Hydroacoustic techniques were used to map the vegetation and depth, and limnological measurements were made. Exploratory analysis showed a great infestation reduction from 2009 to 2010, probably caused by the precipitation volume which occurred in that time. Macrophyte growth and decay regions were distributed in space and time in a heterogeneous way. The model produced is divided in: local model, deterministic, which describes the vertical vegetation growth, without neighborhood influence; and the probabilistic model, which estimates the macrophyte propagation in area. The local model was based on the logistic model whose curve is sigmoidal. The variables used were depth and attenuation coefficient. Model coefficients were calibrated with genetic algorithms, with 18 points collected between April and August 2010. Input data were generated with ordinary kriging interpolation and a resolution of 3 m. In the validation phase 12 points were used and descriptive statistics of residual... (Complete abstract click electronic access below)
Doutor
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Vermaire, Jesse. "Reconstructing macrophyte biomass dynamics in temperate lakes of northeastern North America using paleolimnology." Thesis, McGill University, 2011. http://digitool.Library.McGill.CA:80/R/?func=dbin-jump-full&object_id=97004.
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Submerged macrophytes are known to influence the structure and function of lake ecosystems. Despite their importance, long term monitoring records of macrophytes are rare and thus relatively little is know regarding how human activities have altered macrophyte abundance in lakes. Paleolimnological reconstructions may provide the best approach for examining long-term trends in macrophyte abundance. This thesis evaluates the potential of sedimentary diatoms as indicators of macrophyte abundance and examines the long-term effects of human activities on ecosystem stability and macrophyte abundance. A novel analysis of an existing dataset showed that there were significant differences in the sedimentary diatom assemblage of lakes with either high or low macrophyte cover, and that these differences in the diatom assemblages can be used to infer the macrophyte cover of lakes. I further examined the influence of macrophytes on diatoms using a continuous measure of whole-lake macrophyte biomass in 41 lakes located in southern Quebec, Canada, and showed that diatoms can be used to detect substantial changes in macrophyte abundance through time. An analysis of the effects of external phosphorus (P) inputs to the lake showed that increasing P inputs resulted in greater diatom dissimilarity through time, providing empirical evidence for the idea that P inputs increase ecosystem variability. Finally, I show a widespread trend of a relative reduction in benthic diatoms and an inferred decline in macrophyte abundance between pre-1850 and present-day conditions, which is significantly related to modern land use. Together, this thesis advances our ability to track long-term changes in macrophyte abundance and demonstrates that human activities over the past ~150 years have altered ecosystem stability and reduced macrophyte abundance in southern Quebec lakes.Les macrophytes submergées influencent la structure et les fonctions des écosystèmes lacustres. Étant donné que les programmes de surveillance à long terme (décennie ou plus) des macrophytes sont rares, l'impact des activités humaines sur l'abondance des macrophytes dans les lacs est relativement peu connu. La reconstruction paléolimnologique pourrait être la meilleure approche pour examiner les tendances à long terme de l'abondance des macrophytes. Cette thèse évalue le potentiel des diatomées sédimentaires comme indicateur de l'abondance des macrophytes et examine les effets à long terme des activités humaines sur la stabilité des écosystèmes et sur l'abondance des macrophytes. Une nouvelle analyse d'un jeu de donnée existant a montré qu'il y a une différence significative entre les assemblages des diatomées sédimentaires de lacs ayant de faibles ou de larges couvertures de macrophytes. Ces différences d'assemblage peuvent être utilisées afin d'inférer la couverture de macrophytes dans les lacs. Par la suite, j'ai examiné l'influence des macrophytes sur les diatomées en utilisant une mesure continue de la biomasse du lac total de macrophyte pour 41 lacs situés dans le sud du Québec, Canada. Cette étude a montré que les diatomées peuvent être utilisées pour détecter des changements substantiels dans l'abondance des macrophytes à travers le temps. Une analyse de l'effet des apports externes en phosphore (P) aux lacs a montré que l'augmentation des apports en P résulte en un accroissement de la dissimilarité des diatomées dans le temps, ce qui fourni une preuve empirique que les apports en P augmentent la variabilité des écosystèmes. Finalement, je montre la tendance répandue de la réduction relative des diatomées benthiques et le déclin inféré de l'abondance des macrophytes entre les conditions d'avant 1850 et de nos jours, ce qui est significativement relié à l'utilisation du territoire moderne. En résumé, cette thèse fournie une nouvelle méthode pour retracer les changements à long terme de l'abondance des macrophytes et démontre que les activités humaines des quelques 150 dernières années ont altéré la stabilité des écosystèmes et réduit l'abondance des macrophytes dans les lacs du Sud du Québec.
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Lokker, Cynthia. "Sexual reproduction and population genetics of the clonal dioecious macrophyte Vallisneria americana Michx." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 2000. http://www.collectionscanada.ca/obj/s4/f2/dsk1/tape2/PQDD_0012/NQ52428.pdf.
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Gilbert, Janice M. "Examining the link between macrophyte diversity, bacterial diversity, and denitrification function in wetlands." Connect to this title online, 2004. http://rave.ohiolink.edu/etdc/view?acc%5Fnum=osu1086098505.
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Thesis (Ph. D.)--Ohio State University, 2004.Document formatted into pages; contains xiii, 234 p. Includes bibliographical references. Abstract available online via OhioLINK's ETD Center; full text release delayed at author's request until 2005 June 1.
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Urban, Rebecca Anne. "An invasive macrophyte creates cascading ecosystem effects through suppression of a native isoetid." Diss., Online access via UMI:, 2008.
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Wrede, Jenny. "Pharmaceutically active compounds might bioaccumulate and cause effects on the free – floating macrophyte." Doctoral thesis, Humboldt-Universität zu Berlin, Lebenswissenschaftliche Fakultät, 2015. http://dx.doi.org/10.18452/17324.
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Pharmazeutisch aktive Stoffe (PhACs) sind in allen anthropogen beeinflussten Oberflächengewässern ubiquitär (> 1 µg/l) nachzuweisen. Mehr als 80 verschiedene PhACs und ihre Metaboliten konnten in Oberflächengewässern vor. Es wurden weltweit verschiedene Substanzen in Flüssen detektiert, welche sich in verschiedene Wirkklassen unterscheiden lassen: Schmerzmittel, Lipidsenker, Antiepileptika, Beta-Blocker (ß-Blocker), Beta-Agonisten, Hormontherapeutika und Antibiotika. Über den Verbleib der PhACs, ihre Akkumulation und ihre biologische Wirksamkeit in Makrophyten, ist bisher wenig bekannt. Ein Ziel dieser Arbeit besteht darin, dem freischwimmenden Makrophyten Ceratophyllum demersum (C. demersum), erstmalig die biologische Wirksamkeit von PhACs darzustellen. In der hier vorgestellten Arbeit wurden folgende Ergebnisse zur Klärung der Fragestellung herausgearbeitet: - Ob und wieviel von den jeweiligen PhACs akkumuliert und von den Makrophyten umgewandelt werden können? IBU und LNG weisen eine Aufnahme in dem Nicht-Ziel-Organismus C. demersum auf. Bei CBZ und MET hingegen kommt es zur Bioakkumulation in der Makrophyte. Die Formation von hydroxy-IBU (OH-IBU) und O-desmethyl MET (O-des MET) können in den freischwimmenden Makrophyte nachgewiesen werden. - Welche Auswirkungen PhACs auf Chlorophyll als Stressmarker haben? Die Chlorophyll Pigmente sind nicht stark beeinflusst worden. CBZ, IBU, LNG und MET wiesen eine Tendenz zur Inhibition auf, wobei die größte Sensitivität bei MET auftrat: - Ob die Enzyme der Zelldetoxifikation auf die Anwesenheit von PhACs reagieren? Die aktuelle Studie demonstriert Vorkommen von physikalischen Veränderungen während der oxidativen Antwort bei den freischwimmenden Makrophyten durch CBZ-, IBU-, LNG- und MET-Expositionen. Das Enzym mGST wurde nicht beeinträchtigt bei der niedrigeren Konzentration der getesteten PhACs.Pharmaceutically active compounds (PhACs) are detected, in all anthropogenic impacted surface waters (> 1µg/l). More than 80 different PhACs and their metabolites are detected in aquatic ecosystems. PhACs from human medicine or veterinary reach the environment primarily through sewage treatment plants (STP). The relevant substances are analgesic, lipid lowering agents, anti-epileptic drugs, beta-blockers, hormone therapeutics and antibiotics. Therefore, the PhACs which were chosen to be analysed were Carbamazepine (CBZ), Ibuprofen (IBU), Levonorgestrel (LNG) and Metoprolol (MET). In comparison to the amount of available analytical data, little is known about their accumulation and the biologically potency in the aquatic environment. The aim of the study was to assess whether PhACs might cause effects on the aquatic non-target organism, the free-floating macrophyt Ceratophyllum demersum. The following hypotheses were used for clarification: - If and how much of the chosen PhACs are accumulated and metabolized? IBU and LNG were shown to be taken up by C. demersum. CBZ and MET demonstrated incidences of bioaccumulation in C. demersum. The formation of first step metabolites (OH-IBU and O-desmethyl MET) were shown in the submerged macrophyte species C. demersum. - Which effects have PhACs on chlorophylle pigments? In C. demersum, chlorophyll pigments were not significantly affected. The results indicated that PhACs (CBZ, IBU, LNG, and MET) can influence chlorophyll pigments, whereby C. demersum showed a higher sensitivity to MET - If cell detoxification enzymes of C. demersum reacts in response to PhACs? The study demonstrated the occurrence of physiological changes in the oxidative stress response of C. demersum due to CBZ, IBU, LNG, and MET exposure. The enzyme mGST was not strongly affected during the exposure with the low concentrations of the PhACs used.
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Reed, Sharon Elizabeth. "Impact of macrophyte functional diversity on primary productivity and methane fluxes in wetland." The Ohio State University, 2002. http://rave.ohiolink.edu/etdc/view?acc_num=osu1407504662.
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Baksh, Shanaz. "Shoot architecture and growth in the south Florida wet prairie macrophyte, Eleocharis cellulosa." FIU Digital Commons, 2005. http://digitalcommons.fiu.edu/etd/1379.
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Eleocharis cellulosa is a dominant macrophyte in Everglades wet prairie communities. The development of the shoot system in the genus has been described as sympodial but with an unusual adnation of the horizontal and vertical shoots. The growth pattern of E. cellulosa was studied from field collected plants and plants grown in the greenhouse. Plants were extracted and measurements of horizontal and vertical shoot were taken. Dissections, paraffin sectioning and SEM's were used to examine shoot structure in early developmental stages. E. cellulosa was transplanted from the field to the greenhouse and different levels of Nitrogen and Phosphorus were added to determine how it responded phenotypically. Dissections and microscopy showed that growth of the vertical shoots of E. cellulosa is sympodial, while growth of the horizontal shoots is mixed, beginning monopodially then transforming to sympodial growth. Additions of nutrients did not have any effect on the morphology of E. cellulosa.
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Shipley, Bill. "Pattern and mechanism in the emergent macrophyte communities along the Ottawa River, Canada." Thesis, University of Ottawa (Canada), 1987. http://hdl.handle.net/10393/5392.
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Bowen, Patricia Margaret, and N/A. "Modelling Microbial Utilisation of Macrophyte Organic Matter Inputs to Rivers under Different Flow Conditions." University of Canberra. Resource, Environmental & Heritage Sciences, 2006. http://erl.canberra.edu.au./public/adt-AUC20070802.104452.
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The timing and composition of organic matter (OM) inputs to rivers are important as
carbon plays a major role in river functioning. Management of Australian rivers since European
settlement has altered inputs of organic matter to these systems. Heterotrophic microbes play a
critical role in the transformation of OM in rivers, allowing transfer of carbon to other biota.
Alteration to the proportions of OM from different sources affects microbial functioning due to
differences in OM composition. Macrophytes can represent important sources of carbon to
rivers, however their inputs and in-stream processing are poorly understood. The aim of my
study was to examine inputs and microbial processing of macrophyte OM in Australian lowland
rivers under different flows.
Distributions of dominant macrophytes (Typha orientalis, Phragmites australis,
Vallisneria gigantea and Persicaria prostrata) were mapped in three lowland river reaches in
south eastern Australia. Integration with flow data in a GIS allowed the determination of
macrophyte inundation patterns under different flows. Resource allocation (biomass and
nutrients), live and dead shoot densities and litter production were monitored in the field over 18
months. DOM release from different macrophyte tissues was examined in the laboratory and
leachate composition was assessed using nutrient and spectral analyses. Responses of riverine
microbial communities to different OM sources were assessed from substrate-induced respiration
and enzyme activity experiments and field measurements of respiration and enzymatic responses
to varied OM inputs. Finally, all data were integrated into a model of microbial responses to
macrophyte OM inputs induced by different flows.
Large populations of macrophytes occurred at all three sites, at bed level, on in-channel
benches and on banks. Bank slope, channel heterogeneity and the vertical distribution of
macrophyte beds all affected macrophyte inundation patterns. Substantial differences in biomass
allocation, nutrient dynamics and litter composition were observed among different plant growth
forms and over time. While leaves represented the major shoot component in litter for all
species, stems and reproductive structures were also important in some species. Aside from the
litter pool, translocation to rhizomes represented a major sink for annual production in emergent
plants.
Patterns of shoot density and litter production over time varied among species, providing
a source of variation for particulate, and hence dissolved OM inputs upon inundation. The
majority of DOM release from POM occurred within 24 hours of inundation. Growth form,
tissue type (blade, stem, etc.) and status (live or dead) affected rates, quantities and composition
of DOM release, with implications for microbial utilisation. Both overall activity and patterns of
carbon utilisation in riverine microbes changed in response to altered OM inputs. Patterns of
microbial carbon use were shown to be specific to the carbon source which induced them.
Modelling showed that flow regulation had a major impact on OM inputs and microbial
metabolism, through the effects of flow variability on macrophyte vertical distributions,
macrophyte bed inundation and dilution. Positive relationships between discharge, DOM inputs
and microbial metabolism were observed at the most highly regulated site (drought < current < historic < flood). While a similar pattern occurred at the less regulated site in terms of total
loading, dilution effects resulted in a reversal of this trend on a reach volume basis. Microbial
metabolism and DOM inputs were restricted to summer/autumn under regulated flows compared
to a greater emphasis on winter/spring inputs and microbial activity under unregulated flows.
Continual OM inputs during winter with pulsed inputs in spring under natural flows probably
benefit larger, slow-growing macro-invertebrates. River regulation promotes pulsed macrophyte
OM inputs during spring/summer, potentially favouring riverine microbial and zooplankton
production, although at lower levels due to the overall reduction in OM inputs.
The predictive model of macrophyte OM inputs and microbial responses developed
throughout this thesis represents a major step forward in our understanding of macrophytemicrobe
interactions and our ability to manage our river systems. This work has shown that flow
manipulation can be used to influence macrophyte organic matter inputs to rivers and microbial
responses, affecting whole stream metabolism and food web interactions.
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Brothers, Soren. "Carbon gains, losses, and feedbacks in shallow, eutrophic lakes of phytoplankton and macrophyte dominance." Phd thesis, Universität Potsdam, 2013. http://opus.kobv.de/ubp/volltexte/2013/6820/.
Full textAbstract:
Lakes are increasingly being recognized as an important component of the global carbon cycle, yet anthropogenic activities that alter their community structure may change the way they transport and process carbon. This research focuses on the relationship between carbon cycling and community structure of primary producers in small, shallow lakes, which are the most abundant lake type in the world, and furthermore subject to intense terrestrial-aquatic coupling due to their high perimeter:area ratio. Shifts between macrophyte and phytoplankton dominance are widespread and common in shallow lakes, with potentially large consequences to regional carbon cycling. I thus compared a lake with clear-water conditions and a submerged macrophyte community to a turbid, phytoplankton-dominated lake, describing differences in the availability, processing, and export of organic and inorganic carbon. I furthermore examined the effects of increasing terrestrial carbon inputs on internal carbon cycling processes.
Pelagic diel (24-hour) oxygen curves and independent fluorometric approaches of individual primary producers together indicated that the presence of a submerged macrophyte community facilitated higher annual rates of gross primary production than could be supported in a phytoplankton-dominated lake at similar nutrient concentrations. A simple model constructed from the empirical data suggested that this difference between regime types could be common in moderately eutrophic lakes with mean depths under three to four meters, where benthic primary production is a potentially major contributor to the whole-lake primary production. It thus appears likely that a regime shift from macrophyte to phytoplankton dominance in shallow lakes would typically decrease the quantity of autochthonous organic carbon available to lake food webs.
Sediment core analyses indicated that a regime shift from macrophyte to phytoplankton dominance was associated with a four-fold increase in carbon burial rates, signalling a major change in lake carbon cycling dynamics. Carbon mass balances suggested that increasing carbon burial rates were not due to an increase in primary production or allochthonous loading, but instead were due to a higher carbon burial efficiency (carbon burial / carbon deposition). This, in turn, was associated with diminished benthic mineralization rates and an increase in calcite precipitation, together resulting in lower surface carbon dioxide emissions.
Finally, a period of unusually high precipitation led to rising water levels, resulting in a feedback loop linking increasing concentrations of dissolved organic carbon (DOC) to severely anoxic conditions in the phytoplankton-dominated system. High water levels and DOC concentrations diminished benthic primary production (via shading) and boosted pelagic respiration rates, diminishing the hypolimnetic oxygen supply. The resulting anoxia created redox conditions which led to a major release of nutrients, DOC, and iron from the sediments. This further transformed the lake metabolism, providing a prolonged summertime anoxia below a water depth of 1 m, and leading to the near-complete loss of fish and macroinvertebrates. Pelagic pH levels also decreased significantly, increasing surface carbon dioxide emissions by an order of magnitude compared to previous years.
Altogether, this thesis adds an important body of knowledge to our understanding of the significance of the benthic zone to carbon cycling in shallow lakes. The contribution of the benthic zone towards whole-lake primary production was quantified, and was identified as an important but vulnerable site for primary production. Benthic mineralization rates were furthermore found to influence carbon burial and surface emission rates, and benthic primary productivity played an important role in determining hypolimnetic oxygen availability, thus controlling the internal sediment loading of nutrients and carbon. This thesis also uniquely demonstrates that the ecological community structure (i.e. stable regime) of a eutrophic, shallow lake can significantly influence carbon availability and processing. By changing carbon cycling pathways, regime shifts in shallow lakes may significantly alter the role of these ecosystems with respect to the global carbon cycle.Seen werden zunehmend als wichtige Komponente im globalen Kohlenstoffkreislauf anerkannt. Natürliche Veränderungen und anthropogene Aktivitäten beeinflussen die Struktur der Artengemeinschaft von Seen, was Auswirkungen auf den Transport und Umsatz von Kohlenstoff hat. Diese Arbeit konzentriert sich auf die Beziehung zwischen Kohlenstoffkreislauf und der Gemeinschaftsstruktur der Primärproduzenten in kleinen Flachseen. Diese sind der weltweit häufigste Seentyp und weisen durch ihren im Vergleich zur Fläche großen Umfang eine intensive aquatisch-terrestrische Kopplung auf. In Flachseen treten oft Regimewechsel zwischen Makrophyten- und Phytoplankton-Dominanz auf. Diese können potenziell große Konsequenzen für den regionalen Kohlenstoffkreislauf haben. In dieser Dissertation vergleiche ich einen Klarwassersee mit submersen Makrophyten und einen trüben, Phytoplankton-dominierten See hinsichtlich Verfügbarkeit, Umsatz und Export von organischem und anorganischem Kohlenstoff. Des Weiteren habe ich den Effekt der erhöhten Zufuhr von terrestrischem Kohlenstoff auf den internen Kohlenstoffumsatz untersucht. Sowohl die Tagesgänge der pelagischen Sauerstoff-Konzentrationen als auch Fluoreszenz-basierte Messungen der Primärproduktion bewiesen, dass die Präsenz von submersen Makrophyten eine höhere jährliche Brutto-Primärproduktion im Vergleich zu einem Phytoplankton-dominierten See mit ähnlichen Nährstoffkonzentrationen ermöglicht. Ein einfaches, auf den empirischen Daten basierendes Model zeigt, dass diese Unterschiede in der Brutto-Primärproduktion typisch sind für moderat eutrophe Seen mit einer mittleren Tiefe von unter 3 bis vier Metern. In diesen Seen leistet die benthische Primärproduktion den Hauptbeitrag zur Primärproduktion des ganzen Sees. Daraus wird ersichtlich, dass Regimewechsel von Makrophyten- zur Phytoplankton-Dominanz in Flachseen die Verfügbarkeit von autochthonem organischem Kohlenstoff für das Nahrungsnetz reduzieren. Paläolimnologische Analysen in Sedimentkernen beider Seen wiesen darauf hin, dass der Verlust der Makrophyten mit einer vierfachen Zunahme der Kohlenstoff-Speicherraten einhergeht, und somit zu einer großen Veränderung der Dynamik des Kohlenstoffkreislaufs im See führt. Unsere Kohlenstoff-Massenbilanzen zeigen, dass die Erhöhung der Kohlenstoff-Speicherung im Sediment nicht durch die Erhöhung der Primärproduktion oder durch externe Quellen, sondern durch erhöhte der Effizienz der Speicherung begründet war. Dies geht mit einer reduzierten benthischen Mineralisierungsrate und einer erhöhten Calcitfällung einher und führt zu reduzierten Kohlendioxid-Emissionen. Eine Periode ungewöhnlich hoher Niederschläge mit erhöhten Wasserständen führte im Phytoplankton-dominierten See zu zu einem starken Anstieg der Konzentrationen an gelöstem organischem Kohlenstoff (DOC) und zu anoxischen Bedingungen. Es wurde postuliert, dass zwischen diesen Prozessen eine positive Rückkopplung besteht. Die hohen Wasserstände und DOC-Konzentrationen reduzierten die Lichtversorgung und damit die Primärproduktion im Benthal und erhöhten die pelagischen Respirationsraten. Dadurch verringerte sich die Sauerstoffverfügbarkeit im Hypolimnion. Die dadurch erzeugten Redox-Verhältnisse führten zu einer Freisetzung großer Mengen an Nährstoffen, DOC und Eisen aus dem Sediment. Die während des gesamten Sommers andauernden anoxischen Verhältnisse in Wassertiefen unter 1 m führten zu einem fast vollständigen Verlust von Fischen und Makroinvertebraten. Zusätzlich wurde der pH-Wert im Pelagial signifikant erniedrigt und die Kohlenstoffdioxid-Emissionen im Vergleich zu früheren Jahren verzehnfacht. Insgesamt trägt diese Dissertation wesentliche Aspekte zum besseren Verständnis der Bedeutung des Benthals für den Kohlenstoffkreislauf in Flachseen bei. Der Anteil der benthischen Zone an der Primärproduktion in kleinen Flachseen wurde in Relation zur Gesamtproduktion des Systems quantifiziert. Letztlich zeigt diese Arbeit, dass die Gemeinschaftsstruktur der Primärproduzenten eines eutrophen Flachsees die Verfügbarkeit und den Umsatz von Kohlenstoff signifikant beeinflusst. Regimewechsel in Flachseen können durch Änderungen im internen Kohlenstoffkreislauf deren Rolle im globalen Kohlenstoffkreislauf verändern.
29
Bowen, Patricia Margaret. "Modelling microbial utilisation of macrophyte organic matter inputs to rivers under different flow conditions /." full text available on ADT, 2006. http://erl.canberra.edu.au/public/adt-AUC20070802.104452/index.html.
Full textAbstract:
Thesis (PhD) - University of Canberra."March 2006" Submitted in accordance with assessment requirements for the Doctor of Philosophy degree of the University of Canberra. Bibliography: p. 228 - 250.
30
Neckles, Hilary A. "Relative effects of nutrient enrichment and grazing on epiphyton-macrophyte (Zostera marina L.) dynamics." W&M ScholarWorks, 1990. https://scholarworks.wm.edu/etd/1539616789.
Full textAbstract:
Dissolved nutrient concentrations and invertebrate grazing activity regulate epiphytic biomass. Because epiphyton may limit light and carbon at leaf surfaces and the consequent productivity of submerged macrophytes, factors which influence epiphytic biomass may indirectly affect macrophyte abundance. I measured the simultaneous effects of water column nutrients (ambient or 3x ambient concentrations of nitrogen and phosphorus) and grazing (presence or absence of epifaunal community) on epiphyton and macrophytes seasonally in eelgrass (Zostera marina L.) microcosms on lower Chesapeake Bay. Grazing was more important than nutrients in controlling accrual of total epiphytic biomass, although effects on epiphytic components varied; numbers of diatoms responded to grazing, whereas numbers of cyanobacteria responded to nutrients. Numbers of heterotrophic microflagellates mimicked those of bacteria. The indirect effects of nutrients and grazing on macrophytes depended upon the relative magnitude of each factor and the physiological demands of the macrophyte. Under low grazer densities of early summer, macrophyte production (g m&\sp{lcub}-2{rcub}& d&\sp{lcub}-1{rcub}&) was reduced with grazer removal and nutrient enrichment independently. In contrast, under high densities of late summer, production was reduced by enrichment with grazers absent only. There were no macrophyte responses to treatment during the spring and fall, regardless of differences in epiphytic biomass; this may have been related to comparatively low light requirements of eelgrass at low temperatures. I used a simulation model to extrapolate microcosm results to predictions for community persistence. The model included ranges of environmental variables specific to lower Chesapeake Bay, where declines in eelgrass abundance in recent decades were correlated with nutrient enrichment, reduced grazer populations, and increased turbidity. Simulations indicated that neither nutrient enrichment nor loss of grazers alone would limit eelgrass survival, but together would cause community instability. Simulations indicated further that with grazers present, nutrient enrichment with a slight decrease in submarine irradiance would cause macrophyte loss. Measured rates of epiphytic accrual on artificial substrata in situ suggested that with grazers present, light reduction actually reduced the absolute rates of biomass accumulation despite nutrient enrichment. Predictions for macrophyte community stability must thus consider the relative effects of both direct (acting on macrophytes) and indirect (acting via epiphyton) environmental controls.
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Vromans, Deborah Claire. "Macrophyte phenology in a temporarily open/closed Estuary compared with a permanently open Estuary." Thesis, Nelson Mandela Metropolitan University, 2010. http://hdl.handle.net/10948/1393.
Full textAbstract:
Temporarily open/closed estuaries (TOCEs) are unpredictable environments that change in response to mouth condition, which is influenced by freshwater flooding or sea storm surges. The aim of the study was to determine whether macrophyte phenology in a TOCE was event driven rather than cyclically predictable and if it differed from permanently open estuaries (POEs). Macrophyte growth and flowering phenology in response to environmental conditions was investigated in the East Kleinemonde Estuary (TOCE) and the Kowie Estuary (POE) along the eastern coastline of South Africa. The lack of freshwater flooding due to low rainfall coupled with several overwash events resulted in a prolonged period of mouth closure from September 2008 to the end of this study period in 2010. This in turn caused the inundation of the supratidal and intertidal habitats, high water level (> 1.57 m amsl) and high salinity (30 - 42 ppt) in the TOCE. Principle Components Analysis showed that high water level and reduced sediments were the most significant environmental factors affecting macrophyte phenology. Macrophyte phenology in the POE was primarily driven by temperature, sediment redox potential and salinity. The saline high water level and reduced sediment significantly reduced macrophyte cover in all habitats in the TOCE. Macrophytes in the POE maintained high cover abundance due to seasonal re-growth compared to the TOCE where cover declined over the sampling period due to the high water level. Subsequent to water level dropping by as little as 11 - 20 cm in the TOCE, the intertidal species Sarcocornia tegetaria and Salicornia meyeriana completed their life-cycles and produced viable seeds within four and three months of germinating respectively. In contrast, the Sarcocornia hybrid and S. meyeriana in the POE took longer to complete their life-cycles, namely seven and nine months respectively, while S. tegataria did not germinate in situ but reproduced vegetatively despite producing seed. In the TOCE, the submerged species Ruppia cirrhosa and Chara vulgaris completed their life-cycles within five and three months and produced a maximum of 26 242 and 196 998 seeds m-2 respectively. Due to high water level and prolonged inundation, the reproductive periods were shorter for the intertidal and reed and sedge species in the TOCE compared to the POE. Seed output during the two reproduction periods varied between the two estuaries. Sarcocornia decumbens and S. tegetaria produced a substantially higher number of seeds in the TOCE compared to the POE, namely 0 - 102 847 versus 20 661 - 48 576 seeds m-²; and 7 001 - 45 542 versus 1 587 – 16 958 seeds m-² respectively. Seed output in the TOCE was significantly higher in S. tegetaria during the second reproduction period despite the significantly lower plant cover, which may be a function of the stressful environment in the TOCE. Seed production of S. meyeriana was significantly higher in the POE compared to the TOCE, with 264 224 - 640 292 compared with 24 050 - 27 643 seeds m-², due to higher plant cover in the POE. The research suggests that macrophyte phenology in the TOCE was significantly influenced by mouth condition. Further, macrophytes were able to demonstrate considerable phenotypic plasticity in response to changing and unfavourable environmental conditions. These data can be used in mouth management plans and freshwater requirement studies in TOCEs to ensure that macrophytes can complete their life-cycles and produce viable seeds for the safeguarding of habitat persistence and ecological processes. In impacted estuaries where artificial mouth opening is practised and the macrophytes have been severely degraded or extirpated, management should ensure that the intertidal and supratidal habitats are not inundated during peak flowering and seed production periods i.e. late spring to early autumn (November to March).
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au, L. Sim@murdoch edu, and Lien Sim. "Transitions between ecological regimes in salinising wetlands." Murdoch University, 2005. http://wwwlib.murdoch.edu.au/adt/browse/view/adt-MU20061020.92805.
Full textAbstract:
Secondary salinisation has affected large areas of inland southwestern Australia, and in particular, low lying aquatic areas; causing the loss of freshwater submerged
macrophyte communities and their replacement by salt-tolerant species. At high salinities, the salt-tolerant macrophyte-dominated ecological regime may be replaced by
a regime dominated by benthic microbial communities, further reducing the structural and functional diversity of salinised wetland ecosystems. There is little prospect of restoring salinised systems to a freshwater state, meaning that saline macrophyte dominated wetlands have a heightened structural and functional importance in this
landscape. Prior to this study, little was known about the drivers for change from one ecological regime to another in salinising wetlands or about rates of ecosystem response
to these drivers.
This study used experimental and observational data from seven saline wetlands in order to identify some of the potential mechanisms for the transition between the salt tolerant submerged macrophyte-dominated regime and the benthic microbial community-dominated regime. The applicability of existing conceptual models for ecological regime shifts was then tested against these data. Some of the mechanisms responsible for the formation and maintenance of the macrophyte-dominated regime were explored by examining the effects of salinity on germination and flowering in a series of salt-tolerant submerged macrophytes. The initiation and dominance of benthic microbial communities over a range of salinity and wetting regimes was also examined.
The results suggested that macrophyte communities are unlikely to develop in seasonally-drying wetlands at high salinities (>45 ppt), but will usually germinate and
establish well at lower salinities. It was also predicted that although benthic microbial communities can survive and grow across a wide range of salinities, they are likely to be outcompeted at low salinities by macrophytes or by phytoplankton blooms if water column nutrient levels are high. However, water permanence may facilitate benthic
microbial community dominance.
Existing conceptual models of ecological regime transitions, such as the alternative regimes model, did not account for the effect of water regime on the dynamics of seasonally-drying systems. Therefore, a new conceptual model incorporating the interaction between hydrology and salinity in seasonally-drying wetlands was proposed.
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Gräfe, Simon. "Relationship Between the Invasive Eurasian Milfoil (Myriophyllum spicatum L.) and Macrophyte Diversity Across Spatial Scales." Thèse, Université d'Ottawa / University of Ottawa, 2013. http://hdl.handle.net/10393/30331.
Full textAbstract:
The effect of the invasive macrophyte Myriophyllum spicatum L. on native macrophyte diversity was studied across 21 lakes at small (1 quadrat) and large (18 quadrats) scales and in mesocosms. No relationship was observed between M. spicatum and native richness at either spatial scale, or native evenness at small scales; however, at large scales native evenness was negatively correlated with the cover of M. spicatum in lakes. This suggests that M. spicatum can grow in lakes with other dominant species, contrary to predictions that invasive species will outcompete other dominant species. While macrophyte communities were mainly distinguished by environmental and spatial variables, M. spicatum was a significant predictor of the remaining variation in community composition. Within lakes M. spicatum occurred in deep water apart from other species; however, competition studies in mesocosms did not find sufficient evidence that this isolation was due to superior competitiveness.
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Arnolds, Judith Lize. "Oxidative stress responses in the aquatic macrophyte, Ceratophyllum Demersum L., as biomarkers of metal exposure." Thesis, Cape Peninsula University of Technology, 2017. http://hdl.handle.net/20.500.11838/2649.
Full textAbstract:
Thesis (DTech (Environmental Health))--Cape Peninsula University of Technology, 2017.Metal pollution in aquatic environments is considered a major environmental concern because of variation in several abiotic factors that impose severe restrictions on organisms living in these areas. Ceratophyllum demersum L. (family Ceratophyllaceae), a hornwort or coontail, free floating rootless macrophyte has been suggested a suitable model for investigating metal stress and was used in the current study. This study assessed the use of selected biological responses, namely antioxidant responses and changes in chlorophyll concentration in Ceratophyllum demersum L., as biomarkers of metal exposure, and also investigated the field application of these responses in the Diep River. The ultimate aim was also to determine the usefulness of C. demersum as model of metal contamination and as phytoremediator after a pollution event. An investigation of metal bioaccumulation in this macrophyte exposed to different concentrations of a combination of metals over a five-week exposure period in a greenhouse, was undertaken, as well as a field study in the Diep River, Milnerton, Cape Town and a pond (reference site) at the Cape Peninsula University of Technology, Cape Town, to validate experimental results. In the laboratory study the water was contaminated once off at the beginning of the study, to simulate a pollution event. The metal concentrations in the water and plants were measured in the four treatments and the control every week over a five-week exposure period. The samples were acid-digested and analysed with an Inductively-Coupled Plasma-Mass Spectrophotometer (ICP-MS). The results showed that concentrations of the metals in the water varied in all treatments over time with no specific patterns amongst the treatment groups. This macrophyte proved highly effective in the bioaccumulation of these metals at all four exposure concentrations. The metals bioaccumulated rapidly in the plants after the water was spiked. The main focus of the study was to investigate the possible use of biochemical responses in C. demersum as possible biomarkers for metal exposure. A range of antioxidant/oxidative stress parameters were measured in the plant exposed to a combination of metals (Al, Cu, Fe, Zn) in four different treatments over the five week exposure period. Total antioxidant capacity (TAC) was measured using Total Polyphenols (TP), Ferric Reducing Antioxidant Power (FRAP) and Oxygen Radical Absorbance Capacity assay (ORAC), enzyme activity was determined using Catalase (CAT), Superoxide Dismutase (SOD), Ascorbate Acid (AsA) and Total Glutathione (GSHt) and lipid peroxidation was measured by using Thiobarbituric Acid Reactive Substances (TBARS) and Conjugated Dienes (CDs). The cocktail of the four metals induced significant changes in the antioxidant defence system of C. demersum, including the antioxidant enzyme activities. The different metal exposures disturbed the cellular redox status in the plant. The current study has demonstrated that this macrophyte shows tolerance to metal-induced oxidative stress and that it can survive under relatively high concentrations of these metals by adapting its antioxidant defence strategies. Chlorophyll was extracted in 80% chilled acetone in the dark and the absorbance values were determined using a spectrophotometer. Chlorophyll a (chl a), chlorophyll b (chl b) and total chlorophyll (chl t) contents were measured under different exposure concentrations of metals in the macrophyte. The results of this study indicated that chlorophyll contents were variable over the exposure period and no significant differences in chlorophyll concentrations were found between weeks. A field study in the Diep River and the pond located at the CPUT campus (reference site) was conducted to validate experimental results. Plants in a polluted section of the Diep River were shown to bioaccumulate metals to high concentrations. Bioaccumulation of metals in C. demersum might have induced oxidative stress, and other environmental factors such as temperature- and chemical stress might have caused chlorophyll degradation. The chlorophyll concentrations in the plants of the pond (reference site) might also have been affected by temperature and chemical stress of the water. Significantly higher AsA, CAT, ORAC, SOD and TBARS concentrations in the Diep River plants might be an indication that the plants in the river might be well adapted to the constant exposure to metals and that the plants might have developed a tolerance mechanism to cope with oxidative stress compared to those of the pond. The results show that metals are bioaccumulated quickly by C. demersum after the water is contaminated with metals, i.e. after the "pollution event". However, over time, metals are continuously exchanged between the plants and the water, accounting for the fluctuations in metal concentrations observed over time. This study has shown that C. demersum has phytoremediation potential because it was able to remove high concentrations of metals from the contaminated water. Therefore, C. demersum, can be applied as a model for metal contamination and a phytoremediator after a pollution event. The potential to antioxidant responses and chlorophyll content as biomarkers of metal exposure in C. demersum have been demonstrated.
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Partanen, S. (Sari). "Recent spatiotemporal changes and main determinants of aquatic macrophyte vegetation in large lakes in Finland." Doctoral thesis, University of Oulu, 2007. http://urn.fi/urn:isbn:9789514285950.
Full textAbstract:
Abstract During the past half century several large lakes in Finland have experienced notable changes in their ecological condition, induced mainly by water level regulation, eutrophication and land use transformation. The objective of this thesis was the quantification of the spatiotemporal changes of aquatic macrophytes in Finland during the second half of the 1900s. Mapped aquatic macrophyte cover from historic (1947–1963) and present day (1996–2000) aerial photographs, additional macrophyte data and several environmental variables were used to identify the main determinants of aquatic macrophyte distribution, abundance and change. Furthermore, factors influencing the littoral paludification process were identified. The study was conducted in 24 boreal lakes (41–1116 km2) with multisource vegetation data. Selected environmental variables of water level regulation, eutrophication and geomorphology were collected and analyzed. More than 402 km of littoral shoreline in historic and present day aerial photographs was analyzed with stereoscopic visual interpretation. A total of 474 habitat level study sites were used to examine the determining environmental factors of occurrence, abundance and change of emergent vegetation. Finally, 289 vegetation transects were performed in order to study the occurrence, types and main determinants of littoral paludification. Water level regulation was found to be the primary factor behind aquatic macrophyte vegetation development at the whole lake level. The major vegetation changes were determined by the mean water level rise or reduction, decreased fluctuation range and reduced spring flood. The vegetation response was less pronounced in a lake with water level regulation similar to natural fluctuation. Eutrophication influenced aquatic macrophytes at the site level. Land use variables of tributary and agriculture, indicating nutrient increment, corresponded positively with vegetation occurrence and abundance. Geomorphology explained vegetation development at the habitat level. Clay and related deposits and the shore slope specified the vegetation occurrence and affected the abundance of vegetation. Water level regulation, eutrophication, clay and shallowness were found to influence paludification. Helophyte species, common reed (Phragmites australis) and water horsetail (Equisetum fluviatile), dominated the emergent vegetation in the studied lakesTiivistelmä Viimeisen puolen vuosisadan aikana suomalaisiin suurjärviin on kohdistunut lukuisia muutoksia, jotka ovat vaikuttaneet järvien ekologiseen tilaan. Muutoksia ovat aiheuttaneet pääasiallisesti vesistöjen säännöstely, rehevöityminen sekä maankäytön muuttuminen. Tämän väitöskirjan tarkoituksena on analysoida noin viimeisten 50 vuoden aikana suomalaisissa suurjärvissä tapahtunutta ranta- ja vesikasvillisuuden pitkäaikaismuutosta. Historiallisilla (1947–1963) ja nykyisillä (1996–2000) ilmakuvilla, muilla kasvillisuusaineistoilla sekä useilla ympäristömuuttujilla tunnistettiin keskeisiä tekijöitä, jotka vaikuttivat kasvillisuuden esiintymiseen, runsauteen ja muutokseen. Tämän lisäksi tutkittiin rantojen pysyvän umpeenkasvun kehitysprosessia. Tutkimusta varten kasvillisuudesta kerättiin monilähdeaineistoa kaikilta Suomen päävaluma-alueilta yhteensä 24 eri järveltä, joiden koko vaihteli 41–1116 km2:n välillä. Tämän lisäksi useita vesistöjen säännöstelyn, rehevöitymisen ja geomorfologian ympäristömuuttujia kerättiin ja analysoitiin. Stereoskooppisella visuaalisella ilmakuvatulkinnalla tutkittiin yli 402 kilometriä rantaviivaa historiallisista ja nykyisistä ilmakuvista. Ilmaversoisen ranta- ja vesikasvillisuuden esiintymistä, runsautta ja historiallista muutosta analysoitiin 474 habitaattitason tutkimuspisteellä. Rantojen pysyvän umpeenkasvun esiintymistä, umpeenkasvun eri tyyppejä ja sitä määrittäviä tekijöitä tutkittiin 289 kasvilinjalla. Tutkimuksen tuloksena havaittiin, että järvitasolla vesistöjen säännöstely oli tärkein kasvillisuuden historialliseen kehitykseen vaikuttava tekijä. Huomattavimmat kasvillisuusmuutokset määräytyivät keskiveden noston, pienentyneen säännöstelyvälin, vähentyneen kevättulvan ja lasketun keskiveden tason seurauksena. Kasvillisuusmuutokset eivät olleet niin selviä, jos säännöstely muistutti luonnontilaista säännöstelyä. Rehevöityminen vaikutti ranta- ja vesikasvillisuuteen paikallisesti. Ravinteisuutta ilmentävät maankäytön muuttujat, ojat sekä maanviljelys, lisäsivät kasvillisuuden esiintymistä ja runsautta. Geomorfologiset tekijät selittivät kasvillisuuden kehitystä habitaattitasolla. Savinen maaperä sekä rannan mataluus lisäsivät vesi- ja rantakasvillisuuden esiintymistä sekä kasvillisuuden runsautta. Vesistöjen säännöstely, rehevöityminen, savinen maaperä sekä rannan mataluus lisäsivät rantojen pysyvää umpeenkasvua. Ilmaversoiset kasvilajit, järviruoko (Phragmites australis) ja järvikorte (Equisetum fluviatile), hallitsivat kasvillisuutta tutkituissa järvissä
36
Duong, Huynh Lien Stephanie, and stephanie duong@flinders edu au. "Investigating the ecological implications of wrack removal on South Australian sandy beaches." Flinders University. School of Biological Sciences, 2008. http://catalogue.flinders.edu.au./local/adt/public/adt-SFU20091125.143045.
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Accumulations of seagrass, macroalgae and other matter, collectively known as wrack, commonly occur on many sandy beaches, and can play an important role in coastal and nearshore ecosystems. Despite this, wrack removal from sandy beaches is a widespread and increasingly common practice globally, and there is little information regarding the ecological effects of such wrack removal on sandy beaches. The aim of this thesis was to establish the ecological importance of wrack in South Australian (SA) sandy-beach ecosystems. As a first step in furthering our understanding of the effects of wrack removal, I aimed to assess the importance of wrack, independent of the effects of wrack removal. The second over-riding aim of this thesis was to assess the ecological effects of wrack removal on aspects of these systems.
To date, the methods used for quantifying the size of wrack deposits on sandy beaches have had limited use due to the time and expertise required to conduct thorough sampling. In Chapter 2, I thus tested the accuracy of a rapid photopoint method to visually estimate percentage wrack cover as well as provide an archived record. Comparisons of results obtained from conventional transects with those from photopoints indicated that the photopoint technique can be used to rapidly and accurately estimate % wrack cover on sandy beaches. The photopoint method has a wide range of potential applications and represents a valuable advance in the field.
Currently our knowledge of the amounts and types of wrack on SA shores is limited, despite these accumulations being a feature of some SA beaches. Wrack deposits in three biogeographical regions of SA were thus repeatedly surveyed to assess spatial (between and within regions) and temporal (seasonal and inter-annual) variation (Chapter 2). Both wrack cover and the composition of wrack deposits varied spatially and temporally. Wrack deposits contained a diverse array of seagrass, algal, other biotic materials and anthropogenic debris. The South East region of SA had distinctly-different wrack deposits compared to the Metropolitan and Fleurieu Peninsula regions; in general, the cover of wrack was higher, and the diversity and biomass of kelps, red algae and green algae was higher in this region compared to the other two regions. South Australian wrack deposits are thus dynamic and complex.
The amount of wrack deposited and retained on a beach may be affected by the beach morphology but, to date, few studies have investigated this link. I assessed wrack cover on beaches with a range of morphodynamic types and found that beaches that were more dissipative in nature had a greater cover of wrack than beaches of the reflective type. I also examined whether wrack deposits affected the sediment characteristics of underlying and nearby sediments. Wrack deposits had little measurable effect on underlying sediments and did not affect particle-size distribution or organic-matter content. There was, however, a trend for beaches in the South East region of SA to have higher organic matter content in their sediments, and these beaches also have higher wrack cover and higher proportions of algae in their deposits. There was also a trend for beaches with higher wrack cover to have less compacted sediments, although this trend was not consistent.
Overnight pit-fall trapping surveys of the macrofauna on four SA sandy beaches indicated that local macrofaunal communities were diverse (representing 72 species from 19 Orders in total), abundant, and variable in both time and space. The macrofauna encountered were mostly terrestrial taxa with only 2 truly marine species, and spanned multiple trophic levels, concurring with the results of previous studies. Macrofaunal abundances were higher where associated with wrack than in bare sand, and macrofaunal communities differed between the driftline of wrack and wrack patches away from the driftline. Within the driftline itself, there were few differences between bare sand and wrack-covered areas, suggesting that the entire driftline area is important as a habitat and food resource. Thus, wrack deposits provide an important habitat and food source for macrofauna, and the driftline provides an area of beach with concentrated resources, which in turn concentrates a distinct macrofaunal community.
Wrack deposition on sandy beaches varies spatially and is affected by morphological features on the beach-face such as cusps. In Chapter 5, I thus tested a series of hypotheses regarding the differences in wrack deposits, sediments and macrofaunal communities between cusp bays and horns. Bays had greater cover and larger pieces of wrack than horns. Sediment organic-matter content was greater on horns than in bays but mean particle size did not differ consistently between bays and horns. Macrofaunal diversity was higher in bays and this pattern was probably driven by differences in the cover of wrack between bays and horns. Cusp morphology thus influences the distribution of wrack on the beach-face, which in turn influences the distribution of macrofauna. Studies of sandy beaches with cusps should therefore be explicitly designed to sample cusp features and their associated wrack deposits.
Chapter 6 assesses the incorporation of wrack into beach and nearshore ecosystems via two pathways: decomposition and incorporation into trophic webs. I assessed the decomposition of algal and seagrass wrack using litterbag experiments and found that after a very rapid initial loss of mass, likely due to cell lysis and leaching, the rate of decomposition of wrack was much slower. Most release of nutrients from organic matter decay thus appears to occur in the first few days after deposition and the processes affecting the rate and nature of wrack decomposition vary among taxa (i.e. algal versus seagrass and among species). Stable isotopes of C and N were used to assess whether beach macrofauna or nearshore macro-invertebrates and fish might rely on wrack as a source of nutrition. I found that seagrasses did not provide a food source for any consumers but algae, particularly brown algae including kelps, appeared to be potential sources of nutrition for beach and nearshore consumers. The incorporation of wrack into beach and nearshore ecosystems may thus occur primarily through consumption of algal wrack by herbivores such as amphipods and dipterans, with predation on them being important pathways for the transfer of nutrients and energy into higher trophic levels. The amount of wrack in the surf zone did not affect the abundance and species richness of fish and invertebrates netted there.
The aim of Chapter 7 was to determine the effects of wrack removal on sandy beach macrofaunal communities. In the first study the effects of large-scale commercial harvest of wrack on the macrofaunal communities at Kingston were assessed. The macrofaunal communities present in the Natural area of Kingston beach were far more diverse and abundant, and included different species, compared to the Cleared area at Kingston. In the second part of Chapter 7, I experimentally removed wrack from the driftline of beaches to assess short-term effects on macrofaunal communities. The experimental treatment did not appear to have any measurable
effects on the macrofaunal communities. I also analysed material that was removed from the beach in the raking experiments and found that a large proportion of the material (e.g. 81% of the DW) was sand. I recommend that future studies into the effects of wrack removal use large cleared areas of beach, attempt to use the same wrack removal methods and/or machinery used locally, and assess the macrofaunal communities repeatedly and over longer times following wrack removal activities.
In Chapter 8, I attempt to assess the effects of removal of wrack for beach cleaning or commercial harvest of wrack by comparing key indicators from Chapters 2 to 7. Implications and recommendations for the management of wrack are discussed, including with regard to the techniques used in this thesis and their applicability in managing wrack deposits. I attempt to identify the shortcomings of this research as well as directions for further research.
Thus I have demonstrated that wrack in SA provides an important link between offshore habitat and nearshore, beach and terrestrial habitats via the transfer of organic matter and nutrients. Wrack interacts with beach morphology and sediments, provides habitat for macrofauna, remineralises nutrients through its decomposition, and provides the basis of a complex trophic web. I conclude that wrack is a key component in beach ecosystems.
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Malaspina, Igor Cruz [UNESP]. "Eficácia biológica e feitos tóxicos de fontes de cobre e diquat para organismos aquáticos." Universidade Estadual Paulista (UNESP), 2016. http://hdl.handle.net/11449/138219.
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As macrófitas aquáticas possuem papel fundamental nos ecossistemas aquáticos participando dos processos de ciclagem de nutrientes, além de servirem como abrigo e alimento para muitas espécies de peixes e outros organismos. Dentre os principais métodos de controle de macrófitas está o controle químico com o uso de herbicidas. O objetivo deste estudo foi realizar o controle químico da macrófita Hydrilla verticillata com a aplicação isolada de diquat e hidróxido de cobre, e da mistura de diquat + 1% de hidróxido de cobre. O primeiro experimento para o controle da H. verticillata e da microalga Ankistrodesmus gracilis foi realizado em sala de bioensaio em recipientes plásticos de 1,5 litros, sendo todos os tratamentos testados eficientes no controle da macrófita e da microalga. Posteriormente, foram realizados experimentos em condições de microcosmos de concreto de 600 litros e em mesocosmos de concreto de 1200 litros, com o monitoramento de variáveis da qualidade da água (temperatura, oxigênio dissolvido, condutividade elétrica e pH), teor de clorofila a, demanda biológica de oxigênio (DBO) e demanda química de oxigênio (DQO) por um período de sessenta dias após a aplicação dos tratamentos. A mistura de diquat + 1% de hidróxido de cobre foi o tratamento mais eficaz no controle da macrófita Hydrilla verticillata para a maioria dos parâmetros analisados, havendo alteração nas variáveis de qualidade da água. Foram também realizados experimentos ecotoxicológicos para organismos não-alvo (Hyphessobrycon eques, Pomacea canaliculata, Lemna minor e Azolla caroliniana) com diquat, oxicloreto e hidróxido de cobre, onde a mistura de diquat + 1% de oxicloreto de cobre foi a mais tóxica para os organismos bioindicadores e a macrófita Lemna minor foi o bioindicador que apresentou a maior sensibilidade aos agroquímicos testados.
The macrophytes have a fundamental role in aquatic ecosystems participating in nutrient cycling processes, as well as serving as shelter and food for many species of fish and other organisms. Among the main weeds control methods is chemical control using herbicides. The aim of this study was the chemical control of the macrophyte Hydrilla verticillata with isolated application of diquat and copper hydroxide, and the mixture of diquat + 1% copper hydroxide. The first experiment for the control of H. verticillata and microalgae Ankistrodesmus gracilis was held in bioassay room in plastic containers of 1.5 liters, with all treatments tested effective in controlling macrophyte and microalgae. Subsequently, experiments were carried out under conditions of 600 liters concrete microcosms and in 1200 liters concrete mesocosms, with the monitoring of water quality variables (temperature, dissolved oxygen, electrical conductivity and pH), content chlorophyll a, demand biological oxygen (BOD) and chemical oxygen demand (COD) for a period of sixty days after the application of treatments. The mixture diquat + 1% copper hydroxide was the most effective treatment in Hydrilla verticillata of weed control for the majority of parameters, with change in water quality variables. Ecotoxicological experiments were also carried out for non-target organisms (Hyphessobrycon eques, Pomacea canaliculata, Lemna minor and Azolla caroliniana) with diquat, oxychloride and copper hydroxide, wherein the mixture of diquat + 1% copper oxychloride is more toxic to bioindicators organisms and macrophyte Lemna minor was bioindicador with the highest sensitivity to the tested pesticides.
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Andersson, Magnus. "Selective predation by perch (Perca fluviatilis) on a freshwater isopod, in two macrophyte substrates." Thesis, Linköpings universitet, Ekologi, 2010. http://urn.kb.se/resolve?urn=urn:nbn:se:liu:diva-58018.
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Recent studies show that populations of the freshwater isopod Asellus aquaticus L. can rapidly become locally differentiated when submerged stonewort (Chara spp.) vegetation expands in lakes. In the novel Chara habitat, isopods become lighter pigmented and smaller than in the ancestral reed stands. In this study, I used laboratory experiments to investigate if selective predation by fish could be a possible explanation for these phenotypic changes. Predation from fish is generally considered to be a strong selective force on macroinvertebrate traits. In the first experiment I measured perch (Perca fluviatilis L.) handling time for three size classes of Asellus to see which size of those that would be the most profitable to feed upon. No difference in handling time was detected between prey sizes, hence the largest size would be the most beneficial to feed upon. In a second experiment I let perch feed on a mixture of Asellus phenotypes in aquaria manipulated to mimic the substrates in either the Chara or the reed habitats. Remaining isopods were significantly smaller and lighter pigmented in the fish aquaria than in the controls, showing that the perch preferred to feed on large and dark individuals. In the Chara habitat, selection on isopod pigmentation was according to what could be expected from background matching, but in the reed habitat selection was quite the opposite. These results support the hypothesis that predation from fish is a strong selective force behind the rapid local adaptation seen in Asellus populations in the novel Chara habitat.
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Fleming, Jonathan Paul. "MACROPHYTE RE-ESTABLISHMENT AND DEDUCTIVE GIS MODELING TO IDENTIFY PLANTING LOCATIONS FOR FISH HABITAT ENHANCEMENT PROJECTS." MSSTATE, 2010. http://sun.library.msstate.edu/ETD-db/theses/available/etd-03202010-121237/.
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Aquatic macrophytes are important components in structuring aquatic communities because they provide physical and biological functions that contribute to the stability of the ecosystem. Macrophytes provide the basis for the aquatic food-web and also provide habitat and refugia for aquatic fauna. In systems that lack macrophytes, anthropogenic re-establishment may be a feasible management approach to improve aquatic ecosystems. Understanding environmental factors that regulate colonization, dispersal, and persistence of aquatic macrophytes is pertinent to re-establishment efforts. The purpose of this study is to test hypotheses regarding success of macrophyte re-establishment efforts in Little Bear Creek Reservoir, Alabama using different macrophyte species, water depths, plant patch size and protection against herbivores at planting sites. In addition, a deductive GIS model is used to predict suitable areas to focus re-establishment efforts. Knowledge generated from hypothesis testing and application of GIS modeling provides novel information and tools for managing aquatic ecosystems.
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White, Sean D. "Internal pressurisation and convective flow in two species of emergent macrophyte; Typha domingensis and Phragmites australis /." Title page, contents and summary only, 1999. http://web4.library.adelaide.edu.au/theses/09PH/09phw5877.pdf.
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Aichner, Bernhard [Verfasser], and Ulrike [Akademischer Betreuer] Herzschuh. "Aquatic macrophyte-derived biomarkers as palaeolimnological proxies on the Tibetan Plateau / Bernhard Aichner ; Betreuer: Ulrike Herzschuh." Potsdam : Universität Potsdam, 2010. http://d-nb.info/1218389001/34.
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Westwood, Christian G. "The responses of chalk stream macrophyte communities to environmental conditions at a range of spatial scales." Thesis, University of Portsmouth, 2003. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.402251.
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Sun, Junyao. "Multi-scale effects of hydrological and landscape variables on macrophyte richness and composition in British lakes." Thesis, University of Stirling, 2016. http://hdl.handle.net/1893/25489.
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Macrophytes are an integral component of lake littoral zones and play an irreplaceable role in maintaining the ecological balance of wetlands. Recent research has highlighted the role of lake-scale environmental factors (or “filters”) and catchment- and/or landscape-scale processes in explaining variation in macrophyte communities across different scales. In this work, the effects of land-use and connectivity on macrophyte communities were explored at two contrasting spatial scales (i.e. local catchment scale and topographic catchment scale). At the local catchment scale, the results revealed strong scale-dependency. The effects of land use on macrophyte richness were most apparent at fine spatial scales (within 0.5 to 1 km) and significantly outweighed the importance of hydrology. In terms of growth form composition, the effects of hydrological connectivity were stronger than those of land use, with the greatest effect observed at an intermediate distance (~ 5 km) from the lake. The study on the hydrologically-connected lake pairs indicated that environmental filters were more influential in explaining species turnover than lake connectivity. Interestingly, geographical connectivity explained more of the variability in species turnover than hydrological connectivity. Moreover, the relative importance of environmental filters and lake connectivity to species turnover was very sensitive to the degree of human disturbance. The multi-scale interaction analyses indicated the effect of lake alkalinity on macrophyte composition is strongly influenced by catchment scale variables including hydrological features and land use intensity. The turnover in macrophyte composition in response to variability in alkalinity was stronger in catchments with low lake and stream density and weaker in catchments with a more highly developed hydrological network. Lake abiotic variables were found to have more influence on macrophyte composition in lowland catchments with a higher intensity of human disturbance. Moreover, the catchment-scale factors promoting the establishment of different communities were found to vary between catchments depending on lake type, the degree of environmental heterogeneity and hydrological connectivity.
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Tagun, Rungnapa. "The effects of mixtures of pesticides, in use in Thailand, on the aquatic macrophyte Lemna minor." Thesis, University of York, 2014. http://etheses.whiterose.ac.uk/8246/.
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The aim of the present study was to assess the effects of four herbicides commonly used in Thailand (atrazine, 2,4-D, alachlor, paraquat)on the aquatic plant Lemna minor under differing patterns of exposure (single-, mixture-, and sequential- exposure). The endpoint of interest was the growth rate of plants over time. In the single-compound toxicity studies, paraquat was found to be the most toxic pesticide followed by alachlor, atrazine and 2,4-D. Mixture studies were then done on the pesticides to understand how they would interact. Comparison of data from toxicity tests on mixtures of the pesticides with modelling predictions indicated that atrazine and2,4-D interact antagonistically whereas alachlor and paraquat interact synergistically. These results are in agreement with other mixture studies with pesticides. Studies were also done to understand the effects of the different pesticides when applied in sequence. Comparison of the experimental results with predictions from a simple model demonstrated that at low effect concentration herbicides, the model works well but at higher concentrations it falls down. To explore the reasons for this, a further study was done to assess the carry-over toxicity of the study compounds. This work demonstrates approaches to understand the effects of pesticides under more realistic exposure conditions. It demonstrates that while modelling approaches are available for estimating impacts under more realistic exposures, the accuracy of the predictions is likely to be highly dependent on the mode of action and concentration of the pesticide and the duration of the exposure.
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Yamanaka, Hiroki. "Physiological evaluation of macrophyte zone as a habitat for the round crucian carp, Carassius auratus grandoculis." 京都大学 (Kyoto University), 2007. http://hdl.handle.net/2433/136805.
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Bickel, Tobias O., and n/a. "Lagarosiphon major : an introduced macrophyte and its ecological role in the littoral of Lake Dunstan, New Zealand." University of Otago. Department of Zoology, 2007. http://adt.otago.ac.nz./public/adt-NZDU20070323.131753.
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The littoral of Lake Dunstan, Central Otago, New Zealand, is dominated by the introduced submersed macrophyte Lagarosiphon major (hereafter Lagarosiphon) which effectively excludes native macrophytes from most of the littoral. Lake Dunstan is a large hydro lake that was - after reaching its operational water level in 1993 - rapidly colonized by Lagarosiphon from upstream sources. Because of its extensive biomass and growth, it is believed the macrophyte plays an important part in the lake ecosystem but also that it requires frequent management to allow for recreational activities, to restore aesthetic values of beaches and especially to prevent further spread into unaffected waterways. To assess the integration of Lagarosiphon into the lake ecosystem and possible impacts of extensive macrophyte removal a 3 year study was initiated focusing on invertebrate and fish distribution and diet in relation to Lagarosiphon. A stable isotope analysis was used to reconstruct carbon flows and trophic structure within the littoral of Lake Dunstan. Additionally, a small scale weed management experiment was carried out to assess possible impacts of macrophyte removal on invertebrates and fish.
Lagarosiphon harboured a high density and diversity of macroinvertebrates. The invertebrate community was dominated by mollusc species in terms of biomass and abundance. There was little temporal and spatial variation in invertebrate distribution and communities on a large scale (lake-wide variation), but there were differences in invertebrate biomass on a smaller scale in relation to the location of samples within the macrophyte belt. Invertebrate biomass was lowest at the bottom of the dense macrophyte beds.
The positive association of common bully (Gobiomorphus cotidianus: Eleotridae) with the dense Lagarosiphon stands and a diet - mainly consisting of invertebrates common on Lagarosiphon - suggested the important role of this macrophyte as a provider of food and shelter for small fish species. Brown and rainbow trout (Salmo trutta, Oncorhynchus mykiss: Salmonidae) diet was dominated by invertebrate species common on this macrophyte as well.
Results of the stable isotope analysis suggested a secondary role of Lagarosiphon in the lake food web as a surface provider for the growth of epiphytic algae that appeared to be a major primary producer in the littoral of Lake Dunstan. Detritus (FPOM), assumed to consist partly of decaying Lagarosiphon, played a less important role as a base for the food chain. The main carbon flow pathway was from the primary producers (epiphyton - FPOM) through primary consumers (Mollusca, Chironomidae, Trichoptera) through to the top predators (tertiary consumers: trout and bullies) in the system.
A small scale experiment on the influence of macrophyte harvest, i.e. the cutting of channels into dense macrophyte beds, showed that a partial removal of macrophyte biomass could help achieve several management goals: it not only reduced macrophyte biomass to enable recreational activities but also had no negative impacts on invertebrate biomass and diversity. The channels even increased invertebrate abundance and biomass in the treated compared to the untreated control plots along the cut edges. Regrowth of Lagarosiphon was rapid, with the cut channels being completely overgrown within 4 months.
All these results taken together suggested a major role of Lagarosiphon in the littoral of Lake Dunstan. Lagarosiphon supported a species rich invertebrate community and was the main provider of food and shelter for fish in this lake. A partial removal of macrophyte biomass might be a more suitable management option than large scale eradication to avoid negative impacts on the lake ecosystem. The most important aspect in management of this weed remains the prevention of further spread into pristine waters.
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Potter, Kelly L. "The aquatic macrophyte Vallisneria americana as a biomonitor of site quality in Great Lakes Areas of Concern." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1998. http://www.collectionscanada.ca/obj/s4/f2/dsk1/tape10/PQDD_0017/MQ52638.pdf.
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Weyl, Philip Sebastian Richard. "Friend or foe? : Resolving the status of the submerged macrophyte Myriophyllum spicatum L. (Haloragaceae) in southern Africa." Thesis, Rhodes University, 2015. http://hdl.handle.net/10962/d1017811.
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Myriophyllum spicatum L. (Haloragaceae), a submerged macrophyte, has been recorded in southern Africa since 1829, but only considered problematic as recently as 2005. In light of this, water resource managers are looking to control M. spicatum in southern African water bodies where it is problematic. Amongst control options available in South Africa, biological control is potentially the most cost effective and sustainable option for M. spicatum. However, there is a debate over the status of this plant in southern Africa with several authors reporting it as a native component of the aquatic ecosystem, while others argue that it has been introduced from Europe or Asia. The aim of this thesis is to use a multifaceted approach to resolve the status of M. spicatum, by studying aspects of its history, distribution, mechanisms of its adaptations, biotic interactions and genetic relationships in southern Africa. By resolving the status of this plant as either native or exotic, appropriate management strategies can be initiated for its control in situations where it is considered a problem.A review of the evidence collected from this thesis does not provide convincing evidence for the anthropogenic introduction of M. spicatum into southern Africa, and it is probably native to the region. The disjunct distribution as well as regular local extinctions of populations is relatively common for species that are at the edge of their range. The populations in southern Africa could thus be relics from a much wider distribution in the past. The development of local adaptations in southern Africa provides evidence for this and suggests that the populations have been isolated for a substantial period of time and have had a long evolutionary history in the region. The lack of specialist herbivores should suggest that M. spicatum has been introduced, but the complete lack of herbivores, including generalists, may weaken that argument. The lack of herbivores could be a result of something inherent in the plant, irrespective of a lack of evolutionary history in the region. The genetic evidence suggests a European origin, but is characteristic of a population (southern Africa as a whole) that has been isolated for a considerable time. Despite the findings of this research, M. spicatum is considered problematic in southern Africa and warrants control in certain systems. Whether or not biological control should be a component of the management strategy is open to further debate. The benefits in a southern African context may outweigh the risks, based on the specificity of the biological control agent proposed. However, the perceived negative impacts of M. spicatum are likely to be a symptom of a more serious underlying cause, such as nutrient loading and changes in land use patterns. Therefore the control of this native species is a water resource management issue and not a biological control issue.
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Treviño, Jessica Marie. "Effects of Macrophyte Functional Diversity on Taxonomic and Functional Diversity and Stability of Tropical Floodplain Fish Assemblages." Thesis, University of North Texas, 2015. https://digital.library.unt.edu/ark:/67531/metadc804900/.
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Multiple dimensions of biodiversity within and across producer and consumer guilds in the food web affect an ecosystem’s functionality and stability. Tropical and subtropical aquatic ecosystems, which are extremely diverse, have received much less attention than terrestrial ecosystems in regards to the effects of biodiversity on ecosystem functioning. We conducted a field experiment that tested for effects of macrophyte functional diversity on diversity and stability of associated fish assemblages in floodplain lakes of the Upper Paraná River floodplain, Brazil. Three levels of macrophyte functional diversity were maintained through time in five floodplain lakes and response variables included various components of fish taxonomic and functional diversity and stability. Components of functional diversity of fish assemblages were quantified using a suite of ecomorphological traits that relate to foraging and habitat use. Response variables primarily distinguished macrophyte treatments from the control. Macrophyte treatments had, on average, double the number of species and total abundance than the control treatment, but only limited effects on stability. The high diversity treatment was essentially nested within the low diversity for assemblage structure and had similar or even slightly lower levels of species richness and abundance in most cases. Gymnotiformes and young-of-year were diverse and relatively abundant in macrophyte treatments contributing to the large differences in diversity between macrophyte and control treatments. Higher fish diversity in structured habitats compared to more homogenous habitats is likely associated with increased ecomorphological diversity to exploit heterogeneous microhabitats and resources provided by the macrophytes.
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Roshon, Roxana D. "A toxicity test for the effects of chemicals on the non-target submersed aquatic macrophyte, Myriophyllum sibiricum Komarov." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1997. http://www.collectionscanada.ca/obj/s4/f2/dsk2/ftp02/NQ33321.pdf.
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